Citrus Sinensis ID: 002427

Local Sequence Feature Prediction

Prediction and (Method)Result
Residue Number Marker
Protein Sequence ?
Secondary Structure (PSIPRED) ?
Secondary Structure Prediction (SSPRO) ?
Coil and Loop (DISEMBL) ?
Flexible Loop (DISEMBL) ?
Low Complexity Region (SEG) ?
Disordered region (IsUnstruct) ?
Disordered Region (DISOPRED) ?
Disordered Region (DISEMBL) ?
Disordered Region (DISPRO) ?
Transmembrane Helix (TMHMM) ?
Transmembrane Helix (HMMTOP) ?
Transmembrane Helix (MEMSAT) ?
TM Helix, Signal Peptide (MEMSAT_SVM) ?
TM Helix, Signal Peptide (Phobius) ?
Signal Peptide (SignalP HMM Mode) ?
Signal Peptide (SignalP NN Mode) ?
Coiled Coils (COILS) ?
Positional Conservation ?
 
--------10--------20--------30--------40--------50--------60--------70--------80--------90-------100-------110-------120-------130-------140-------150-------160-------170-------180-------190-------200-------210-------220-------230-------240-------250-------260-------270-------280-------290-------300-------310-------320-------330-------340-------350-------360-------370-------380-------390-------400-------410-------420-------430-------440-------450-------460-------470-------480-------490-------500-------510-------520-------530-------540-------550-------560-------570-------580-------590-------600-------610-------620-------630-------640-------650-------660-------670-------680-------690-------700-------710-------720-------730-------740-------750-------760-------770-------780-------790-------800-------810-------820-------830-------840-------850-------860-------870-------880-------890-------900-------910-------920----
MMALSNRDLQLTELNGGGSSDGDDREDEWLLNNYDGKKERIGDGMRRIQVGVTGMTCAACSNSVEGALMGLKGVAKASVALLQNKADVVFDPDLVKDEDIKNAIEDAGFEAEILAESSTSGPKPQGTIVGQYTIGGMTCAACVNSVEGILSNFKGVRQFRFDKISGELEVLFDPEALSSRSLVDGIAGRSNGKFQIRVMNPFARMTSRDSEETSNMFRLFISSLFLSIPVFFIRVICPHIPLVYALLLWRCGPFLMGDWLNWALVSVVQFVIGKRFYTAAGRALRNGSTNMDVLVALGTSAAYFYSVGALLYGVVTGFWSPTYFETSAMLITFVLFGKYLEILAKGKTSDAIKKLVELAPATALLVVKDKVGKCIEEREIDALLIQSGDTLKVLPGTKLPADGIVVWGTSYVNESMVTGEAVPVLKEINSPVIGGTINLHGVLHIQATKVGSDAVLSQIISLVETAQMSKAPIQKFADFVASIFVPIVVTLALFTWLCWYVAGVLGAYPEQWLPENGTHFVFALMFSISVVVIACPCALGLATPTAVMVATGVGANNGVLIKGGDALERAQKIKYVIFDKTGTLTQGRATVTTAKVFTKMDRGEFLTLVASAEASSEHPLAKAVVEYARHFHFFDDPSLNPDGQSHSKESTGSGWLLDVSDFSALPGRGIQCFISGKQVLVGNRKLLNESGITIPDHVESFVVELEESARTGILVAYDDNLIGVMGIADPVKREAAVVVEGLLKMGVRPVMVTGDNWRTAHAVAREIGIQDVMADVMPAGKADAVRSFQKDGSIVAMVGDGINDSPALAAADVGMAIGAGTDIAIEAADYVLMRNSLEDVIIAIDLSRKTFARIRLNYIFAMAYNVIAIPIAAGVFFPSLGIKLPPWAAGACMALSSVSVVCSSLLLRRYKKPRLTTILEITVE
ccccccccccccccccccccccccccHHHHHccccccccccccccEEEEEEEcccccHHHHHHHHHHHccccccEEEEEEccccEEEEEEccccccHHHHHHHHHHccccccccccccccccccccccccEEEEccccHHHHHHHHHHHHcccccEEEEEEEccccEEEEEEccccccHHHHHHHHHHccccccccccccHHHHccccHHHHHHHHHHHHHHHHHHHHHHHHHHHHcccHHHHHHHHHHHcccccHHHHHHHHHHHHHHHccccHHHHHHHHHHHcccccccHHHHHHHHHHHHHHHHHHHHHHHcccccccEEcHHHHHHHHHHHHHHHHHHccccHHHHHHHHHcccccEEEEEEccccccccEEEEEEccccccccEEEEccccccccccEEEEcccccHHHccccccccccccccccEEEEEEcccEEEEEEEEEcccHHHHHHHHHHHHHHcccccHHHHHHcHHccccHHHHHHHHHHHHHHHHHHHcccccccccccccccHHHHHHHHHHEEEEEccccccccHHHHHHHHHHcHHHccccEEcccHHHHHcccccEEEEccccccccccEEEEEEEEcccccHHHHHHHHHHHHccccccHHHHHHHHHHHcccccccccccccccccccccccccccccccEEccccccEEEEEccEEEEEccHHHHHHccccccHHHHHHHHHHHHccccEEEEEEccEEEEEEEEcccccccHHHHHHHHHHccccEEEEccccHHHHHHHHHHccccEEEEEcccHHHHHHHHHHHHcccEEEEEcccccHHHHHHHHcccHHHcHHHHHHHHHccEEEEcccHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHcccccccccccccHHHHHHHHHHHHHHHHHcccccccccccccccccccccc
ccccccccEEEEccccccccccccHHHHHHHHHHcHHcccccccEEEEEEEEEcccHHHHHHHHHHHHHcccccEEEEEEEcccEEEEEEccccccHHHHHHHHHHccccEEEEcccccccccccccEEEEEEEccccHHHHHHHHHHHHHcccccEEEEEEEcccEEEEEEccccccHHHHHHHHHHHccccEEEccccccHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHcccccHHHHHHcccccHcHHHHHHHHHHccHEEHccHHHHHHHHHHHHccccccHHHHHHHHHHHHHHHHHHHHHHccccccccHHHHHHHHHHHHHHHHHHHHHHHccccHHHHHHHHccccccEEEEEEcccccccEEEEEEHHHEEcccEEEEEcccccccccEEEEcccccccccccccccccEcccccEEEEEEEccccEEEEEEEEccHHHHHHHHHHHHHHHHcccHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHccccccccHccccccccHHHHHHHHHHHHHHHcccHcccccccEEEEcccHccHccEEEEccHHHHHHccccEEEEEccccEcccccEEEEEEEcccccHHHHHHHHHHHHcccccHHHHHHHHHHHHccccccccccccccccccccccccccccHHHccEcccccEEEEEcccEEEEccHHHHHHccccccHHHHHHHHHHHHccccEEEEEEcccEEEEEEEEccccccHHHHHHHHHHcccEEEEEEcccHHHHHHHHHHccccHEHHEEccHHHHHHHHHHHHcccEEEEEccccccHHHHHHHcEEEEEccccHHHHHHHHHEEEcccHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHcHccccccHHHHHHHHHHHHHHHHHHHHHHHHcccccccccEEEEEEc
mmalsnrdlqltelngggssdgddredewllnnydgkkerigdgmRRIQVGVTGMTCAACSNSVEGALMGLKGVAKASVALLQnkadvvfdpdlvkdeDIKNAIEDAGFEAEILaesstsgpkpqgtivgqytiGGMTCAACVNSVEGILSNFKGVRQFRFDKISgelevlfdpealssrslvdgiagrsngkfqirvmnpfarmtsrdseeTSNMFRLFISSLFLSIPVFFIRVICPHIPLVYALLLWrcgpflmgdwLNWALVSVVQFVIGKRFYTAAGRALRNGSTNMDVLVALGTSAAYFYSVGALLYGVVtgfwsptyfeTSAMLITFVLFGKYLEILAKGKTSDAIKKLVELAPATALLVVKDKVGKCIEEREIDALLIQsgdtlkvlpgtklpadgiVVWGTSYVnesmvtgeavpvlkeinspviggtinLHGVLHIQATKVGSDAVLSQIISLVETaqmskapiqKFADFVASIFVPIVVTLALFTWLCWYVAgvlgaypeqwlpengtHFVFALMFSISVVVIACpcalglatpTAVMVATGvganngvlikggDALERAQKIKYVIFdktgtltqgratvTTAKVFTKMDRGEFLTLVASaeassehpLAKAVVEYARHfhffddpslnpdgqshskestgsgwlldvsdfsalpgrgiqcfisgkqvLVGNRKllnesgitipdHVESFVVELEESARTGILvayddnligvmgiadpvKREAAVVVEGLLKmgvrpvmvtgdnwRTAHAVAREIGIQDVmadvmpagkADAVRSFQKDGSIVAMvgdgindspalaAADVGMAIGAGTDIAIEAADYVLMRNSLEDVIIAIDLSRKTFARIRLNYIFAMAYNVIAIpiaagvffpslgiklppwaagacMALSSVSVVCSSLLlrrykkprlTTILEITVE
mmalsnrdlqltelngggssdgddredeWLLNnydgkkerigdgMRRIQVGVTGMTCAACSNSVEGALMGLKGVAKASVALLQNKadvvfdpdlvKDEDIKNAIEDAGFEAEILaesstsgpkpqgTIVGQYTIGGMTCAACVNSVEGILSNFKGVRQFRFDKISGELEVLFDPEALSSRSLVDgiagrsngkfqirvmnpfARMTSRDSEETSNMFRLFISSLFLSIPVFFIRVICPHIPLVYALLLWRCGPFLMGDWLNWALVSVVQFVIGKRFYTAAgralrngsTNMDVLVALGTSAAYFYSVGALLYGVVTGFWSPTYFETSAMLITFVLFGKYLEILAKGKTSDAIKKLVElapatallvvKDKVGKCIEEREIDALLIQSGDTLKVLPGTKLPADGIVVWGTSYVNESMVTGEAVPVLKEINSPVIGGTINLHGVLHIQATKVGSDAVLSQIISLVETAQMSKAPIQKFADFVASIFVPIVVTLALFTWLCWYVAGVLGAYPEQWLPENGTHFVFALMFSISVVVIACPCALGLATPTAVMVATGVGANNGVLIKGGDALERAQKIKYVifdktgtltqgratvttakvftkmDRGEFLTLVASAEASSEHPLAKAVVEYARHFHFFDDPSLNPDGQSHSKESTGSGWLLDVSDFSALPGRGIQCFISGKQVLVGNRKLLNESGITIPDHVESFVVELEESARTGILVAYDDNLIGVMGIADPVKREAAVVVEGLLKMGVRPVMVTGDNWRTAHAVAREIGIQDVMADVMPAGKADAVRSFQKDGSIVAMVGDGINDSPALAAADVGMAIGAGTDIAIEAADYVLMRNSLEDVIIAIDLSRKTFARIRLNYIFAMAYNVIAIPIAAGVFFPSLGIKLPPWAAGACMALSSVSVVCSSlllrrykkprlttileitve
MMALSNRDLQLTELNgggssdgddredeWLLNNYDGKKERIGDGMRRIQVGVTGMTCAACSNSVEGALMGLKGVAKASVALLQNKADVVFDPDLVKDEDIKNAIEDAGFEAEILAESSTSGPKPQGTIVGQYTIGGMTCAACVNSVEGILSNFKGVRQFRFDKISGELEVLFDPEALSSRSLVDGIAGRSNGKFQIRVMNPFARMTSRDSEETSNMFRLFISSLFLSIPVFFIRVICPHIPLVYALLLWRCGPFLMGDWLNWALVSVVQFVIGKRFYTAAGRALRNGSTNMDVLVALGTSAAYFYSVGALLYGVVTGFWSPTYFETSAMLITFVLFGKYLEILAKGKTSDAIKKLVELAPATALLVVKDKVGKCIEEREIDALLIQSGDTLKVLPGTKLPADGIVVWGTSYVNESMVTGEAVPVLKEINSPVIGGTINLHGVLHIQATKVGSDAVLSQIISLVETAQMSKAPIQKFADFVASIFVPIVVTLALFTWLCWYVAGVLGAYPEQWLPENGTHFVFALMFSISVVVIACPCALGLATPTAVMVATGVGANNGVLIKGGDALERAQKIKYVIFDKTGTLTQGRATVTTAKVFTKMDRGEFLTLVASAEASSEHPLAKAVVEYARHFHFFDDPSLNPDGQSHSKESTGSGWLLDVSDFSALPGRGIQCFISGKQVLVGNRKLLNESGITIPDHVESFVVELEESARTGILVAYDDNLIGVMGIADPVKREAAVVVEGLLKMGVRPVMVTGDNWRTAHAVAREIGIQDVMADVMPAGKADAVRSFQKDGSIVAMVGDGINDSPALAAADVGMAIGAGTDIAIEAADYVLMRNSLEDVIIAIDLSRKTFARIRLNYIFAMAYNVIAIPIAAGVFFPSLGIKLPPWAAGACMAlssvsvvcsslllRRYKKPRLTTILEITVE
****************************WLLNNYDGKKERIGDGMRRIQVGVTGMTCAACSNSVEGALMGLKGVAKASVALLQNKADVVFDPDLVKDEDIKNAIEDAGFEAEI************GTIVGQYTIGGMTCAACVNSVEGILSNFKGVRQFRFDKISGELEVLFDPEALSSRSLVDGIAGRSNGKFQIRVMNPF************NMFRLFISSLFLSIPVFFIRVICPHIPLVYALLLWRCGPFLMGDWLNWALVSVVQFVIGKRFYTAAGRALRNGSTNMDVLVALGTSAAYFYSVGALLYGVVTGFWSPTYFETSAMLITFVLFGKYLEILAKGKTSDAIKKLVELAPATALLVVKDKVGKCIEEREIDALLIQSGDTLKVLPGTKLPADGIVVWGTSYVNESMVTGEAVPVLKEINSPVIGGTINLHGVLHIQATKVGSDAVLSQIISLVETAQMSKAPIQKFADFVASIFVPIVVTLALFTWLCWYVAGVLGAYPEQWLPENGTHFVFALMFSISVVVIACPCALGLATPTAVMVATGVGANNGVLIKGGDALERAQKIKYVIFDKTGTLTQGRATVTTAKVFTKMDRGEFLTLVASAEA***HPLAKAVVEYARHFHFFD******************GWLLDVSDFSALPGRGIQCFISGKQVLVGNRKLLNESGITIPDHVESFVVELEESARTGILVAYDDNLIGVMGIADPVKREAAVVVEGLLKMGVRPVMVTGDNWRTAHAVAREIGIQDVMADVMPAGKADAVRSFQKDGSIVAMVGDGINDSPALAAADVGMAIGAGTDIAIEAADYVLMRNSLEDVIIAIDLSRKTFARIRLNYIFAMAYNVIAIPIAAGVFFPSLGIKLPPWAAGACMALSSVSVVCSSLLLRRYKKPRLTTILEI***
****S********************************************VGVTGMTCAACSNSVEGALMGLKGVAKASVALLQNKADVVFDPDLVKDEDIKNAIEDAGFEAEIL*************IVGQYTIGGMTCAACVNSVEGILSNFKGVRQFRFDKISGELEVLFDPEALSSRSLVDGIAGRSNG***********************MFRLFISSLFLSIPVFFIRVICPHIPLVYALLLWRCGPFLMGDWLNWALVSVVQFVIGKRFYTAAGRALRNGSTNMDVLVALGTSAAYFYSVGALLYGVVTGFWSPTYFETSAMLITFVLFGKYLEILAKGKTSDAIKKLVELAPATALLVVKDKVGKCIEEREIDALLIQSGDTLKVLPGTKLPADGIVVWGTSYVNESMVTGEAVPVLKEINSPVIGGTINLHGVLHIQATKVGSDAVLSQIISLVETAQMSKAPIQKFADFVASIFVPIVVTLALFTWLCWYVAGVLGAYPEQWLPENGTHFVFALMFSISVVVIACPCALGLATPTAVMVATGVGANNGVLIKGGDALERAQKIKYVIFDKTGTLTQGRATVTTAKVFTKMDRGEFLTLVASAEASSEHPLAKAVVEYARHFHFFDDPSLNPDGQSHSKESTGSGWLLDVSDFSALPGRGIQCFISGKQVLVGNRKLLNESGITIPDHVESFVVELEESARTGILVAYDDNLIGVMGIADPVKREAAVVVEGLLKMGVRPVMVTGDNWRTAHAVAREIGIQDVMADVMPAGKADAVRSFQKDGSIVAMVGDGINDSPALAAADVGMAIGAGTDIAIEAADYVLMRNSLEDVIIAIDLSRKTFARIRLNYIFAMAYNVIAIPIAAGVFFPSLGIKLPPWAAGACMALSSVSVVCSSLLLRRYKKPRLT********
MMALSNRDLQLTELN********DREDEWLLNNYDGKKERIGDGMRRIQVGVTGMTCAACSNSVEGALMGLKGVAKASVALLQNKADVVFDPDLVKDEDIKNAIEDAGFEAEILAESSTSGPKPQGTIVGQYTIGGMTCAACVNSVEGILSNFKGVRQFRFDKISGELEVLFDPEALSSRSLVDGIAGRSNGKFQIRVMNPFARMTSRDSEETSNMFRLFISSLFLSIPVFFIRVICPHIPLVYALLLWRCGPFLMGDWLNWALVSVVQFVIGKRFYTAAGRALRNGSTNMDVLVALGTSAAYFYSVGALLYGVVTGFWSPTYFETSAMLITFVLFGKYLEILAKGKTSDAIKKLVELAPATALLVVKDKVGKCIEEREIDALLIQSGDTLKVLPGTKLPADGIVVWGTSYVNESMVTGEAVPVLKEINSPVIGGTINLHGVLHIQATKVGSDAVLSQIISLVETAQMSKAPIQKFADFVASIFVPIVVTLALFTWLCWYVAGVLGAYPEQWLPENGTHFVFALMFSISVVVIACPCALGLATPTAVMVATGVGANNGVLIKGGDALERAQKIKYVIFDKTGTLTQGRATVTTAKVFTKMDRGEFLTLVASAEASSEHPLAKAVVEYARHFHFFDDPSLNP**********GSGWLLDVSDFSALPGRGIQCFISGKQVLVGNRKLLNESGITIPDHVESFVVELEESARTGILVAYDDNLIGVMGIADPVKREAAVVVEGLLKMGVRPVMVTGDNWRTAHAVAREIGIQDVMADVMPAGKADAVRSFQKDGSIVAMVGDGINDSPALAAADVGMAIGAGTDIAIEAADYVLMRNSLEDVIIAIDLSRKTFARIRLNYIFAMAYNVIAIPIAAGVFFPSLGIKLPPWAAGACMALSSVSVVCSSLLLRRYKKPRLTTILEITVE
*******DLQ**E*NGGGSSDGDDREDEWLLNNYDGKKERIGDGMRRIQVGVTGMTCAACSNSVEGALMGLKGVAKASVALLQNKADVVFDPDLVKDEDIKNAIEDAGFEAEILAESSTS***PQGTIVGQYTIGGMTCAACVNSVEGILSNFKGVRQFRFDKISGELEVLFDPEALSSRSLVDGIAGRSNGKFQIRVMNPFARMTSRDSEETSNMFRLFISSLFLSIPVFFIRVICPHIPLVYALLLWRCGPFLMGDWLNWALVSVVQFVIGKRFYTAAGRALRNGSTNMDVLVALGTSAAYFYSVGALLYGVVTGFWSPTYFETSAMLITFVLFGKYLEILAKGKTSDAIKKLVELAPATALLVVKDKVGKCIEEREIDALLIQSGDTLKVLPGTKLPADGIVVWGTSYVNESMVTGEAVPVLKEINSPVIGGTINLHGVLHIQATKVGSDAVLSQIISLVETAQMSKAPIQKFADFVASIFVPIVVTLALFTWLCWYVAGVLGAYPEQWLPENGTHFVFALMFSISVVVIACPCALGLATPTAVMVATGVGANNGVLIKGGDALERAQKIKYVIFDKTGTLTQGRATVTTAKVFTKMDRGEFLTLVASAEASSEHPLAKAVVEYARHFHFF******************SGWLLDVSDFSALPGRGIQCFISGKQVLVGNRKLLNESGITIPDHVESFVVELEESARTGILVAYDDNLIGVMGIADPVKREAAVVVEGLLKMGVRPVMVTGDNWRTAHAVAREIGIQDVMADVMPAGKADAVRSFQKDGSIVAMVGDGINDSPALAAADVGMAIGAGTDIAIEAADYVLMRNSLEDVIIAIDLSRKTFARIRLNYIFAMAYNVIAIPIAAGVFFPSLGIKLPPWAAGACMALSSVSVVCSSLLLRRYKKPRLTTILEITVE
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MMALSNRDLQLTELNGGGSSDGDDREDEWLLNNYDGKKERIGDGMRRIQVGVTGMTCAACSNSVEGALMGLKGVAKASVALLQNKADVVFDPDLVKDEDIKNAIEDAGFEAEILAESSTSGPKPQGTIVGQYTIGGMTCAACVNSVEGILSNFKGVRQFRFDKISGELEVLFDPEALSSRSLVDGIAGRSNGKFQIRVMNPFARMTSRDSEETSNMFRLFISSLFLSIPVFFIRVICPHIPLVYALLLWRCGPFLMGDWLNWALVSVVQFVIGKRFYTAAGRALRNGSTNMDVLVALGTSAAYFYSVGALLYGVVTGFWSPTYFETSAMLITFVLFGKYLEILAKGKTSDAIKKLVELAPATALLVVKDKVGKCIEEREIDALLIQSGDTLKVLPGTKLPADGIVVWGTSYVNESMVTGEAVPVLKEINSPVIGGTINLHGVLHIQATKVGSDAVLSQIISLVETAQMSKAPIQKFADFVASIFVPIVVTLALFTWLCWYVAGVLGAYPEQWLPENGTHFVFALMFSISVVVIACPCALGLATPTAVMVATGVGANNGVLIKGGDALERAQKIKYVIFDKTGTLTQGRATVTTAKVFTKMDRGEFLTLVASAEASSEHPLAKAVVEYARHFHFFDDPSLNPDGQSHSKESTGSGWLLDVSDFSALPGRGIQCFISGKQVLVGNRKLLNESGITIPDHVESFVVELEESARTGILVAYDDNLIGVMGIADPVKREAAVVVEGLLKMGVRPVMVTGDNWRTAHAVAREIGIQDVMADVMPAGKADAVRSFQKDGSIVAMVGDGINDSPALAAADVGMAIGAGTDIAIEAADYVLMRNSLEDVIIAIDLSRKTFARIRLNYIFAMAYNVIAIPIAAGVFFPSLGIKLPPWAAGACMALSSVSVVCSSLLLRRYKKPRLTTILEITVE
no confident homologs detected

Close Homologs for Annotation Transfer

Close Homologs in SWISS-PROT Database Detected by BLAST ?

Original result of BLAST against SWISS-PROT Database

ID ?Alignment graph ?Length ? Definition ? RBH(Q2H) ? RBH(H2Q) ? Q cover ? H cover ? Identity ? E-value ?
Query924 2.2.26 [Sep-21-2011]
Q9S7J81001 Copper-transporting ATPas yes no 0.991 0.915 0.689 0.0
Q9SH30995 Putative copper-transport no no 0.915 0.850 0.483 0.0
Q046561500 Copper-transporting ATPas yes no 0.910 0.560 0.394 1e-170
P707051492 Copper-transporting ATPas yes no 0.902 0.558 0.394 1e-169
Q4A0G1794 Copper-exporting P-type A yes no 0.848 0.987 0.401 1e-169
Q644461462 Copper-transporting ATPas yes no 0.905 0.572 0.414 1e-169
P356701465 Copper-transporting ATPas no no 0.904 0.570 0.413 1e-168
Q8CN02794 Copper-exporting P-type A yes no 0.847 0.986 0.401 1e-168
Q5HL56794 Copper-exporting P-type A yes no 0.847 0.986 0.401 1e-168
Q644301491 Copper-transporting ATPas no no 0.902 0.559 0.390 1e-168
>sp|Q9S7J8|HMA7_ARATH Copper-transporting ATPase RAN1 OS=Arabidopsis thaliana GN=RAN1 PE=1 SV=1 Back     alignment and function desciption
 Score = 1347 bits (3487), Expect = 0.0,   Method: Compositional matrix adjust.
 Identities = 695/1008 (68%), Positives = 797/1008 (79%), Gaps = 92/1008 (9%)

Query: 2    MALSNRDLQLTELNGGGSSDGDDREDEWLLNNYDGKKE-----------RIGDGMRRIQV 50
            MA S RDLQLT + GG SS   D E+  LL++Y  +             R   G+R+IQV
Sbjct: 1    MAPSRRDLQLTPVTGGSSSQISDMEEVGLLDSYHNEANADDILTKIEEGRDVSGLRKIQV 60

Query: 51   GVTGMTCAACSNSVEGALMGLKGVAKASVALLQNKADVVFDPDLVKDEDIKNAIEDAGFE 110
            GVTGMTCAACSNSVE ALM + GV KASVALLQN+ADVVFDP+LVK+EDIK AIEDAGFE
Sbjct: 61   GVTGMTCAACSNSVEAALMNVNGVFKASVALLQNRADVVFDPNLVKEEDIKEAIEDAGFE 120

Query: 111  AEILAESSTSGPKPQGTIVGQYTIGGMTCAACVNSVEGILSNFKGVRQFRFDKISGELEV 170
            AEILAE  T     Q T+VGQ+TIGGMTCAACVNSVEGIL +  GV++      +   EV
Sbjct: 121  AEILAEEQT-----QATLVGQFTIGGMTCAACVNSVEGILRDLPGVKRAVVALSTSLGEV 175

Query: 171  LFDPEALSSRSLV-------------------------------------DGIAGRSNGK 193
             +DP  ++   +V                                     +GI  R NG 
Sbjct: 176  EYDPNVINKDDIVNAIEDAGFEGSLVQSNQQDKLVLRVDGILNELDAQVLEGILTRLNGV 235

Query: 194  FQIR----------VMNP----------------FARMTSR--------DSEETSNMFRL 219
             Q R          V +P                F +   R         S++T     +
Sbjct: 236  RQFRLDRISGELEVVFDPEVVSSRSLVDGIEEDGFGKFKLRVMSPYERLSSKDTGEASNM 295

Query: 220  F---ISSLFLSIPVFFIRVICPHIPLVYALLLWRCGPFLMGDWLNWALVSVVQFVIGKRF 276
            F   ISSL LSIP+FFI+VICPHI L  ALL+WRCGPF+MGDWL WALVSV+QFVIGKRF
Sbjct: 296  FRRFISSLVLSIPLFFIQVICPHIALFDALLVWRCGPFMMGDWLKWALVSVIQFVIGKRF 355

Query: 277  YTAAGRALRNGSTNMDVLVALGTSAAYFYSVGALLYGVVTGFWSPTYFETSAMLITFVLF 336
            Y AA RALRNGSTNMDVLVALGTSA+YFYSVGALLYG VTGFWSPTYF+ SAMLITFVL 
Sbjct: 356  YVAAWRALRNGSTNMDVLVALGTSASYFYSVGALLYGAVTGFWSPTYFDASAMLITFVLL 415

Query: 337  GKYLEILAKGKTSDAIKKLVELAPATALLVVKDKVGKCIEEREIDALLIQSGDTLKVLPG 396
            GKYLE LAKGKTSDA+KKLV+L PATA+L+ + K GK + EREIDALLIQ GDTLKV PG
Sbjct: 416  GKYLESLAKGKTSDAMKKLVQLTPATAILLTEGKGGKLVGEREIDALLIQPGDTLKVHPG 475

Query: 397  TKLPADGIVVWGTSYVNESMVTGEAVPVLKEINSPVIGGTINLHGVLHIQATKVGSDAVL 456
             K+PADG+VVWG+SYVNESMVTGE+VPV KE++SPVIGGTIN+HG LH++ATKVGSDAVL
Sbjct: 476  AKIPADGVVVWGSSYVNESMVTGESVPVSKEVDSPVIGGTINMHGALHMKATKVGSDAVL 535

Query: 457  SQIISLVETAQMSKAPIQKFADFVASIFVPIVVTLALFTWLCWYVAGVLGAYPEQWLPEN 516
            SQIISLVETAQMSKAPIQKFAD+VASIFVP+V+TLALFT + W + G +GAYP++WLPEN
Sbjct: 536  SQIISLVETAQMSKAPIQKFADYVASIFVPVVITLALFTLVGWSIGGAVGAYPDEWLPEN 595

Query: 517  GTHFVFALMFSISVVVIACPCALGLATPTAVMVATGVGANNGVLIKGGDALERAQKIKYV 576
            GTHFVF+LMFSISVVVIACPCALGLATPTAVMVATGVGA NGVLIKGGDALE+A K+KYV
Sbjct: 596  GTHFVFSLMFSISVVVIACPCALGLATPTAVMVATGVGATNGVLIKGGDALEKAHKVKYV 655

Query: 577  IFDKTGTLTQGRATVTTAKVFTKMDRGEFLTLVASAEASSEHPLAKAVVEYARHFHFFDD 636
            IFDKTGTLTQG+ATVTT KVF++MDRGEFLTLVASAEASSEHPLAKA+V YARHFHFFD+
Sbjct: 656  IFDKTGTLTQGKATVTTTKVFSEMDRGEFLTLVASAEASSEHPLAKAIVAYARHFHFFDE 715

Query: 637  PSLNPDGQSHSKESTGSGWLLDVSDFSALPGRGIQCFISGKQVLVGNRKLLNESGITIPD 696
             +   DG++++K+   SGWLLD SDFSALPG+GIQC ++ K +LVGNRKL++E+ I IPD
Sbjct: 716  ST--EDGETNNKDLQNSGWLLDTSDFSALPGKGIQCLVNEKMILVGNRKLMSENAINIPD 773

Query: 697  HVESFVVELEESARTGILVAYDDNLIGVMGIADPVKREAAVVVEGLLKMGVRPVMVTGDN 756
            HVE FV +LEES +TG++VAY+  L+GVMGIADP+KREAA+VVEGLL+MGVRP+MVTGDN
Sbjct: 774  HVEKFVEDLEESGKTGVIVAYNGKLVGVMGIADPLKREAALVVEGLLRMGVRPIMVTGDN 833

Query: 757  WRTAHAVAREIGIQDVMADVMPAGKADAVRSFQKDGSIVAMVGDGINDSPALAAADVGMA 816
            WRTA AVA+E+GI+DV A+VMPAGKAD +RS QKDGS VAMVGDGINDSPALAAADVGMA
Sbjct: 834  WRTARAVAKEVGIEDVRAEVMPAGKADVIRSLQKDGSTVAMVGDGINDSPALAAADVGMA 893

Query: 817  IGAGTDIAIEAADYVLMRNSLEDVIIAIDLSRKTFARIRLNYIFAMAYNVIAIPIAAGVF 876
            IGAGTD+AIEAADYVLMRN+LEDVI AIDLSRKT  RIRLNY+FAMAYNV++IPIAAGVF
Sbjct: 894  IGAGTDVAIEAADYVLMRNNLEDVITAIDLSRKTLTRIRLNYVFAMAYNVVSIPIAAGVF 953

Query: 877  FPSLGIKLPPWAAGACMALSSVSVVCSSLLLRRYKKPRLTTILEITVE 924
            FP L ++LPPWAAGACMALSSVSVVCSSLLLRRYKKPRLTT+L+IT E
Sbjct: 954  FPVLRVQLPPWAAGACMALSSVSVVCSSLLLRRYKKPRLTTVLKITTE 1001
Involved in copper import into the cell. Essential for ethylene signaling, which requires copper. Acts by delivering copper to create functional hormone receptors.
Arabidopsis thaliana (taxid: 3702)
EC: 3EC: .EC: 6EC: .EC: 3EC: .EC: 4
>sp|Q9SH30|HMA5_ARATH Putative copper-transporting ATPase HMA5 OS=Arabidopsis thaliana GN=HMA5 PE=2 SV=2 Back     alignment and function description
>sp|Q04656|ATP7A_HUMAN Copper-transporting ATPase 1 OS=Homo sapiens GN=ATP7A PE=1 SV=3 Back     alignment and function description
>sp|P70705|ATP7A_RAT Copper-transporting ATPase 1 OS=Rattus norvegicus GN=Atp7a PE=1 SV=1 Back     alignment and function description
>sp|Q4A0G1|COPA_STAS1 Copper-exporting P-type ATPase A OS=Staphylococcus saprophyticus subsp. saprophyticus (strain ATCC 15305 / DSM 20229) GN=copA PE=3 SV=1 Back     alignment and function description
>sp|Q64446|ATP7B_MOUSE Copper-transporting ATPase 2 OS=Mus musculus GN=Atp7b PE=1 SV=2 Back     alignment and function description
>sp|P35670|ATP7B_HUMAN Copper-transporting ATPase 2 OS=Homo sapiens GN=ATP7B PE=1 SV=4 Back     alignment and function description
>sp|Q8CN02|COPA_STAES Copper-exporting P-type ATPase A OS=Staphylococcus epidermidis (strain ATCC 12228) GN=copA PE=3 SV=1 Back     alignment and function description
>sp|Q5HL56|COPA_STAEQ Copper-exporting P-type ATPase A OS=Staphylococcus epidermidis (strain ATCC 35984 / RP62A) GN=copA PE=3 SV=1 Back     alignment and function description
>sp|Q64430|ATP7A_MOUSE Copper-transporting ATPase 1 OS=Mus musculus GN=Atp7a PE=1 SV=3 Back     alignment and function description

Close Homologs in the Non-Redundant Database Detected by BLAST ?

Original result of BLAST against Nonredundant Database

GI ?Alignment Graph ?Length ? Definition ? Q cover ? H cover ? Identity ? E-value ?
Query924
4494335051007 PREDICTED: copper-transporting ATPase RA 0.996 0.914 0.708 0.0
297738009952 unnamed protein product [Vitis vinifera] 0.939 0.911 0.792 0.0
2241378201010 heavy metal ATPase [Populus trichocarpa] 0.937 0.857 0.789 0.0
3594727651000 PREDICTED: copper-transporting ATPase RA 0.939 0.868 0.792 0.0
2240710551008 heavy metal ATPase [Populus trichocarpa] 0.939 0.861 0.783 0.0
3071364071007 heavy metal ATPase [Cucumis melo subsp. 0.994 0.912 0.702 0.0
356558246996 PREDICTED: copper-transporting ATPase RA 0.939 0.871 0.773 0.0
356530268986 PREDICTED: copper-transporting ATPase RA 0.939 0.880 0.768 0.0
152415821001 copper-transporting ATPase RAN1 [Arabido 0.991 0.915 0.689 0.0
141941351001 AT5g44790/K23L20_14 [Arabidopsis thalian 0.991 0.915 0.689 0.0
>gi|449433505|ref|XP_004134538.1| PREDICTED: copper-transporting ATPase RAN1-like [Cucumis sativus] Back     alignment and taxonomy information
 Score = 1385 bits (3584), Expect = 0.0,   Method: Compositional matrix adjust.
 Identities = 715/1009 (70%), Positives = 814/1009 (80%), Gaps = 88/1009 (8%)

Query: 2    MALSNRDLQLTE-------LNGGGSSDG--DDREDEWLLNNYDGKKERIG---DGMRRIQ 49
            MA   RDLQL         L    ++D   +D ED  LL++Y+ ++E +G   DGM R+Q
Sbjct: 1    MAPGLRDLQLAHVAADDRRLPAISAADDIPEDLEDVRLLDSYERQEENLGQIRDGMNRVQ 60

Query: 50   VGVTGMTCAACSNSVEGALMGLKGVAKASVALLQNKADVVFDPDLVKDEDIKNAIEDAGF 109
            V V+GMTCAACSNSVE AL G+ GV  ASVALLQN+ADVVFDP LVK+EDIK AIEDAGF
Sbjct: 61   VTVSGMTCAACSNSVEAALRGVNGVLMASVALLQNRADVVFDPSLVKEEDIKEAIEDAGF 120

Query: 110  EAEILAESSTSGPKPQGTIVGQYTIGGMTCAACVNSVEGILSNFKGVR-----------Q 158
            EAEI+ E+++ G K  GT+VGQ+TIGGMTCAACVNSVEGIL +  GVR           +
Sbjct: 121  EAEIIPETTSVGKKSHGTLVGQFTIGGMTCAACVNSVEGILKDLPGVRRAVVALATSLGE 180

Query: 159  FRFDK------------------------------------ISGELEVLFDPEALSS--- 179
              +D                                     I+GE++V F    LS+   
Sbjct: 181  VEYDPTITSKDDIVNAIEDAGFEASFVQSSEQDKILLTVAGIAGEVDVQFLEAILSNLKG 240

Query: 180  --RSLVDGIAGRSNGKFQIRVMNP----------------------FARMTSRDSEETSN 215
              R L D  +GR    F   V+ P                      + R+TS+D EE +N
Sbjct: 241  VKRFLFDSTSGRLEIVFDPEVVGPRSLVDEIEGRSNRKFKLHVTSPYTRLTSKDVEEANN 300

Query: 216  MFRLFISSLFLSIPVFFIRVICPHIPLVYALLLWRCGPFLMGDWLNWALVSVVQFVIGKR 275
            MFRLFISSLFLS+ +F  RVICPHIPL+Y+LLLWRCGPFLM DWL WALV+VVQFVIGKR
Sbjct: 301  MFRLFISSLFLSVLIFLQRVICPHIPLIYSLLLWRCGPFLMDDWLKWALVTVVQFVIGKR 360

Query: 276  FYTAAGRALRNGSTNMDVLVALGTSAAYFYSVGALLYGVVTGFWSPTYFETSAMLITFVL 335
            FY AA RALRNGSTNMDVLVALGT+A+Y YSV ALLYG VTGFWSPTYFETSAMLITFVL
Sbjct: 361  FYVAAARALRNGSTNMDVLVALGTTASYVYSVCALLYGAVTGFWSPTYFETSAMLITFVL 420

Query: 336  FGKYLEILAKGKTSDAIKKLVELAPATALLVVKDKVGKCIEEREIDALLIQSGDTLKVLP 395
             GKYLE LAKGKTSDAIKKLVELAPATALL+++DK G  IEEREIDALLIQ GD LKVLP
Sbjct: 421  LGKYLECLAKGKTSDAIKKLVELAPATALLLIRDKGGNLIEEREIDALLIQPGDVLKVLP 480

Query: 396  GTKLPADGIVVWGTSYVNESMVTGEAVPVLKEINSPVIGGTINLHGVLHIQATKVGSDAV 455
            GTK+PADG+VVWG+SYVNESMVTGE++PVLKE++  VIGGTIN HG LHI+ATKVGSDAV
Sbjct: 481  GTKIPADGVVVWGSSYVNESMVTGESIPVLKEVSLNVIGGTINFHGALHIRATKVGSDAV 540

Query: 456  LSQIISLVETAQMSKAPIQKFADFVASIFVPIVVTLALFTWLCWYVAGVLGAYPEQWLPE 515
            L+QIISLVETAQMSKAPIQKFADFVASIFVP VV +AL T   WYV G+LGAYP +WLPE
Sbjct: 541  LNQIISLVETAQMSKAPIQKFADFVASIFVPTVVAMALCTLFGWYVGGILGAYPAEWLPE 600

Query: 516  NGTHFVFALMFSISVVVIACPCALGLATPTAVMVATGVGANNGVLIKGGDALERAQKIKY 575
            NG +FVF+LMF+I+VVVIACPCALGLATPTAVMVATGVGA+NGVLIKGGDALERAQK+KY
Sbjct: 601  NGNYFVFSLMFAIAVVVIACPCALGLATPTAVMVATGVGASNGVLIKGGDALERAQKVKY 660

Query: 576  VIFDKTGTLTQGRATVTTAKVFTKMDRGEFLTLVASAEASSEHPLAKAVVEYARHFHFFD 635
            VIFDKTGTLTQG+ATVTTAK+FT++ RG+FL LVASAEASSEHPL KA+VEYARHFHFFD
Sbjct: 661  VIFDKTGTLTQGKATVTTAKIFTEISRGDFLKLVASAEASSEHPLGKAIVEYARHFHFFD 720

Query: 636  DPSLNPDGQSHSKESTGSGWLLDVSDFSALPGRGIQCFISGKQVLVGNRKLLNESGITIP 695
            +PS   + ++ SKES  SGWL DV+DFSALPG+GIQC I GK++LVGNRKL+NE GI+I 
Sbjct: 721  EPSATKNVENQSKES--SGWLFDVTDFSALPGQGIQCTIEGKRILVGNRKLMNERGISIA 778

Query: 696  DHVESFVVELEESARTGILVAYDDNLIGVMGIADPVKREAAVVVEGLLKMGVRPVMVTGD 755
             HV++FV+ELEESA+TGILVA DDNLIGV+GIADP+KREAAVVVEGL+KMGV PVMVTGD
Sbjct: 779  PHVDNFVIELEESAKTGILVACDDNLIGVVGIADPLKREAAVVVEGLVKMGVSPVMVTGD 838

Query: 756  NWRTAHAVAREIGIQDVMADVMPAGKADAVRSFQKDGSIVAMVGDGINDSPALAAADVGM 815
            NWRTA AVA+E+GIQDV A+VMPAGKA+ +++FQKDGS VAMVGDGINDSPALAA+D+G+
Sbjct: 839  NWRTARAVAKELGIQDVRAEVMPAGKAEVIQNFQKDGSTVAMVGDGINDSPALAASDIGI 898

Query: 816  AIGAGTDIAIEAADYVLMRNSLEDVIIAIDLSRKTFARIRLNYIFAMAYNVIAIPIAAGV 875
            AIGAGTDIAIEAAD+VLMRN+LEDVI AIDLSRKTF RIRLNY+FAMAYNVIAIPIAAGV
Sbjct: 899  AIGAGTDIAIEAADFVLMRNNLEDVITAIDLSRKTFNRIRLNYVFAMAYNVIAIPIAAGV 958

Query: 876  FFPSLGIKLPPWAAGACMALSSVSVVCSSLLLRRYKKPRLTTILEITVE 924
            FFPSLG+KLPPWAAGACMALSSVSVVCSSLLLRRYK+PRLTTILEITVE
Sbjct: 959  FFPSLGVKLPPWAAGACMALSSVSVVCSSLLLRRYKRPRLTTILEITVE 1007

Source: Cucumis sativus

Species: Cucumis sativus

Genus: Cucumis

Family: Cucurbitaceae

Order: Cucurbitales

Class:

Phylum: Streptophyta

Superkingdom: Eukaryota
>gi|297738009|emb|CBI27210.3| unnamed protein product [Vitis vinifera] Back     alignment and taxonomy information
>gi|224137820|ref|XP_002326448.1| heavy metal ATPase [Populus trichocarpa] gi|222833770|gb|EEE72247.1| heavy metal ATPase [Populus trichocarpa] Back     alignment and taxonomy information
>gi|359472765|ref|XP_002276004.2| PREDICTED: copper-transporting ATPase RAN1-like [Vitis vinifera] gi|147778109|emb|CAN69730.1| hypothetical protein VITISV_011925 [Vitis vinifera] Back     alignment and taxonomy information
>gi|224071055|ref|XP_002303349.1| heavy metal ATPase [Populus trichocarpa] gi|222840781|gb|EEE78328.1| heavy metal ATPase [Populus trichocarpa] Back     alignment and taxonomy information
>gi|307136407|gb|ADN34216.1| heavy metal ATPase [Cucumis melo subsp. melo] Back     alignment and taxonomy information
>gi|356558246|ref|XP_003547418.1| PREDICTED: copper-transporting ATPase RAN1-like [Glycine max] Back     alignment and taxonomy information
>gi|356530268|ref|XP_003533704.1| PREDICTED: copper-transporting ATPase RAN1-like [Glycine max] Back     alignment and taxonomy information
>gi|15241582|ref|NP_199292.1| copper-transporting ATPase RAN1 [Arabidopsis thaliana] gi|12229667|sp|Q9S7J8.1|HMA7_ARATH RecName: Full=Copper-transporting ATPase RAN1; AltName: Full=Protein HEAVY METAL ATPASE 7; AltName: Full=Protein RESPONSIVE TO ANTAGONIST 1 gi|4760370|gb|AAD29109.1|AF082565_1 ATP dependent copper transporter [Arabidopsis thaliana] gi|4760380|gb|AAD29115.1| ATP dependent copper transporter [Arabidopsis thaliana] gi|6850337|gb|AAC79141.2| ATP dependent copper transporter (RAN1) [Arabidopsis thaliana] gi|9758383|dbj|BAB08832.1| ATP dependent copper transporter [Arabidopsis thaliana] gi|332007780|gb|AED95163.1| copper-transporting ATPase RAN1 [Arabidopsis thaliana] Back     alignment and taxonomy information
>gi|14194135|gb|AAK56262.1|AF367273_1 AT5g44790/K23L20_14 [Arabidopsis thaliana] Back     alignment and taxonomy information

Prediction of Gene Ontology (GO) Terms

Close Homologs with Gene Ontology terms Detected by BLAST ?

Original result of BLAST against Gene Ontology (AMIGO)

ID ? Alignment graph ? Length ? Definition ? Q cover ? H cover ? Identity ? E-value ?
Query924
TAIR|locus:21563541001 RAN1 "RESPONSIVE-TO-ANTAGONIST 0.937 0.865 0.732 0.0
TAIR|locus:2031361995 HMA5 "heavy metal atpase 5" [A 0.917 0.852 0.469 3.2e-207
DICTYBASE|DDB_G0284141985 atp7a "copper-transporting ATP 0.356 0.334 0.513 1.5e-192
UNIPROTKB|F1MKI1 1505 ATP7B "Uncharacterized protein 0.687 0.421 0.368 1.3e-167
UNIPROTKB|E1C2H71414 ATP7B "Uncharacterized protein 0.712 0.465 0.353 5.7e-160
UNIPROTKB|E1C2H21426 ATP7B "Uncharacterized protein 0.712 0.461 0.353 7.7e-160
ZFIN|ZDB-GENE-060825-45 1500 atp7a "ATPase, Cu++ transporti 0.427 0.263 0.440 6.8e-155
UNIPROTKB|F1P5C8 1440 ATP7B "Uncharacterized protein 0.688 0.441 0.361 1.6e-153
UNIPROTKB|F1N8W2 1390 ATP7B "Uncharacterized protein 0.670 0.446 0.363 2.4e-153
FB|FBgn0030343 1254 ATP7 "ATP7" [Drosophila melano 0.656 0.484 0.381 2.9e-148
TAIR|locus:2156354 RAN1 "RESPONSIVE-TO-ANTAGONIST 1" [Arabidopsis thaliana (taxid:3702)] Back     alignment and assigned GO terms
 Score = 3321 (1174.1 bits), Expect = 0., P = 0.
 Identities = 642/876 (73%), Positives = 745/876 (85%)

Query:    49 QVGVTGMTCAACSNSVEGALMGLKGVAKASVALLQNKADVVFDPDLVKDEDIKNAIEDAG 108
             Q  + GMTCAAC NSVEG L  L GV +A VAL  +  +V +DP+++  +DI NAIEDAG
Sbjct:   136 QFTIGGMTCAACVNSVEGILRDLPGVKRAVVALSTSLGEVEYDPNVINKDDIVNAIEDAG 195

Query:   109 FEAEILAESSTSGPKPQGTIVGQYTIGGMTCAACVNSVEGILSNFKGVRQFRFDKISGEL 168
             FE  ++  +       Q  +V    + G+        +EGIL+   GVRQFR D+ISGEL
Sbjct:   196 FEGSLVQSNQ------QDKLV--LRVDGILNELDAQVLEGILTRLNGVRQFRLDRISGEL 247

Query:   169 EVLFDPEALSSRSLVDGIAGRSNGKFQIRVMNPFARMTSRDSEETSNMFRLFISSLFLSI 228
             EV+FDPE +SSRSLVDGI     GKF++RVM+P+ R++S+D+ E SNMFR FISSL LSI
Sbjct:   248 EVVFDPEVVSSRSLVDGIEEDGFGKFKLRVMSPYERLSSKDTGEASNMFRRFISSLVLSI 307

Query:   229 PVFFIRVICPHIPLVYALLLWRCGPFLMGDWLNWALVSVVQFVIGKRFYTAAGRALRNGS 288
             P+FFI+VICPHI L  ALL+WRCGPF+MGDWL WALVSV+QFVIGKRFY AA RALRNGS
Sbjct:   308 PLFFIQVICPHIALFDALLVWRCGPFMMGDWLKWALVSVIQFVIGKRFYVAAWRALRNGS 367

Query:   289 TNMDVLVALGTSAAYFYSVGALLYGVVTGFWSPTYFETSAMLITFVLFGKYLEILAKGKT 348
             TNMDVLVALGTSA+YFYSVGALLYG VTGFWSPTYF+ SAMLITFVL GKYLE LAKGKT
Sbjct:   368 TNMDVLVALGTSASYFYSVGALLYGAVTGFWSPTYFDASAMLITFVLLGKYLESLAKGKT 427

Query:   349 SDAIKKLVELAPATALLVVKDKVGKCIEEREIDALLIQSGDTLKVLPGTKLPADGIVVWG 408
             SDA+KKLV+L PATA+L+ + K GK + EREIDALLIQ GDTLKV PG K+PADG+VVWG
Sbjct:   428 SDAMKKLVQLTPATAILLTEGKGGKLVGEREIDALLIQPGDTLKVHPGAKIPADGVVVWG 487

Query:   409 TSYVNESMVTGEAVPVLKEINSPVIGGTINLHGVLHIQATKVGSDAVLSQIISLVETAQM 468
             +SYVNESMVTGE+VPV KE++SPVIGGTIN+HG LH++ATKVGSDAVLSQIISLVETAQM
Sbjct:   488 SSYVNESMVTGESVPVSKEVDSPVIGGTINMHGALHMKATKVGSDAVLSQIISLVETAQM 547

Query:   469 SKAPIQKFADFVASIFVPIVVTLALFTWLCWYVAGVLGAYPEQWLPENGTHFVFALMFSI 528
             SKAPIQKFAD+VASIFVP+V+TLALFT + W + G +GAYP++WLPENGTHFVF+LMFSI
Sbjct:   548 SKAPIQKFADYVASIFVPVVITLALFTLVGWSIGGAVGAYPDEWLPENGTHFVFSLMFSI 607

Query:   529 SVVVIACPCALGLATPTAVMVATGVGANNGVLIKGGDALERAQKIKYVIFDKTGTLTQGR 588
             SVVVIACPCALGLATPTAVMVATGVGA NGVLIKGGDALE+A K+KYVIFDKTGTLTQG+
Sbjct:   608 SVVVIACPCALGLATPTAVMVATGVGATNGVLIKGGDALEKAHKVKYVIFDKTGTLTQGK 667

Query:   589 ATVTTAKVFTKMDRGEFLTLVASAEASSEHPLAKAVVEYARHFHFFDDPSLNPDGQSHSK 648
             ATVTT KVF++MDRGEFLTLVASAEASSEHPLAKA+V YARHFHFFD+ +   DG++++K
Sbjct:   668 ATVTTTKVFSEMDRGEFLTLVASAEASSEHPLAKAIVAYARHFHFFDEST--EDGETNNK 725

Query:   649 ESTGSGWLLDVSDFSALPGRGIQCFISGKQVLVGNRKLLNESGITIPDHVESFVVELEES 708
             +   SGWLLD SDFSALPG+GIQC ++ K +LVGNRKL++E+ I IPDHVE FV +LEES
Sbjct:   726 DLQNSGWLLDTSDFSALPGKGIQCLVNEKMILVGNRKLMSENAINIPDHVEKFVEDLEES 785

Query:   709 ARTGILVAYDDNLIGVMGIADPVKREAAVVVEGLLKMGVRPVMVTGDNWRTAHAVAREIG 768
              +TG++VAY+  L+GVMGIADP+KREAA+VVEGLL+MGVRP+MVTGDNWRTA AVA+E+G
Sbjct:   786 GKTGVIVAYNGKLVGVMGIADPLKREAALVVEGLLRMGVRPIMVTGDNWRTARAVAKEVG 845

Query:   769 IQDVMADVMPAGKADAVRSFQKDGSIVAMVGDGINDSPALAAADVGMAIGAGTDIAIEAA 828
             I+DV A+VMPAGKAD +RS QKDGS VAMVGDGINDSPALAAADVGMAIGAGTD+AIEAA
Sbjct:   846 IEDVRAEVMPAGKADVIRSLQKDGSTVAMVGDGINDSPALAAADVGMAIGAGTDVAIEAA 905

Query:   829 DYVLMRNSLEDVIIAIDLSRKTFARIRLNYIFAMAYNVIAIPIAAGVFFPSLGIKLPPWA 888
             DYVLMRN+LEDVI AIDLSRKT  RIRLNY+FAMAYNV++IPIAAGVFFP L ++LPPWA
Sbjct:   906 DYVLMRNNLEDVITAIDLSRKTLTRIRLNYVFAMAYNVVSIPIAAGVFFPVLRVQLPPWA 965

Query:   889 AGACMAXXXXXXXXXXXXXRRYKKPRLTTILEITVE 924
             AGACMA             RRYKKPRLTT+L+IT E
Sbjct:   966 AGACMALSSVSVVCSSLLLRRYKKPRLTTVLKITTE 1001
GO:0000166 "nucleotide binding" evidence=IEA
GO:0003824 "catalytic activity" evidence=IEA
GO:0005507 "copper ion binding" evidence=IEA
GO:0005524 "ATP binding" evidence=IEA
GO:0006754 "ATP biosynthetic process" evidence=IEA
GO:0006812 "cation transport" evidence=IEA
GO:0006825 "copper ion transport" evidence=IEA
GO:0008152 "metabolic process" evidence=IEA
GO:0015662 "ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism" evidence=IEA;ISS
GO:0016020 "membrane" evidence=IEA
GO:0016021 "integral to membrane" evidence=IEA
GO:0016820 "hydrolase activity, acting on acid anhydrides, catalyzing transmembrane movement of substances" evidence=IEA
GO:0030001 "metal ion transport" evidence=IEA
GO:0043682 "copper-transporting ATPase activity" evidence=IEA
GO:0046034 "ATP metabolic process" evidence=IEA
GO:0046872 "metal ion binding" evidence=IEA
GO:0005375 "copper ion transmembrane transporter activity" evidence=IGI
GO:0009873 "ethylene mediated signaling pathway" evidence=RCA;IMP;TAS
GO:0005794 "Golgi apparatus" evidence=IDA
GO:0009723 "response to ethylene stimulus" evidence=IMP
GO:0010119 "regulation of stomatal movement" evidence=IMP
GO:0000041 "transition metal ion transport" evidence=RCA
GO:0000303 "response to superoxide" evidence=RCA
GO:0006487 "protein N-linked glycosylation" evidence=RCA
GO:0007165 "signal transduction" evidence=RCA
GO:0008219 "cell death" evidence=RCA
GO:0009755 "hormone-mediated signaling pathway" evidence=RCA
GO:0009863 "salicylic acid mediated signaling pathway" evidence=RCA
GO:0005768 "endosome" evidence=IDA
GO:0005802 "trans-Golgi network" evidence=IDA
TAIR|locus:2031361 HMA5 "heavy metal atpase 5" [Arabidopsis thaliana (taxid:3702)] Back     alignment and assigned GO terms
DICTYBASE|DDB_G0284141 atp7a "copper-transporting ATPase" [Dictyostelium discoideum (taxid:44689)] Back     alignment and assigned GO terms
UNIPROTKB|F1MKI1 ATP7B "Uncharacterized protein" [Bos taurus (taxid:9913)] Back     alignment and assigned GO terms
UNIPROTKB|E1C2H7 ATP7B "Uncharacterized protein" [Gallus gallus (taxid:9031)] Back     alignment and assigned GO terms
UNIPROTKB|E1C2H2 ATP7B "Uncharacterized protein" [Gallus gallus (taxid:9031)] Back     alignment and assigned GO terms
ZFIN|ZDB-GENE-060825-45 atp7a "ATPase, Cu++ transporting, alpha polypeptide" [Danio rerio (taxid:7955)] Back     alignment and assigned GO terms
UNIPROTKB|F1P5C8 ATP7B "Uncharacterized protein" [Gallus gallus (taxid:9031)] Back     alignment and assigned GO terms
UNIPROTKB|F1N8W2 ATP7B "Uncharacterized protein" [Gallus gallus (taxid:9031)] Back     alignment and assigned GO terms
FB|FBgn0030343 ATP7 "ATP7" [Drosophila melanogaster (taxid:7227)] Back     alignment and assigned GO terms

Prediction of Enzyme Commission (EC) Number

EC Number Prediction by Annotation Transfer from SWISS-PROT Entries ?

Original result of BLAST against SWISS-PROT

ID ?Name ?Annotated EC number ?Identity ?Query coverage ?Hit coverage ?RBH(Q2H) ?RBH(H2Q) ?
Q5HCZ3COPA_STAAC3, ., 6, ., 3, ., n, 10.40040.85380.9837yesno
A8Z3F8COPA_STAAT3, ., 6, ., 3, ., n, 10.40040.85380.9837yesno
Q99R80COPA_STAAM3, ., 6, ., 3, ., n, 10.40040.85380.9837yesno
Q4L970COPA_STAHJ3, ., 6, ., 3, ., n, 10.40060.84090.9773yesno
P58342ATCU2_RHIME3, ., 6, ., 3, ., 40.39080.85060.9504yesno
Q7A3E6COPA_STAAN3, ., 6, ., 3, ., n, 10.40040.85380.9837yesno
Q5HL56COPA_STAEQ3, ., 6, ., 3, ., n, 10.40180.84740.9861yesno
O32220COPA_BACSU3, ., 6, ., 3, ., n, 10.39240.86030.9912yesno
Q8NUQ9COPA_STAAW3, ., 6, ., 3, ., n, 10.40270.85380.9837yesno
Q9KPZ7COPA_VIBCH3, ., 6, ., 3, ., n, 10.34030.85170.8601yesno
O59666ATU2_SCHPO3, ., 6, ., 3, ., 40.37580.90040.9203yesno
A6U4T8COPA_STAA23, ., 6, ., 3, ., n, 10.40040.85380.9837yesno
Q2FV64COPA_STAA83, ., 6, ., 3, ., n, 10.40040.85380.9837yesno
Q9S7J8HMA7_ARATH3, ., 6, ., 3, ., 40.68940.99130.9150yesno
Q4A0G1COPA_STAS13, ., 6, ., 3, ., n, 10.40180.84840.9874yesno
A5IVY3COPA_STAA93, ., 6, ., 3, ., n, 10.40040.85380.9837yesno
P38995ATU2_YEAST3, ., 6, ., 3, ., 40.36140.89610.8247yesno
Q6G6B7COPA_STAAS3, ., 6, ., 3, ., n, 10.40270.85380.9837yesno
Q2YWA3COPA_STAAB3, ., 6, ., 3, ., n, 10.40040.85380.9837yesno
Q8CN02COPA_STAES3, ., 6, ., 3, ., n, 10.40180.84740.9861yesno
Q9X5X3ATCU_SINMW3, ., 6, ., 3, ., 40.38630.86140.9625yesno
A7X6S1COPA_STAA13, ., 6, ., 3, ., n, 10.40040.85380.9837yesno
A6QK47COPA_STAAE3, ., 6, ., 3, ., n, 10.40040.85380.9837yesno
Q6GDP1COPA_STAAR3, ., 6, ., 3, ., n, 10.40160.85380.9837yesno

EC Number Prediction by Ezypred Server ?

Original result from Ezypred Server

Fail to connect to Ezypred Server

EC Number Prediction by EFICAz Software ?

Prediction LevelEC numberConfidence of Prediction
3rd Layer3.6.30.983
3rd Layer3.6.3.40.979

Prediction of Functionally Associated Proteins

Functionally Associated Proteins Detected by STRING ?

Original result from the STRING server

Your Input:
estExt_Genewise1_v1.C_290004
SubName- Full=Putative uncharacterized protein; (1010 aa)
(Populus trichocarpa)
Predicted Functional Partners:
 
Sorry, there are no predicted associations at the current settings.
 

Conserved Domains and Related Protein Families

Conserved Domains Detected by RPS-BLAST ?

Original result of RPS-BLAST against CDD database part I

ID ?Alignment Graph ?Length ? Definition ? E-value ?
Query924
COG2217713 COG2217, ZntA, Cation transport ATPase [Inorganic 0.0
TIGR01511572 TIGR01511, ATPase-IB1_Cu, copper-(or silver)-trans 0.0
TIGR01525556 TIGR01525, ATPase-IB_hvy, heavy metal translocatin 0.0
PRK10671834 PRK10671, copA, copper exporting ATPase; Provision 1e-168
TIGR01512536 TIGR01512, ATPase-IB2_Cd, heavy metal-(Cd/Co/Hg/Pb 1e-136
TIGR01494543 TIGR01494, ATPase_P-type, ATPase, P-type (transpor 1e-108
PRK11033741 PRK11033, zntA, zinc/cadmium/mercury/lead-transpor 6e-95
pfam00122222 pfam00122, E1-E2_ATPase, E1-E2 ATPase 4e-57
COG0474 917 COG0474, MgtA, Cation transport ATPase [Inorganic 2e-53
COG2216681 COG2216, KdpB, High-affinity K+ transport system, 2e-50
TIGR01497675 TIGR01497, kdpB, K+-transporting ATPase, B subunit 2e-47
PRK14010673 PRK14010, PRK14010, potassium-transporting ATPase 4e-47
PRK01122679 PRK01122, PRK01122, potassium-transporting ATPase 8e-46
TIGR01647754 TIGR01647, ATPase-IIIA_H, plasma-membrane proton-e 2e-31
TIGR01522 884 TIGR01522, ATPase-IIA2_Ca, golgi membrane calcium- 3e-24
TIGR01116 917 TIGR01116, ATPase-IIA1_Ca, sarco/endoplasmic retic 2e-22
TIGR01517 944 TIGR01517, ATPase-IIB_Ca, plasma-membrane calcium- 8e-22
PRK10517 902 PRK10517, PRK10517, magnesium-transporting ATPase 1e-18
TIGR01524 867 TIGR01524, ATPase-IIIB_Mg, magnesium-translocating 2e-18
pfam00702187 pfam00702, Hydrolase, haloacid dehalogenase-like h 5e-17
TIGR01523 1053 TIGR01523, ATPase-IID_K-Na, potassium and/or sodiu 7e-17
PRK15122 903 PRK15122, PRK15122, magnesium-transporting ATPase; 1e-16
cd0037163 cd00371, HMA, Heavy-metal-associated domain (HMA) 4e-16
COG260871 COG2608, CopZ, Copper chaperone [Inorganic ion tra 9e-15
pfam0040362 pfam00403, HMA, Heavy-metal-associated domain 1e-13
TIGR01106 997 TIGR01106, ATPase-IIC_X-K, sodium or proton efflux 4e-13
TIGR01517 944 TIGR01517, ATPase-IIB_Ca, plasma-membrane calcium- 2e-12
TIGR0000366 TIGR00003, TIGR00003, copper ion binding protein 3e-10
COG2217713 COG2217, ZntA, Cation transport ATPase [Inorganic 9e-10
TIGR01657 1054 TIGR01657, P-ATPase-V, P-type ATPase of unknown pu 7e-09
COG4087152 COG4087, COG4087, Soluble P-type ATPase [General f 9e-09
cd0037163 cd00371, HMA, Heavy-metal-associated domain (HMA) 2e-08
TIGR01106 997 TIGR01106, ATPase-IIC_X-K, sodium or proton efflux 2e-08
pfam0040362 pfam00403, HMA, Heavy-metal-associated domain 5e-07
TIGR01657 1054 TIGR01657, P-ATPase-V, P-type ATPase of unknown pu 4e-06
TIGR0205292 TIGR02052, MerP, mercuric transport protein peripl 5e-06
PRK10671834 PRK10671, copA, copper exporting ATPase; Provision 2e-05
PRK13748561 PRK13748, PRK13748, putative mercuric reductase; P 2e-05
COG260871 COG2608, CopZ, Copper chaperone [Inorganic ion tra 4e-05
TIGR00099256 TIGR00099, Cof-subfamily, Cof subfamily of IIB sub 4e-05
PRK11033741 PRK11033, zntA, zinc/cadmium/mercury/lead-transpor 2e-04
COG0560212 COG0560, SerB, Phosphoserine phosphatase [Amino ac 2e-04
TIGR01522 884 TIGR01522, ATPase-IIA2_Ca, golgi membrane calcium- 5e-04
pfam08282254 pfam08282, Hydrolase_3, haloacid dehalogenase-like 9e-04
pfam12710122 pfam12710, HAD, haloacid dehalogenase-like hydrola 0.001
TIGR01657 1054 TIGR01657, P-ATPase-V, P-type ATPase of unknown pu 0.003
COG1778170 COG1778, COG1778, Low specificity phosphatase (HAD 0.004
>gnl|CDD|225127 COG2217, ZntA, Cation transport ATPase [Inorganic ion transport and metabolism] Back     alignment and domain information 
 Score =  765 bits (1978), Expect = 0.0
 Identities = 331/783 (42%), Positives = 453/783 (57%), Gaps = 74/783 (9%)

Query: 131 QYTIGGMTCAACVNSVEGILSNFKGVRQFRFDKISGELEVLFDPEALSSRSLVDGIAGRS 190
             ++ GMTCAAC + +E  L+   GV + R +  +    V++DPE +   + +   A   
Sbjct: 5   SLSVEGMTCAACASRIEA-LNKLPGVEEARVNLATERATVVYDPEEVDLPADIVA-AVEK 62

Query: 191 NGKFQIRVMNPFARMTSRDSEETSNMFRLFISSLFLSIPVFFIRVICPHIPLVYALLLWR 250
            G +  R+    A     ++     + R  I +  L++P+  + +               
Sbjct: 63  AG-YSARLTAALADPAEAEARLLRELLRRLIIAGLLTLPLLLLSLGLL------------ 109

Query: 251 CGPFLMGDWLNWALVSVVQFVIGKRFYTAAGRALRNGSTNMDVLVALGTSAAYFYSVGAL 310
                +  W+++ L + V F  G  FY  A RALR G  NMD LVAL T  AY YS+ A 
Sbjct: 110 -LGAFLLPWVSFLLATPVLFYGGWPFYRGAWRALRRGRLNMDTLVALATIGAYAYSLYAT 168

Query: 311 LYGVVTGFWSPTYFETSAMLITFVLFGKYLEILAKGKTSDAIKKLVELAPATALLVVKDK 370
           L+ V        YFE +AMLI   L G+YLE  AKG+   AI+ L++LAP TA +V  D 
Sbjct: 169 LFPV--------YFEEAAMLIFLFLLGRYLEARAKGRARRAIRALLDLAPKTATVVRGDG 220

Query: 371 VGKCIEEREIDALLIQSGDTLKVLPGTKLPADGIVVWGTSYVNESMVTGEAVPVLKEINS 430
                EE E+    +Q GD + V PG ++P DG+VV G+S V+ESM+TGE++PV K+   
Sbjct: 221 -----EEEEVPVEEVQVGDIVLVRPGERIPVDGVVVSGSSSVDESMLTGESLPVEKKPGD 275

Query: 431 PVIGGTINLHGVLHIQATKVGSDAVLSQIISLVETAQMSKAPIQKFADFVASIFVPIVVT 490
            V  GT+NL G L I+ T+VG+D  L++II LVE AQ SKAPIQ+ AD VAS FVP+V+ 
Sbjct: 276 EVFAGTVNLDGSLTIRVTRVGADTTLARIIRLVEEAQSSKAPIQRLADRVASYFVPVVLV 335

Query: 491 LALFTWLCWYVAGVLGAYPEQWLPENGTHFVFALMFSISVVVIACPCALGLATPTAVMVA 550
           +A  T+  W + G             G  +  AL  +++V+VIACPCALGLATPTA++V 
Sbjct: 336 IAALTFALWPLFG-------------GGDWETALYRALAVLVIACPCALGLATPTAILVG 382

Query: 551 TGVGANNGVLIKGGDALERAQKIKYVIFDKTGTLTQGRATVTTAKVFTKMDRGEFLTLVA 610
            G  A  G+LIKGG+ALER  K+  V+FDKTGTLT+G+  VT        D  E L L A
Sbjct: 383 IGRAARRGILIKGGEALERLAKVDTVVFDKTGTLTEGKPEVTDVVALDG-DEDELLALAA 441

Query: 611 SAEASSEHPLAKAVVEYARHFHFFDDPSLNPDGQSHSKESTGSGWLLDVSDFSALPGRGI 670
           + E  SEHPLAKA+V+ A                           L DV DF  +PGRG+
Sbjct: 442 ALEQHSEHPLAKAIVKAAAERG-----------------------LPDVEDFEEIPGRGV 478

Query: 671 QCFISGKQVLVGNRKLLNESGITIPDHVESFVVELEESARTGILVAYDDNLIGVMGIADP 730
           +  + G++VLVGN +LL E GI +P  +   +  LE   +T + VA D  L+GV+ +AD 
Sbjct: 479 EAEVDGERVLVGNARLLGEEGIDLP-LLSERIEALESEGKTVVFVAVDGKLVGVIALADE 537

Query: 731 VKREAAVVVEGLLKMGVRPVMVTGDNWRTAHAVAREIGIQDVMADVMPAGKADAVRSFQK 790
           ++ +A   +  L  +G++ VM+TGDN RTA A+A+E+GI +V A+++P  KA+ VR  Q 
Sbjct: 538 LRPDAKEAIAALKALGIKVVMLTGDNRRTAEAIAKELGIDEVRAELLPEDKAEIVRELQA 597

Query: 791 DGSIVAMVGDGINDSPALAAADVGMAIGAGTDIAIEAADYVLMRNSLEDVIIAIDLSRKT 850
           +G  VAMVGDGIND+PALAAADVG+A+G+GTD+AIEAAD VLMR+ L  V  AIDLSR T
Sbjct: 598 EGRKVAMVGDGINDAPALAAADVGIAMGSGTDVAIEAADVVLMRDDLSAVPEAIDLSRAT 657

Query: 851 FARIRLNYIFAMAYNVIAIPIAAGVFFPSLGIKLPPWAAGACMALSSVSVVCSSLLLRRY 910
              I+ N  +A  YN IAIP+AAG         L PW A   M+ SSV VV ++L L R 
Sbjct: 658 RRIIKQNLFWAFGYNAIAIPLAAGGL-------LTPWIAALAMSGSSVLVVLNALRLLRS 710

Query: 911 KKP 913
            KP
Sbjct: 711 FKP 713

Length = 713
>gnl|CDD|233445 TIGR01511, ATPase-IB1_Cu, copper-(or silver)-translocating P-type ATPase Back     alignment and domain information
>gnl|CDD|233447 TIGR01525, ATPase-IB_hvy, heavy metal translocating P-type ATPase Back     alignment and domain information
>gnl|CDD|182635 PRK10671, copA, copper exporting ATPase; Provisional Back     alignment and domain information
>gnl|CDD|211664 TIGR01512, ATPase-IB2_Cd, heavy metal-(Cd/Co/Hg/Pb/Zn)-translocating P-type ATPase Back     alignment and domain information
>gnl|CDD|233438 TIGR01494, ATPase_P-type, ATPase, P-type (transporting), HAD superfamily, subfamily IC Back     alignment and domain information
>gnl|CDD|236827 PRK11033, zntA, zinc/cadmium/mercury/lead-transporting ATPase; Provisional Back     alignment and domain information
>gnl|CDD|215733 pfam00122, E1-E2_ATPase, E1-E2 ATPase Back     alignment and domain information
>gnl|CDD|223550 COG0474, MgtA, Cation transport ATPase [Inorganic ion transport and metabolism] Back     alignment and domain information
>gnl|CDD|225126 COG2216, KdpB, High-affinity K+ transport system, ATPase chain B [Inorganic ion transport and metabolism] Back     alignment and domain information
>gnl|CDD|130561 TIGR01497, kdpB, K+-transporting ATPase, B subunit Back     alignment and domain information
>gnl|CDD|184448 PRK14010, PRK14010, potassium-transporting ATPase subunit B; Provisional Back     alignment and domain information
>gnl|CDD|234905 PRK01122, PRK01122, potassium-transporting ATPase subunit B; Provisional Back     alignment and domain information
>gnl|CDD|233506 TIGR01647, ATPase-IIIA_H, plasma-membrane proton-efflux P-type ATPase Back     alignment and domain information
>gnl|CDD|130585 TIGR01522, ATPase-IIA2_Ca, golgi membrane calcium-translocating P-type ATPase Back     alignment and domain information
>gnl|CDD|233277 TIGR01116, ATPase-IIA1_Ca, sarco/endoplasmic reticulum calcium-translocating P-type ATPase Back     alignment and domain information
>gnl|CDD|188151 TIGR01517, ATPase-IIB_Ca, plasma-membrane calcium-translocating P-type ATPase Back     alignment and domain information
>gnl|CDD|236705 PRK10517, PRK10517, magnesium-transporting ATPase MgtA; Provisional Back     alignment and domain information
>gnl|CDD|130587 TIGR01524, ATPase-IIIB_Mg, magnesium-translocating P-type ATPase Back     alignment and domain information
>gnl|CDD|216069 pfam00702, Hydrolase, haloacid dehalogenase-like hydrolase Back     alignment and domain information
>gnl|CDD|130586 TIGR01523, ATPase-IID_K-Na, potassium and/or sodium efflux P-type ATPase, fungal-type Back     alignment and domain information
>gnl|CDD|237914 PRK15122, PRK15122, magnesium-transporting ATPase; Provisional Back     alignment and domain information
>gnl|CDD|238219 cd00371, HMA, Heavy-metal-associated domain (HMA) is a conserved domain of approximately 30 amino acid residues found in a number of proteins that transport or detoxify heavy metals, for example, the CPx-type heavy metal ATPases and copper chaperones Back     alignment and domain information
>gnl|CDD|225328 COG2608, CopZ, Copper chaperone [Inorganic ion transport and metabolism] Back     alignment and domain information
>gnl|CDD|215902 pfam00403, HMA, Heavy-metal-associated domain Back     alignment and domain information
>gnl|CDD|130176 TIGR01106, ATPase-IIC_X-K, sodium or proton efflux -- potassium uptake antiporter, P-type ATPase, alpha subunit Back     alignment and domain information
>gnl|CDD|188151 TIGR01517, ATPase-IIB_Ca, plasma-membrane calcium-translocating P-type ATPase Back     alignment and domain information
>gnl|CDD|188014 TIGR00003, TIGR00003, copper ion binding protein Back     alignment and domain information
>gnl|CDD|225127 COG2217, ZntA, Cation transport ATPase [Inorganic ion transport and metabolism] Back     alignment and domain information
>gnl|CDD|233513 TIGR01657, P-ATPase-V, P-type ATPase of unknown pump specificity (type V) Back     alignment and domain information
>gnl|CDD|226572 COG4087, COG4087, Soluble P-type ATPase [General function prediction only] Back     alignment and domain information
>gnl|CDD|238219 cd00371, HMA, Heavy-metal-associated domain (HMA) is a conserved domain of approximately 30 amino acid residues found in a number of proteins that transport or detoxify heavy metals, for example, the CPx-type heavy metal ATPases and copper chaperones Back     alignment and domain information
>gnl|CDD|130176 TIGR01106, ATPase-IIC_X-K, sodium or proton efflux -- potassium uptake antiporter, P-type ATPase, alpha subunit Back     alignment and domain information
>gnl|CDD|215902 pfam00403, HMA, Heavy-metal-associated domain Back     alignment and domain information
>gnl|CDD|233513 TIGR01657, P-ATPase-V, P-type ATPase of unknown pump specificity (type V) Back     alignment and domain information
>gnl|CDD|131107 TIGR02052, MerP, mercuric transport protein periplasmic component Back     alignment and domain information
>gnl|CDD|182635 PRK10671, copA, copper exporting ATPase; Provisional Back     alignment and domain information
>gnl|CDD|184298 PRK13748, PRK13748, putative mercuric reductase; Provisional Back     alignment and domain information
>gnl|CDD|225328 COG2608, CopZ, Copper chaperone [Inorganic ion transport and metabolism] Back     alignment and domain information
>gnl|CDD|232824 TIGR00099, Cof-subfamily, Cof subfamily of IIB subfamily of haloacid dehalogenase superfamily Back     alignment and domain information
>gnl|CDD|236827 PRK11033, zntA, zinc/cadmium/mercury/lead-transporting ATPase; Provisional Back     alignment and domain information
>gnl|CDD|223634 COG0560, SerB, Phosphoserine phosphatase [Amino acid transport and metabolism] Back     alignment and domain information
>gnl|CDD|130585 TIGR01522, ATPase-IIA2_Ca, golgi membrane calcium-translocating P-type ATPase Back     alignment and domain information
>gnl|CDD|219777 pfam08282, Hydrolase_3, haloacid dehalogenase-like hydrolase Back     alignment and domain information
>gnl|CDD|221729 pfam12710, HAD, haloacid dehalogenase-like hydrolase Back     alignment and domain information
>gnl|CDD|233513 TIGR01657, P-ATPase-V, P-type ATPase of unknown pump specificity (type V) Back     alignment and domain information
>gnl|CDD|224692 COG1778, COG1778, Low specificity phosphatase (HAD superfamily) [General function prediction only] Back     alignment and domain information

Conserved Domains Detected by HHsearch ?

Original result of HHsearch against CDD database

ID ?Alignment Graph ?Length ? Definition ? Probability ?
Query 924
KOG0207951 consensus Cation transport ATPase [Inorganic ion t 100.0
COG2217713 ZntA Cation transport ATPase [Inorganic ion transp 100.0
PRK10671834 copA copper exporting ATPase; Provisional 100.0
PRK11033741 zntA zinc/cadmium/mercury/lead-transporting ATPase 100.0
TIGR01511562 ATPase-IB1_Cu copper-(or silver)-translocating P-t 100.0
TIGR01512536 ATPase-IB2_Cd heavy metal-(Cd/Co/Hg/Pb/Zn)-translo 100.0
TIGR01525556 ATPase-IB_hvy heavy metal translocating P-type ATP 100.0
TIGR01647755 ATPase-IIIA_H plasma-membrane proton-efflux P-type 100.0
PRK14010673 potassium-transporting ATPase subunit B; Provision 100.0
PRK01122679 potassium-transporting ATPase subunit B; Provision 100.0
PRK10517 902 magnesium-transporting ATPase MgtA; Provisional 100.0
TIGR01524 867 ATPase-IIIB_Mg magnesium-translocating P-type ATPa 100.0
TIGR01497675 kdpB K+-transporting ATPase, B subunit. One sequen 100.0
PRK15122 903 magnesium-transporting ATPase; Provisional 100.0
TIGR01517 941 ATPase-IIB_Ca plasma-membrane calcium-translocatin 100.0
TIGR01522 884 ATPase-IIA2_Ca golgi membrane calcium-translocatin 100.0
KOG0204 1034 consensus Calcium transporting ATPase [Inorganic i 100.0
KOG0202 972 consensus Ca2+ transporting ATPase [Inorganic ion 100.0
COG0474 917 MgtA Cation transport ATPase [Inorganic ion transp 100.0
TIGR01494499 ATPase_P-type ATPase, P-type (transporting), HAD s 100.0
TIGR01106 997 ATPase-IIC_X-K sodium or proton efflux -- potassiu 100.0
TIGR01523 1053 ATPase-IID_K-Na potassium and/or sodium efflux P-t 100.0
TIGR01116 917 ATPase-IIA1_Ca sarco/endoplasmic reticulum calcium 100.0
TIGR01657 1054 P-ATPase-V P-type ATPase of unknown pump specifici 100.0
COG2216681 KdpB High-affinity K+ transport system, ATPase cha 100.0
KOG0203 1019 consensus Na+/K+ ATPase, alpha subunit [Inorganic 100.0
TIGR01652 1057 ATPase-Plipid phospholipid-translocating P-type AT 100.0
KOG0208 1140 consensus Cation transport ATPase [Inorganic ion t 100.0
KOG0205 942 consensus Plasma membrane H+-transporting ATPase [ 100.0
PLN03190 1178 aminophospholipid translocase; Provisional 100.0
KOG0209 1160 consensus P-type ATPase [Inorganic ion transport a 100.0
KOG0210 1051 consensus P-type ATPase [Inorganic ion transport a 100.0
KOG0206 1151 consensus P-type ATPase [General function predicti 100.0
PF00122230 E1-E2_ATPase: E1-E2 ATPase p-type cation-transport 100.0
PF00702215 Hydrolase: haloacid dehalogenase-like hydrolase; I 99.96
COG4087152 Soluble P-type ATPase [General function prediction 99.67
KOG0207951 consensus Cation transport ATPase [Inorganic ion t 99.46
PF0040362 HMA: Heavy-metal-associated domain; InterPro: IPR0 99.09
TIGR02137203 HSK-PSP phosphoserine phosphatase/homoserine phosp 99.08
PF0040362 HMA: Heavy-metal-associated domain; InterPro: IPR0 99.03
PRK11133322 serB phosphoserine phosphatase; Provisional 99.02
TIGR01670154 YrbI-phosphatas 3-deoxy-D-manno-octulosonate 8-pho 98.97
COG260871 CopZ Copper chaperone [Inorganic ion transport and 98.94
COG260871 CopZ Copper chaperone [Inorganic ion transport and 98.88
TIGR00338219 serB phosphoserine phosphatase SerB. Phosphoserine 98.88
TIGR02726169 phenyl_P_delta phenylphosphate carboxylase, delta 98.85
COG1778170 Low specificity phosphatase (HAD superfamily) [Gen 98.81
PRK09484183 3-deoxy-D-manno-octulosonate 8-phosphate phosphata 98.8
PRK01158230 phosphoglycolate phosphatase; Provisional 98.78
TIGR01487215 SPP-like sucrose-phosphate phosphatase-like hydrol 98.78
PRK10513270 sugar phosphate phosphatase; Provisional 98.73
PRK15126272 thiamin pyrimidine pyrophosphate hydrolase; Provis 98.69
COG0560212 SerB Phosphoserine phosphatase [Amino acid transpo 98.69
PRK13582205 thrH phosphoserine phosphatase; Provisional 98.69
PRK10976266 putative hydrolase; Provisional 98.67
COG0561264 Cof Predicted hydrolases of the HAD superfamily [G 98.64
TIGR01482225 SPP-subfamily Sucrose-phosphate phosphatase subfam 98.59
TIGR01491201 HAD-SF-IB-PSPlk HAD-superfamily, subfamily-IB PSPa 98.56
PRK10530272 pyridoxal phosphate (PLP) phosphatase; Provisional 98.53
PF08282254 Hydrolase_3: haloacid dehalogenase-like hydrolase; 98.46
KOG1615227 consensus Phosphoserine phosphatase [Amino acid tr 98.44
PLN02887580 hydrolase family protein 98.44
TIGR00099256 Cof-subfamily Cof subfamily of IIB subfamily of ha 98.44
PLN02954224 phosphoserine phosphatase 98.43
TIGR03333214 salvage_mtnX 2-hydroxy-3-keto-5-methylthiopentenyl 98.3
PF12710192 HAD: haloacid dehalogenase-like hydrolase; PDB: 3P 98.24
TIGR01488177 HAD-SF-IB Haloacid Dehalogenase superfamily, subfa 98.22
TIGR01489188 DKMTPPase-SF 2,3-diketo-5-methylthio-1-phosphopent 98.2
TIGR01490202 HAD-SF-IB-hyp1 HAD-superfamily subfamily IB hydrol 98.19
PRK13222226 phosphoglycolate phosphatase; Provisional 98.16
PRK09552219 mtnX 2-hydroxy-3-keto-5-methylthiopentenyl-1-phosp 98.13
COG0546220 Gph Predicted phosphatases [General function predi 98.11
PRK03669271 mannosyl-3-phosphoglycerate phosphatase; Reviewed 98.06
TIGR01454205 AHBA_synth_RP 3-amino-5-hydroxybenoic acid synthes 98.0
TIGR01486256 HAD-SF-IIB-MPGP mannosyl-3-phosphoglycerate phosph 97.91
PRK08238 479 hypothetical protein; Validated 97.91
PRK13288214 pyrophosphatase PpaX; Provisional 97.9
PRK11033741 zntA zinc/cadmium/mercury/lead-transporting ATPase 97.83
COG2217713 ZntA Cation transport ATPase [Inorganic ion transp 97.8
TIGR02471236 sucr_syn_bact_C sucrose phosphate synthase, sucros 97.79
cd01427139 HAD_like Haloacid dehalogenase-like hydrolases. Th 97.78
PRK13223272 phosphoglycolate phosphatase; Provisional 97.76
PRK10187266 trehalose-6-phosphate phosphatase; Provisional 97.73
PRK13225273 phosphoglycolate phosphatase; Provisional 97.65
TIGR01485249 SPP_plant-cyano sucrose-6F-phosphate phosphohydrol 97.63
TIGR01449213 PGP_bact 2-phosphoglycolate phosphatase, prokaryot 97.63
PRK00192273 mannosyl-3-phosphoglycerate phosphatase; Reviewed 97.63
PRK06769173 hypothetical protein; Validated 97.59
PRK10826222 2-deoxyglucose-6-phosphatase; Provisional 97.5
TIGR01544277 HAD-SF-IE haloacid dehalogenase superfamily, subfa 97.34
PRK13226229 phosphoglycolate phosphatase; Provisional 97.34
TIGR0000368 copper ion binding protein. This model describes a 97.26
TIGR01422253 phosphonatase phosphonoacetaldehyde hydrolase. Thi 97.26
COG2179175 Predicted hydrolase of the HAD superfamily [Genera 97.23
PRK13478267 phosphonoacetaldehyde hydrolase; Provisional 97.19
PLN02382413 probable sucrose-phosphatase 97.13
PRK12702302 mannosyl-3-phosphoglycerate phosphatase; Reviewed 97.12
TIGR01545210 YfhB_g-proteo haloacid dehalogenase superfamily, s 97.09
PRK11590211 hypothetical protein; Provisional 97.09
TIGR03351220 PhnX-like phosphonatase-like hydrolase. This clade 97.06
PRK06698459 bifunctional 5'-methylthioadenosine/S-adenosylhomo 97.04
TIGR01668170 YqeG_hyp_ppase HAD superfamily (subfamily IIIA) ph 97.03
PRK11009237 aphA acid phosphatase/phosphotransferase; Provisio 97.02
PRK14501726 putative bifunctional trehalose-6-phosphate syntha 97.01
TIGR01548197 HAD-SF-IA-hyp1 haloacid dehalogenase superfamily, 96.97
TIGR0000368 copper ion binding protein. This model describes a 96.97
TIGR02461225 osmo_MPG_phos mannosyl-3-phosphoglycerate phosphat 96.96
PRK14502694 bifunctional mannosyl-3-phosphoglycerate synthase/ 96.96
TIGR01662132 HAD-SF-IIIA HAD-superfamily hydrolase, subfamily I 96.94
PLN03243260 haloacid dehalogenase-like hydrolase; Provisional 96.93
KOG4383 1354 consensus Uncharacterized conserved protein [Funct 96.92
PLN02770248 haloacid dehalogenase-like hydrolase family protei 96.91
TIGR01672237 AphA HAD superfamily (subfamily IIIB) phosphatase, 96.86
PLN02575381 haloacid dehalogenase-like hydrolase 96.81
TIGR01484204 HAD-SF-IIB HAD-superfamily hydrolase, subfamily II 96.74
TIGR02253221 CTE7 HAD superfamily (subfamily IA) hydrolase, TIG 96.73
PRK08942181 D,D-heptose 1,7-bisphosphate phosphatase; Validate 96.69
PRK11587218 putative phosphatase; Provisional 96.65
PTZ00174247 phosphomannomutase; Provisional 96.64
TIGR01428198 HAD_type_II 2-haloalkanoic acid dehalogenase, type 96.59
KOG4656247 consensus Copper chaperone for superoxide dismutas 96.59
COG4030315 Uncharacterized protein conserved in archaea [Func 96.55
PRK14988224 GMP/IMP nucleotidase; Provisional 96.55
PLN02957238 copper, zinc superoxide dismutase 96.52
TIGR02254224 YjjG/YfnB HAD superfamily (subfamily IA) hydrolase 96.44
COG4359220 Uncharacterized conserved protein [Function unknow 96.43
PLN02957238 copper, zinc superoxide dismutase 96.39
PHA02530300 pseT polynucleotide kinase; Provisional 96.37
PLN02779286 haloacid dehalogenase-like hydrolase family protei 96.34
KOG4656247 consensus Copper chaperone for superoxide dismutas 96.29
PLN02580384 trehalose-phosphatase 96.26
KOG160373 consensus Copper chaperone [Inorganic ion transpor 96.16
PRK10671834 copA copper exporting ATPase; Provisional 96.14
TIGR01656147 Histidinol-ppas histidinol-phosphate phosphatase f 96.12
TIGR01685174 MDP-1 magnesium-dependent phosphatase-1. This mode 96.11
TIGR01990185 bPGM beta-phosphoglucomutase. The enzyme from L. l 96.01
PLN02940382 riboflavin kinase 96.01
PRK09449224 dUMP phosphatase; Provisional 95.95
TIGR01509183 HAD-SF-IA-v3 haloacid dehalogenase superfamily, su 95.87
TIGR00213176 GmhB_yaeD D,D-heptose 1,7-bisphosphate phosphatase 95.85
TIGR02009185 PGMB-YQAB-SF beta-phosphoglucomutase family hydrol 95.85
TIGR00685244 T6PP trehalose-phosphatase. At least 18 distinct s 95.81
KOG160373 consensus Copper chaperone [Inorganic ion transpor 95.68
PF13419176 HAD_2: Haloacid dehalogenase-like hydrolase; PDB: 95.63
PLN02811220 hydrolase 95.49
TIGR01686320 FkbH FkbH-like domain. The C-terminal portion of t 95.38
TIGR01459242 HAD-SF-IIA-hyp4 HAD-superfamily class IIA hydrolas 95.38
smart00775157 LNS2 LNS2 domain. This domain is found in Saccharo 95.37
TIGR01681128 HAD-SF-IIIC HAD-superfamily phosphatase, subfamily 95.36
PLN02205854 alpha,alpha-trehalose-phosphate synthase [UDP-form 95.24
TIGR01533266 lipo_e_P4 5'-nucleotidase, lipoprotein e(P4) famil 95.2
PLN03017366 trehalose-phosphatase 95.17
TIGR02463221 MPGP_rel mannosyl-3-phosphoglycerate phosphatase-r 95.09
TIGR01664166 DNA-3'-Pase DNA 3'-phosphatase. The central phosph 94.96
PF09419168 PGP_phosphatase: Mitochondrial PGP phosphatase; In 94.93
TIGR02252203 DREG-2 REG-2-like, HAD superfamily (subfamily IA) 94.87
TIGR01549154 HAD-SF-IA-v1 haloacid dehalogenase superfamily, su 94.77
PRK05446 354 imidazole glycerol-phosphate dehydratase/histidino 94.61
PF06888234 Put_Phosphatase: Putative Phosphatase; InterPro: I 94.6
smart00577148 CPDc catalytic domain of ctd-like phosphatases. 94.48
TIGR01261161 hisB_Nterm histidinol-phosphatase. This model desc 94.46
TIGR01691220 enolase-ppase 2,3-diketo-5-methylthio-1-phosphopen 94.11
PF05116247 S6PP: Sucrose-6F-phosphate phosphohydrolase; Inter 94.08
TIGR01675229 plant-AP plant acid phosphatase. This model explic 93.74
PLN02919 1057 haloacid dehalogenase-like hydrolase family protei 92.99
TIGR02247211 HAD-1A3-hyp Epoxide hydrolase N-terminal domain-li 92.76
COG3769274 Predicted hydrolase (HAD superfamily) [General fun 92.68
TIGR01458257 HAD-SF-IIA-hyp3 HAD-superfamily subfamily IIA hydr 91.7
PRK10444248 UMP phosphatase; Provisional 91.64
PLN02151354 trehalose-phosphatase 91.59
PF13344101 Hydrolase_6: Haloacid dehalogenase-like hydrolase; 91.45
PRK10563221 6-phosphogluconate phosphatase; Provisional 91.26
PRK09456199 ?-D-glucose-1-phosphatase; Provisional 91.0
TIGR01993184 Pyr-5-nucltdase pyrimidine 5'-nucleotidase. These 90.68
PHA02597197 30.2 hypothetical protein; Provisional 90.68
PRK10725188 fructose-1-P/6-phosphogluconate phosphatase; Provi 89.63
TIGR01457249 HAD-SF-IIA-hyp2 HAD-superfamily subfamily IIA hydr 89.4
PLN02645311 phosphoglycolate phosphatase 89.34
TIGR0205292 MerP mercuric transport protein periplasmic compon 88.46
PRK14054172 methionine sulfoxide reductase A; Provisional 87.31
PRK10748238 flavin mononucleotide phosphatase; Provisional 86.9
TIGR01684301 viral_ppase viral phosphatase. These proteins also 86.33
KOG3040262 consensus Predicted sugar phosphatase (HAD superfa 86.25
KOG3120256 consensus Predicted haloacid dehalogenase-like hyd 85.82
PRK00192273 mannosyl-3-phosphoglycerate phosphatase; Reviewed 85.28
PF03767229 Acid_phosphat_B: HAD superfamily, subfamily IIIB ( 84.83
PRK05528156 methionine sulfoxide reductase A; Provisional 83.82
PLN02177 497 glycerol-3-phosphate acyltransferase 83.29
COG1011229 Predicted hydrolase (HAD superfamily) [General fun 82.93
TIGR01452279 PGP_euk phosphoglycolate/pyridoxal phosphate phosp 82.34
TIGR0205292 MerP mercuric transport protein periplasmic compon 82.08
PRK13014186 methionine sulfoxide reductase A; Provisional 81.41
COG0637221 Predicted phosphatase/phosphohexomutase [General f 80.71
TIGR02251162 HIF-SF_euk Dullard-like phosphatase domain. This d 80.66
TIGR01680275 Veg_Stor_Prot vegetative storage protein. The prot 80.44
>KOG0207 consensus Cation transport ATPase [Inorganic ion transport and metabolism] Back     alignment and domain information 
Probab=100.00  E-value=2e-153  Score=1295.24  Aligned_cols=831  Identities=49%  Similarity=0.785  Sum_probs=763.9

Q ss_pred             EEEEEeCCCCChhhHHHHHHHhhCCCCeeEEEEEecCCEEEEEECCCCCChHhHHHHHHhcccchhhhcccCCCCCCCCc
Q 002427           47 RIQVGVTGMTCAACSNSVEGALMGLKGVAKASVALLQNKADVVFDPDLVKDEDIKNAIEDAGFEAEILAESSTSGPKPQG  126 (924)
Q Consensus        47 ~~~~~I~gm~C~~C~~~ie~~l~~~~GV~~~~v~~~~~~~~v~~~~~~~~~~~i~~~i~~~Gy~~~~~~~~~~~~~~~~~  126 (924)
                      +..+++.||+|++|+..+|+.+++.+|+.++.+.+..+++++.||+...+++.+.+.++++||.+...+....    .. 
T Consensus        70 ~~~l~v~GmtC~scv~~i~~~l~~~~gv~~~~val~~~~~~v~~dp~v~s~~~~~e~ie~~gf~a~~i~~~~~----~~-  144 (951)
T KOG0207|consen   70 KCYLSVNGMTCASCVATIERNLRKIEGVESAVVALSASKAEVIYDPAVTSPDSIAESIEDLGFSAELIESVNG----NS-  144 (951)
T ss_pred             eeEEEecCceeHHHHHHHHHHhhccCCcceEEEEeeccceeEEECCcccCchhHHHHHHhcCccceehhcccC----CC-
Confidence            5679999999999999999999999999999999999999999999999999999999999999877654321    11 


Q ss_pred             ceeeeeeeCCCcccchHhhHHhhhhcCCCceeEEEecCCCeEEEeeCCCCCChhhHHHhhhhcCCccceeecccccc---
Q 002427          127 TIVGQYTIGGMTCAACVNSVEGILSNFKGVRQFRFDKISGELEVLFDPEALSSRSLVDGIAGRSNGKFQIRVMNPFA---  203 (924)
Q Consensus       127 ~~~~~l~i~gm~C~~C~~~ie~~l~~~~GV~~v~vn~~~~~~~V~yd~~~~~~~~i~~~I~~~g~~~y~~~~~~~~~---  203 (924)
                      .....|.+.||+|.+|...||+.+.+++||.+++++..++++.|.|||+.++++++.+.|+..|   |.+......+   
T Consensus       145 ~~~i~L~v~g~~c~s~~~~ie~~l~~l~gV~~~sv~~~t~~~~V~~~~~~~~pr~i~k~ie~~~---~~~~~~~~~~~~~  221 (951)
T KOG0207|consen  145 NQKIYLDVLGMTCASCVSKIESILERLRGVKSFSVSLATDTAIVVYDPEITGPRDIIKAIEETG---FEASVRPYGDTTF  221 (951)
T ss_pred             CCcEEEEeecccccchhhhhHHHHhhccCeeEEEEeccCCceEEEecccccChHHHHHHHHhhc---ccceeeeccccch
Confidence            1567899999999999999999999999999999999999999999999999999999999999   6554332111   


Q ss_pred             cccccchHHHHhhHHHhHHHHHhhhhHHHHHhhccchhhHHHHhhhccCCcchHHHHHHHHHHHHHHhcCHHHHHHHHHH
Q 002427          204 RMTSRDSEETSNMFRLFISSLFLSIPVFFIRVICPHIPLVYALLLWRCGPFLMGDWLNWALVSVVQFVIGKRFYTAAGRA  283 (924)
Q Consensus       204 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~l~~~v~~~~g~~~~~~a~~~  283 (924)
                      +...+...+.+.|++.|++++.+++|++++.+.+++............+++.+..+++++|++|++|..||+||..||++
T Consensus       222 ~~~l~~~~ei~~w~~~fl~s~~~~~~v~~~~~~~~~~~~~~~~~~~~~~~~~~~~~l~~~L~~~vqf~~G~~fy~~A~ks  301 (951)
T KOG0207|consen  222 KNSLKHKEEIRKWKRPFLISLGFSLPVSFAMIICPPLAWILALLVPFLPGLSYGNSLSFVLATPVQFVGGRPFYLAAYKS  301 (951)
T ss_pred             hhhhhhhhHHHhcchHHHHHHHHHHHHHHHHHHhccchhhhhhhccccccchhhhHHHhhhheeeEEecceeeHHHHHHH
Confidence            11223456778999999999999999998877766543211111122445667889999999999999999999999999


Q ss_pred             HHcCCCCchHHHHHHHHHHHHHHHHHHHhhhhcCCCCcchhhhHHHHHHHHHHHHHHHHHHhhhHHHHHHHHHhcCCCeE
Q 002427          284 LRNGSTNMDVLVALGTSAAYFYSVGALLYGVVTGFWSPTYFETSAMLITFVLFGKYLEILAKGKTSDAIKKLVELAPATA  363 (924)
Q Consensus       284 l~~~~~~md~Li~l~~~~a~~~s~~~~~~~~~~~~~~~~~~~~~~~li~~~~~~~~le~~~~~k~~~~l~~l~~~~~~~~  363 (924)
                      |++++.|||+|++|++.+||+||++.++...+... +..|||++.|++.|+++|+|+|.+++.|+..++.+|+++.|.++
T Consensus       302 L~~g~~nMdvLv~L~t~aay~~S~~~~~~~~~~~~-~~tfFdt~~MLi~fi~lgr~LE~~Ak~kts~alskLmsl~p~~a  380 (951)
T KOG0207|consen  302 LKRGSANMDVLVVLGTTAAYFYSIFSLLAAVVFDS-PPTFFDTSPMLITFITLGRWLESLAKGKTSEALSKLMSLAPSKA  380 (951)
T ss_pred             HhcCCCCceeehhhHHHHHHHHHHHHHHHHHHccC-cchhccccHHHHHHHHHHHHHHHHhhccchHHHHHHhhcCcccc
Confidence            99999999999999999999999999888766633 78999999999999999999999999999999999999999999


Q ss_pred             EEEEecCCCceeeEEEEeCCCCCCCCEEEECCCCcccceEEEEecceeeecccccCCCcceeccCCCccccceeeecceE
Q 002427          364 LLVVKDKVGKCIEEREIDALLIQSGDTLKVLPGTKLPADGIVVWGTSYVNESMVTGEAVPVLKEINSPVIGGTINLHGVL  443 (924)
Q Consensus       364 ~v~~~~~~g~~~~~~~i~~~~l~~GDii~v~~G~~iP~Dg~vl~G~~~Vdes~LTGEs~pv~k~~g~~v~aGt~~~~g~~  443 (924)
                      .++   .+|+  ++++|+.+.|++||+|.|.||++||+||+|++|++.||||++|||++||.|++|++|.+||+|.+|.+
T Consensus       381 ~ii---~~g~--~e~eI~v~lvq~gdivkV~pG~kiPvDG~Vv~Gss~VDEs~iTGEs~PV~Kk~gs~ViaGsiN~nG~l  455 (951)
T KOG0207|consen  381 TII---EDGS--EEKEIPVDLVQVGDIVKVKPGEKIPVDGVVVDGSSEVDESLITGESMPVPKKKGSTVIAGSINLNGTL  455 (951)
T ss_pred             eEe---ecCC--cceEeeeeeeccCCEEEECCCCccccccEEEeCceeechhhccCCceecccCCCCeeeeeeecCCceE
Confidence            998   5553  37899999999999999999999999999999999999999999999999999999999999999999


Q ss_pred             EEEEEEecChhHHHHHHHHHHHhhccCChhHHHHHHHHHhHHHHHHHHHHHHHHHHHHHhh-cCCCCCcccCCCCccHHH
Q 002427          444 HIQATKVGSDAVLSQIISLVETAQMSKAPIQKFADFVASIFVPIVVTLALFTWLCWYVAGV-LGAYPEQWLPENGTHFVF  522 (924)
Q Consensus       444 ~~~v~~~g~~t~~~~i~~~~~~~~~~~~~~~~~~~~~~~~~~~~~l~~a~~~~~~~~~~~~-~~~~~~~~~~~~~~~~~~  522 (924)
                      .++++++|.||.+++|.++++++|.+|+|+|+++|+++.||+|+++++++++|++|++.+. ...++..|.    ..+..
T Consensus       456 ~VkaT~~g~dttla~IvkLVEEAQ~sKapiQq~aDkia~yFvP~Vi~lS~~t~~~w~~~g~~~~~~~~~~~----~~~~~  531 (951)
T KOG0207|consen  456 LVKATKVGGDTTLAQIVKLVEEAQLSKAPIQQLADKIAGYFVPVVIVLSLATFVVWILIGKIVFKYPRSFF----DAFSH  531 (951)
T ss_pred             EEEEEeccccchHHHHHHHHHHHHcccchHHHHHHHhhhcCCchhhHHHHHHHHHHHHHccccccCcchhh----HHHHH
Confidence            9999999999999999999999999999999999999999999999999999999999876 344455554    57899


Q ss_pred             HHHHHhhhhhhhcccccchhHHHHHHHHHHHHHhcCccccCchHHHHccCCcEEEecCCCccccCceEEEEEEecCC-CC
Q 002427          523 ALMFSISVVVIACPCALGLATPTAVMVATGVGANNGVLIKGGDALERAQKIKYVIFDKTGTLTQGRATVTTAKVFTK-MD  601 (924)
Q Consensus       523 ~~~~~isvlv~~~P~aL~la~p~~l~~~~~~~~~~gilvk~~~~lE~lg~v~~i~fDKTGTLT~~~~~v~~~~~~~~-~~  601 (924)
                      ++..+++|++++|||+|++|+|++++++.+.++++|+++|+++.+|.+.++++++||||||||+|++.|.++....+ .+
T Consensus       532 a~~~aisVlviACPCaLgLATPtAvmvatgvgA~nGvLIKGge~LE~~hkv~tVvFDKTGTLT~G~~~V~~~~~~~~~~~  611 (951)
T KOG0207|consen  532 AFQLAISVLVIACPCALGLATPTAVMVATGVGATNGVLIKGGEALEKAHKVKTVVFDKTGTLTEGKPTVVDFKSLSNPIS  611 (951)
T ss_pred             HHHhhheEEEEECchhhhcCCceEEEEEechhhhcceEEcCcHHHHHHhcCCEEEEcCCCceecceEEEEEEEecCCccc
Confidence            99999999999999999999999999999999999999999999999999999999999999999999999998876 78


Q ss_pred             HHHHHHHHHHHhcCCCChHHHHHHHHHHhcCCCCCCCCCCCCCCCccccCCCCcccccccceeecCCe--EEEEEcCeEE
Q 002427          602 RGEFLTLVASAEASSEHPLAKAVVEYARHFHFFDDPSLNPDGQSHSKESTGSGWLLDVSDFSALPGRG--IQCFISGKQV  679 (924)
Q Consensus       602 ~~~~l~~~~~~~~~s~hp~~~ai~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~g~g--v~~~~~g~~~  679 (924)
                      ..+++.++++.|..|+||+++||++|+++...                   ......+.+|+..+|.|  +.+.++|+++
T Consensus       612 ~~e~l~~v~a~Es~SeHPig~AIv~yak~~~~-------------------~~~~~~~~~~~~~pg~g~~~~~~~~~~~i  672 (951)
T KOG0207|consen  612 LKEALALVAAMESGSEHPIGKAIVDYAKEKLV-------------------EPNPEGVLSFEYFPGEGIYVTVTVDGNEV  672 (951)
T ss_pred             HHHHHHHHHHHhcCCcCchHHHHHHHHHhccc-------------------ccCccccceeecccCCCcccceEEeeeEE
Confidence            89999999999999999999999999998631                   11123456788889998  7788999999


Q ss_pred             EEeeHhhHhhcCCCCChhhhHHHHHHHHcCCeEEEEEECCeEEEEEEecCCCcHhHHHHHHHHHHCCCeEEEEcCCCHHH
Q 002427          680 LVGNRKLLNESGITIPDHVESFVVELEESARTGILVAYDDNLIGVMGIADPVKREAAVVVEGLLKMGVRPVMVTGDNWRT  759 (924)
Q Consensus       680 ~ig~~~~~~~~~~~~~~~~~~~~~~~~~~g~~~i~va~~~~~lG~i~l~D~lr~~~~~~I~~L~~~gi~v~mlTGD~~~t  759 (924)
                      .+|+++|+.+++...++++++..++.+..|+++++++.|+++.|++.++|++|||+..+|+.||++||+++|+||||..+
T Consensus       673 ~iGN~~~~~r~~~~~~~~i~~~~~~~e~~g~tvv~v~vn~~l~gv~~l~D~vr~~a~~av~~Lk~~Gi~v~mLTGDn~~a  752 (951)
T KOG0207|consen  673 LIGNKEWMSRNGCSIPDDILDALTESERKGQTVVYVAVNGQLVGVFALEDQVRPDAALAVAELKSMGIKVVMLTGDNDAA  752 (951)
T ss_pred             eechHHHHHhcCCCCchhHHHhhhhHhhcCceEEEEEECCEEEEEEEeccccchhHHHHHHHHHhcCceEEEEcCCCHHH
Confidence            99999999999999999999999999999999999999999999999999999999999999999999999999999999


Q ss_pred             HHHHHHHcCCceEEeccChhhHHHHHHHHhhCCCEEEEEcCCcCCHHHHhcCCceEEecCChHHHHHhcCEEEecCChhH
Q 002427          760 AHAVAREIGIQDVMADVMPAGKADAVRSFQKDGSIVAMVGDGINDSPALAAADVGMAIGAGTDIAIEAADYVLMRNSLED  839 (924)
Q Consensus       760 a~~iA~~~gi~~v~a~~~P~~K~~~V~~lq~~g~~v~~vGDg~nD~~al~~A~vgia~~~~~~~a~~~ad~vl~~~~l~~  839 (924)
                      |+++|+++||++|||++.|+||.++|+.+|++|+.|+|||||+||+|||++|||||++|.|+++|.++||+||+++||..
T Consensus       753 A~svA~~VGi~~V~aev~P~~K~~~Ik~lq~~~~~VaMVGDGINDaPALA~AdVGIaig~gs~vAieaADIVLmrn~L~~  832 (951)
T KOG0207|consen  753 ARSVAQQVGIDNVYAEVLPEQKAEKIKEIQKNGGPVAMVGDGINDAPALAQADVGIAIGAGSDVAIEAADIVLMRNDLRD  832 (951)
T ss_pred             HHHHHHhhCcceEEeccCchhhHHHHHHHHhcCCcEEEEeCCCCccHHHHhhccceeeccccHHHHhhCCEEEEccchhh
Confidence            99999999999999999999999999999999999999999999999999999999999999999999999999999999


Q ss_pred             HHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHhhhhccccCCCccHHHHHHHhhhhhHhHhhhcccccccCCCCc
Q 002427          840 VIIAIDLSRKTFARIRLNYIFAMAYNVIAIPIAAGVFFPSLGIKLPPWAAGACMALSSVSVVCSSLLLRRYKKPRL  915 (924)
Q Consensus       840 l~~~i~~~r~~~~~i~~n~~~~l~~n~~~i~~a~g~~~~~~g~~l~p~~a~~~m~~ss~~v~~ns~~l~~~~~~~~  915 (924)
                      ++.+|+++|+++++||+|+.|+++||+++||+|+|.|.|| |+.|+||+|.++|.+||++|++|||.|++||+|..
T Consensus       833 v~~ai~LSrkt~~rIk~N~~~A~~yn~~~IpIAagvF~P~-~~~L~Pw~A~lama~SSvsVv~sSllLk~~k~p~~  907 (951)
T KOG0207|consen  833 VPFAIDLSRKTVKRIKLNFVWALIYNLVGIPIAAGVFAPF-GIVLPPWMASLAMAASSVSVVLSSLLLKRYKKPTI  907 (951)
T ss_pred             hHHHHHHHHHHHhhHHHHHHHHHHHHHhhhhhheecccCC-ccccCchHHHHHHHhhhHHHhhhHHHHhhcccccc
Confidence            9999999999999999999999999999999999999998 48999999999999999999999999999999963

>COG2217 ZntA Cation transport ATPase [Inorganic ion transport and metabolism] Back     alignment and domain information
>PRK10671 copA copper exporting ATPase; Provisional Back     alignment and domain information
>PRK11033 zntA zinc/cadmium/mercury/lead-transporting ATPase; Provisional Back     alignment and domain information
>TIGR01511 ATPase-IB1_Cu copper-(or silver)-translocating P-type ATPase Back     alignment and domain information
>TIGR01512 ATPase-IB2_Cd heavy metal-(Cd/Co/Hg/Pb/Zn)-translocating P-type ATPase Back     alignment and domain information
>TIGR01525 ATPase-IB_hvy heavy metal translocating P-type ATPase Back     alignment and domain information
>TIGR01647 ATPase-IIIA_H plasma-membrane proton-efflux P-type ATPase Back     alignment and domain information
>PRK14010 potassium-transporting ATPase subunit B; Provisional Back     alignment and domain information
>PRK01122 potassium-transporting ATPase subunit B; Provisional Back     alignment and domain information
>PRK10517 magnesium-transporting ATPase MgtA; Provisional Back     alignment and domain information
>TIGR01524 ATPase-IIIB_Mg magnesium-translocating P-type ATPase Back     alignment and domain information
>TIGR01497 kdpB K+-transporting ATPase, B subunit Back     alignment and domain information
>PRK15122 magnesium-transporting ATPase; Provisional Back     alignment and domain information
>TIGR01517 ATPase-IIB_Ca plasma-membrane calcium-translocating P-type ATPase Back     alignment and domain information
>TIGR01522 ATPase-IIA2_Ca golgi membrane calcium-translocating P-type ATPase Back     alignment and domain information
>KOG0204 consensus Calcium transporting ATPase [Inorganic ion transport and metabolism] Back     alignment and domain information
>KOG0202 consensus Ca2+ transporting ATPase [Inorganic ion transport and metabolism] Back     alignment and domain information
>COG0474 MgtA Cation transport ATPase [Inorganic ion transport and metabolism] Back     alignment and domain information
>TIGR01494 ATPase_P-type ATPase, P-type (transporting), HAD superfamily, subfamily IC Back     alignment and domain information
>TIGR01106 ATPase-IIC_X-K sodium or proton efflux -- potassium uptake antiporter, P-type ATPase, alpha subunit Back     alignment and domain information
>TIGR01523 ATPase-IID_K-Na potassium and/or sodium efflux P-type ATPase, fungal-type Back     alignment and domain information
>TIGR01116 ATPase-IIA1_Ca sarco/endoplasmic reticulum calcium-translocating P-type ATPase Back     alignment and domain information
>TIGR01657 P-ATPase-V P-type ATPase of unknown pump specificity (type V) Back     alignment and domain information
>COG2216 KdpB High-affinity K+ transport system, ATPase chain B [Inorganic ion transport and metabolism] Back     alignment and domain information
>KOG0203 consensus Na+/K+ ATPase, alpha subunit [Inorganic ion transport and metabolism] Back     alignment and domain information
>TIGR01652 ATPase-Plipid phospholipid-translocating P-type ATPase, flippase Back     alignment and domain information
>KOG0208 consensus Cation transport ATPase [Inorganic ion transport and metabolism] Back     alignment and domain information
>KOG0205 consensus Plasma membrane H+-transporting ATPase [Inorganic ion transport and metabolism] Back     alignment and domain information
>PLN03190 aminophospholipid translocase; Provisional Back     alignment and domain information
>KOG0209 consensus P-type ATPase [Inorganic ion transport and metabolism] Back     alignment and domain information
>KOG0210 consensus P-type ATPase [Inorganic ion transport and metabolism] Back     alignment and domain information
>KOG0206 consensus P-type ATPase [General function prediction only] Back     alignment and domain information
>PF00122 E1-E2_ATPase: E1-E2 ATPase p-type cation-transporting ATPase superfamily signature H+-transporting ATPase (proton pump) signature sodium/potassium-transporting ATPase signature; InterPro: IPR008250 ATPases (or ATP synthases) are membrane-bound enzyme complexes/ion transporters that combine ATP synthesis and/or hydrolysis with the transport of protons across a membrane Back     alignment and domain information
>PF00702 Hydrolase: haloacid dehalogenase-like hydrolase; InterPro: IPR005834 This group of hydrolase enzymes is structurally different from the alpha/beta hydrolase family (abhydrolase) Back     alignment and domain information
>COG4087 Soluble P-type ATPase [General function prediction only] Back     alignment and domain information
>KOG0207 consensus Cation transport ATPase [Inorganic ion transport and metabolism] Back     alignment and domain information
>PF00403 HMA: Heavy-metal-associated domain; InterPro: IPR006121 Proteins that transport heavy metals in micro-organisms and mammals share similarities in their sequences and structures Back     alignment and domain information
>TIGR02137 HSK-PSP phosphoserine phosphatase/homoserine phosphotransferase bifunctional protein Back     alignment and domain information
>PF00403 HMA: Heavy-metal-associated domain; InterPro: IPR006121 Proteins that transport heavy metals in micro-organisms and mammals share similarities in their sequences and structures Back     alignment and domain information
>PRK11133 serB phosphoserine phosphatase; Provisional Back     alignment and domain information
>TIGR01670 YrbI-phosphatas 3-deoxy-D-manno-octulosonate 8-phosphate phosphatase, YrbI family Back     alignment and domain information
>COG2608 CopZ Copper chaperone [Inorganic ion transport and metabolism] Back     alignment and domain information
>COG2608 CopZ Copper chaperone [Inorganic ion transport and metabolism] Back     alignment and domain information
>TIGR00338 serB phosphoserine phosphatase SerB Back     alignment and domain information
>TIGR02726 phenyl_P_delta phenylphosphate carboxylase, delta subunit Back     alignment and domain information
>COG1778 Low specificity phosphatase (HAD superfamily) [General function prediction only] Back     alignment and domain information
>PRK09484 3-deoxy-D-manno-octulosonate 8-phosphate phosphatase; Provisional Back     alignment and domain information
>PRK01158 phosphoglycolate phosphatase; Provisional Back     alignment and domain information
>TIGR01487 SPP-like sucrose-phosphate phosphatase-like hydrolase, Archaeal Back     alignment and domain information
>PRK10513 sugar phosphate phosphatase; Provisional Back     alignment and domain information
>PRK15126 thiamin pyrimidine pyrophosphate hydrolase; Provisional Back     alignment and domain information
>COG0560 SerB Phosphoserine phosphatase [Amino acid transport and metabolism] Back     alignment and domain information
>PRK13582 thrH phosphoserine phosphatase; Provisional Back     alignment and domain information
>PRK10976 putative hydrolase; Provisional Back     alignment and domain information
>COG0561 Cof Predicted hydrolases of the HAD superfamily [General function prediction only] Back     alignment and domain information
>TIGR01482 SPP-subfamily Sucrose-phosphate phosphatase subfamily Back     alignment and domain information
>TIGR01491 HAD-SF-IB-PSPlk HAD-superfamily, subfamily-IB PSPase-like hydrolase, archaeal Back     alignment and domain information
>PRK10530 pyridoxal phosphate (PLP) phosphatase; Provisional Back     alignment and domain information
>PF08282 Hydrolase_3: haloacid dehalogenase-like hydrolase; InterPro: IPR013200 The Haloacid Dehydrogenase (HAD) superfamily includes phosphatases, phosphonatases, P-type ATPases, beta-phosphoglucomutases, phosphomannomutases, and dehalogenases, which are involved in a variety of cellular processes ranging from amino acid biosynthesis to detoxification [] Back     alignment and domain information
>KOG1615 consensus Phosphoserine phosphatase [Amino acid transport and metabolism] Back     alignment and domain information
>PLN02887 hydrolase family protein Back     alignment and domain information
>TIGR00099 Cof-subfamily Cof subfamily of IIB subfamily of haloacid dehalogenase superfamily Back     alignment and domain information
>PLN02954 phosphoserine phosphatase Back     alignment and domain information
>TIGR03333 salvage_mtnX 2-hydroxy-3-keto-5-methylthiopentenyl-1-phosphate phosphatase Back     alignment and domain information
>PF12710 HAD: haloacid dehalogenase-like hydrolase; PDB: 3P96_A 3N28_A 3FVV_A 1RKU_A 1RKV_A 1Y8A_A 2FEA_B 3KD3_B Back     alignment and domain information
>TIGR01488 HAD-SF-IB Haloacid Dehalogenase superfamily, subfamily IB, phosphoserine phosphatase-like Back     alignment and domain information
>TIGR01489 DKMTPPase-SF 2,3-diketo-5-methylthio-1-phosphopentane phosphatase Back     alignment and domain information
>TIGR01490 HAD-SF-IB-hyp1 HAD-superfamily subfamily IB hydrolase, TIGR01490 Back     alignment and domain information
>PRK13222 phosphoglycolate phosphatase; Provisional Back     alignment and domain information
>PRK09552 mtnX 2-hydroxy-3-keto-5-methylthiopentenyl-1-phosphate phosphatase; Reviewed Back     alignment and domain information
>COG0546 Gph Predicted phosphatases [General function prediction only] Back     alignment and domain information
>PRK03669 mannosyl-3-phosphoglycerate phosphatase; Reviewed Back     alignment and domain information
>TIGR01454 AHBA_synth_RP 3-amino-5-hydroxybenoic acid synthesis related protein Back     alignment and domain information
>TIGR01486 HAD-SF-IIB-MPGP mannosyl-3-phosphoglycerate phosphatase family Back     alignment and domain information
>PRK08238 hypothetical protein; Validated Back     alignment and domain information
>PRK13288 pyrophosphatase PpaX; Provisional Back     alignment and domain information
>PRK11033 zntA zinc/cadmium/mercury/lead-transporting ATPase; Provisional Back     alignment and domain information
>COG2217 ZntA Cation transport ATPase [Inorganic ion transport and metabolism] Back     alignment and domain information
>TIGR02471 sucr_syn_bact_C sucrose phosphate synthase, sucrose phosphatase-like domain, bacterial Back     alignment and domain information
>cd01427 HAD_like Haloacid dehalogenase-like hydrolases Back     alignment and domain information
>PRK13223 phosphoglycolate phosphatase; Provisional Back     alignment and domain information
>PRK10187 trehalose-6-phosphate phosphatase; Provisional Back     alignment and domain information
>PRK13225 phosphoglycolate phosphatase; Provisional Back     alignment and domain information
>TIGR01485 SPP_plant-cyano sucrose-6F-phosphate phosphohydrolase Back     alignment and domain information
>TIGR01449 PGP_bact 2-phosphoglycolate phosphatase, prokaryotic Back     alignment and domain information
>PRK00192 mannosyl-3-phosphoglycerate phosphatase; Reviewed Back     alignment and domain information
>PRK06769 hypothetical protein; Validated Back     alignment and domain information
>PRK10826 2-deoxyglucose-6-phosphatase; Provisional Back     alignment and domain information
>TIGR01544 HAD-SF-IE haloacid dehalogenase superfamily, subfamily IE hydrolase, TIGR01544 Back     alignment and domain information
>PRK13226 phosphoglycolate phosphatase; Provisional Back     alignment and domain information
>TIGR00003 copper ion binding protein Back     alignment and domain information
>TIGR01422 phosphonatase phosphonoacetaldehyde hydrolase Back     alignment and domain information
>COG2179 Predicted hydrolase of the HAD superfamily [General function prediction only] Back     alignment and domain information
>PRK13478 phosphonoacetaldehyde hydrolase; Provisional Back     alignment and domain information
>PLN02382 probable sucrose-phosphatase Back     alignment and domain information
>PRK12702 mannosyl-3-phosphoglycerate phosphatase; Reviewed Back     alignment and domain information
>TIGR01545 YfhB_g-proteo haloacid dehalogenase superfamily, subfamily IF hydrolase, YfhB Back     alignment and domain information
>PRK11590 hypothetical protein; Provisional Back     alignment and domain information
>TIGR03351 PhnX-like phosphonatase-like hydrolase Back     alignment and domain information
>PRK06698 bifunctional 5'-methylthioadenosine/S-adenosylhomocysteine nucleosidase/phosphatase; Validated Back     alignment and domain information
>TIGR01668 YqeG_hyp_ppase HAD superfamily (subfamily IIIA) phosphatase, TIGR01668 Back     alignment and domain information
>PRK11009 aphA acid phosphatase/phosphotransferase; Provisional Back     alignment and domain information
>PRK14501 putative bifunctional trehalose-6-phosphate synthase/HAD hydrolase subfamily IIB; Provisional Back     alignment and domain information
>TIGR01548 HAD-SF-IA-hyp1 haloacid dehalogenase superfamily, subfamily IA hydrolase, TIGR01548 Back     alignment and domain information
>TIGR00003 copper ion binding protein Back     alignment and domain information
>TIGR02461 osmo_MPG_phos mannosyl-3-phosphoglycerate phosphatase Back     alignment and domain information
>PRK14502 bifunctional mannosyl-3-phosphoglycerate synthase/mannosyl-3 phosphoglycerate phosphatase; Provisional Back     alignment and domain information
>TIGR01662 HAD-SF-IIIA HAD-superfamily hydrolase, subfamily IIIA Back     alignment and domain information
>PLN03243 haloacid dehalogenase-like hydrolase; Provisional Back     alignment and domain information
>KOG4383 consensus Uncharacterized conserved protein [Function unknown] Back     alignment and domain information
>PLN02770 haloacid dehalogenase-like hydrolase family protein Back     alignment and domain information
>TIGR01672 AphA HAD superfamily (subfamily IIIB) phosphatase, TIGR01672 Back     alignment and domain information
>PLN02575 haloacid dehalogenase-like hydrolase Back     alignment and domain information
>TIGR01484 HAD-SF-IIB HAD-superfamily hydrolase, subfamily IIB Back     alignment and domain information
>TIGR02253 CTE7 HAD superfamily (subfamily IA) hydrolase, TIGR02253 Back     alignment and domain information
>PRK08942 D,D-heptose 1,7-bisphosphate phosphatase; Validated Back     alignment and domain information
>PRK11587 putative phosphatase; Provisional Back     alignment and domain information
>PTZ00174 phosphomannomutase; Provisional Back     alignment and domain information
>TIGR01428 HAD_type_II 2-haloalkanoic acid dehalogenase, type II Back     alignment and domain information
>KOG4656 consensus Copper chaperone for superoxide dismutase [Inorganic ion transport and metabolism] Back     alignment and domain information
>COG4030 Uncharacterized protein conserved in archaea [Function unknown] Back     alignment and domain information
>PRK14988 GMP/IMP nucleotidase; Provisional Back     alignment and domain information
>PLN02957 copper, zinc superoxide dismutase Back     alignment and domain information
>TIGR02254 YjjG/YfnB HAD superfamily (subfamily IA) hydrolase, TIGR02254 Back     alignment and domain information
>COG4359 Uncharacterized conserved protein [Function unknown] Back     alignment and domain information
>PLN02957 copper, zinc superoxide dismutase Back     alignment and domain information
>PHA02530 pseT polynucleotide kinase; Provisional Back     alignment and domain information
>PLN02779 haloacid dehalogenase-like hydrolase family protein Back     alignment and domain information
>KOG4656 consensus Copper chaperone for superoxide dismutase [Inorganic ion transport and metabolism] Back     alignment and domain information
>PLN02580 trehalose-phosphatase Back     alignment and domain information
>KOG1603 consensus Copper chaperone [Inorganic ion transport and metabolism] Back     alignment and domain information
>PRK10671 copA copper exporting ATPase; Provisional Back     alignment and domain information
>TIGR01656 Histidinol-ppas histidinol-phosphate phosphatase family domain Back     alignment and domain information
>TIGR01685 MDP-1 magnesium-dependent phosphatase-1 Back     alignment and domain information
>TIGR01990 bPGM beta-phosphoglucomutase Back     alignment and domain information
>PLN02940 riboflavin kinase Back     alignment and domain information
>PRK09449 dUMP phosphatase; Provisional Back     alignment and domain information
>TIGR01509 HAD-SF-IA-v3 haloacid dehalogenase superfamily, subfamily IA, variant 3 with third motif having DD or ED Back     alignment and domain information
>TIGR00213 GmhB_yaeD D,D-heptose 1,7-bisphosphate phosphatase Back     alignment and domain information
>TIGR02009 PGMB-YQAB-SF beta-phosphoglucomutase family hydrolase Back     alignment and domain information
>TIGR00685 T6PP trehalose-phosphatase Back     alignment and domain information
>KOG1603 consensus Copper chaperone [Inorganic ion transport and metabolism] Back     alignment and domain information
>PF13419 HAD_2: Haloacid dehalogenase-like hydrolase; PDB: 2FI1_A 2I6X_A 3SD7_A 4F71_A 4DFD_B 4F72_B 4DCC_A 3DDH_A 3KZX_A 2B0C_A Back     alignment and domain information
>PLN02811 hydrolase Back     alignment and domain information
>TIGR01686 FkbH FkbH-like domain Back     alignment and domain information
>TIGR01459 HAD-SF-IIA-hyp4 HAD-superfamily class IIA hydrolase, TIGR01459 Back     alignment and domain information
>smart00775 LNS2 LNS2 domain Back     alignment and domain information
>TIGR01681 HAD-SF-IIIC HAD-superfamily phosphatase, subfamily IIIC Back     alignment and domain information
>PLN02205 alpha,alpha-trehalose-phosphate synthase [UDP-forming] Back     alignment and domain information
>TIGR01533 lipo_e_P4 5'-nucleotidase, lipoprotein e(P4) family Back     alignment and domain information
>PLN03017 trehalose-phosphatase Back     alignment and domain information
>TIGR02463 MPGP_rel mannosyl-3-phosphoglycerate phosphatase-related protein Back     alignment and domain information
>TIGR01664 DNA-3'-Pase DNA 3'-phosphatase Back     alignment and domain information
>PF09419 PGP_phosphatase: Mitochondrial PGP phosphatase; InterPro: IPR010021 This group of hypothetical proteins is a part of the IIIA subfamily of the haloacid dehalogenase (HAD) superfamily of hydrolases Back     alignment and domain information
>TIGR02252 DREG-2 REG-2-like, HAD superfamily (subfamily IA) hydrolase Back     alignment and domain information
>TIGR01549 HAD-SF-IA-v1 haloacid dehalogenase superfamily, subfamily IA, variant 1 with third motif having Dx(3-4)D or Dx(3-4)E Back     alignment and domain information
>PRK05446 imidazole glycerol-phosphate dehydratase/histidinol phosphatase; Provisional Back     alignment and domain information
>PF06888 Put_Phosphatase: Putative Phosphatase; InterPro: IPR016965 This group represents phosphatases related to PHOSPHO1 and PHOSPHO2 [] Back     alignment and domain information
>smart00577 CPDc catalytic domain of ctd-like phosphatases Back     alignment and domain information
>TIGR01261 hisB_Nterm histidinol-phosphatase Back     alignment and domain information
>TIGR01691 enolase-ppase 2,3-diketo-5-methylthio-1-phosphopentane phosphatase Back     alignment and domain information
>PF05116 S6PP: Sucrose-6F-phosphate phosphohydrolase; InterPro: IPR006380 This family of sequences represent sucrose phosphate phosphohydrolase (SPP) from plants and cyanobacteria [] Back     alignment and domain information
>TIGR01675 plant-AP plant acid phosphatase Back     alignment and domain information
>PLN02919 haloacid dehalogenase-like hydrolase family protein Back     alignment and domain information
>TIGR02247 HAD-1A3-hyp Epoxide hydrolase N-terminal domain-like phosphatase Back     alignment and domain information
>COG3769 Predicted hydrolase (HAD superfamily) [General function prediction only] Back     alignment and domain information
>TIGR01458 HAD-SF-IIA-hyp3 HAD-superfamily subfamily IIA hydrolase, TIGR01458 Back     alignment and domain information
>PRK10444 UMP phosphatase; Provisional Back     alignment and domain information
>PLN02151 trehalose-phosphatase Back     alignment and domain information
>PF13344 Hydrolase_6: Haloacid dehalogenase-like hydrolase; PDB: 2HO4_B 1YV9_A 1WVI_B 3EPR_A 2P27_A 2OYC_A 2CFT_A 2P69_A 2CFS_A 2CFR_A Back     alignment and domain information
>PRK10563 6-phosphogluconate phosphatase; Provisional Back     alignment and domain information
>PRK09456 ?-D-glucose-1-phosphatase; Provisional Back     alignment and domain information
>TIGR01993 Pyr-5-nucltdase pyrimidine 5'-nucleotidase Back     alignment and domain information
>PHA02597 30 Back     alignment and domain information
>PRK10725 fructose-1-P/6-phosphogluconate phosphatase; Provisional Back     alignment and domain information
>TIGR01457 HAD-SF-IIA-hyp2 HAD-superfamily subfamily IIA hydrolase, TIGR01457 Back     alignment and domain information
>PLN02645 phosphoglycolate phosphatase Back     alignment and domain information
>TIGR02052 MerP mercuric transport protein periplasmic component Back     alignment and domain information
>PRK14054 methionine sulfoxide reductase A; Provisional Back     alignment and domain information
>PRK10748 flavin mononucleotide phosphatase; Provisional Back     alignment and domain information
>TIGR01684 viral_ppase viral phosphatase Back     alignment and domain information
>KOG3040 consensus Predicted sugar phosphatase (HAD superfamily) [General function prediction only] Back     alignment and domain information
>KOG3120 consensus Predicted haloacid dehalogenase-like hydrolase [General function prediction only] Back     alignment and domain information
>PRK00192 mannosyl-3-phosphoglycerate phosphatase; Reviewed Back     alignment and domain information
>PF03767 Acid_phosphat_B: HAD superfamily, subfamily IIIB (Acid phosphatase); InterPro: IPR005519 This family of class B acid phosphatases also contains a number of vegetative storage proteins (VPS25) Back     alignment and domain information
>PRK05528 methionine sulfoxide reductase A; Provisional Back     alignment and domain information
>PLN02177 glycerol-3-phosphate acyltransferase Back     alignment and domain information
>COG1011 Predicted hydrolase (HAD superfamily) [General function prediction only] Back     alignment and domain information
>TIGR01452 PGP_euk phosphoglycolate/pyridoxal phosphate phosphatase family Back     alignment and domain information
>TIGR02052 MerP mercuric transport protein periplasmic component Back     alignment and domain information
>PRK13014 methionine sulfoxide reductase A; Provisional Back     alignment and domain information
>COG0637 Predicted phosphatase/phosphohexomutase [General function prediction only] Back     alignment and domain information
>TIGR02251 HIF-SF_euk Dullard-like phosphatase domain Back     alignment and domain information
>TIGR01680 Veg_Stor_Prot vegetative storage protein Back     alignment and domain information

Homologous Structure Templates

Structure Templates Detected by BLAST ?

Original result of BLAST against Protein Data Bank

ID ?Alignment Graph ?Length ? Definition ? E-value ?
Query924
3j09_A723 High Resolution Helical Reconstruction Of The Bacte 1e-129
3j08_A645 High Resolution Helical Reconstruction Of The Bacte 1e-124
3rfu_A736 Crystal Structure Of A Copper-Transporting Pib-Type 1e-114
3a1c_A287 Crystal Structure Of The P- And N-Domains Of Copa, 1e-56
3a1e_A287 Crystal Structure Of The P- And N-Domains Of His462 1e-55
2b8e_A273 Copa Atp Binding Domain Length = 273 8e-51
3sky_A274 2.1a Crystal Structure Of The Phosphate Bound Atp B 9e-51
3skx_A280 Crystal Structure Of The Atp Binding Domain Of Arch 1e-50
1mhs_A 920 Model Of Neurospora Crassa Proton Atpase Length = 9 2e-26
2kij_A124 Solution Structure Of The Actuator Domain Of The Co 2e-23
3dxs_X74 Crystal Structure Of A Copper Binding Domain From H 3e-22
2iye_A263 Structure Of Catalytic Cpx-atpase Domain Copb-b Len 6e-21
2yj4_A263 Conformational Changes In The Catalytic Domain Of T 2e-20
2yj3_A263 Conformational Changes In The Catalytic Domain Of T 2e-20
3b8c_A 885 Crystal Structure Of A Plasma Membrane Proton Pump 4e-20
2voy_I128 Cryoem Model Of Copa, The Copper Transporting Atpas 6e-20
2hc8_A113 Structure Of The A. Fulgidus Copa A-Domain Length = 9e-20
3ba6_A 994 Structure Of The Ca2e1p Phosphoenzyme Intermediate 3e-17
2dqs_A 995 Crystal Structure Of The Calcium Pump With Amppcp I 3e-17
1kju_A 994 Ca2+-Atpase In The E2 State Length = 994 3e-17
3tlm_A 992 Crystal Structure Of Endoplasmic Reticulum Ca2+-Atp 5e-17
2ew9_A149 Solution Structure Of Apowln5-6 Length = 149 1e-15
2zxe_A 1028 Crystal Structure Of The Sodium - Potassium Pump In 9e-14
2rop_A202 Solution Structure Of Domains 3 And 4 Of Human Atp7 2e-13
3ixz_A 1034 Pig Gastric H+K+-Atpase Complexed With Aluminium Fl 5e-13
3n23_A 992 Crystal Structure Of The High Affinity Complex Betw 1e-12
3b8e_A 998 Crystal Structure Of The Sodium-Potassium Pump Leng 1e-12
2koy_A141 Structure Of The E1064a Mutant Of The N-Domain Of W 4e-12
2rml_A147 Solution Structure Of The N-Terminal Soluble Domain 3e-11
2ggp_B72 Solution Structure Of The Atx1-Cu(I)-Ccc2a Complex 4e-11
1fvs_A72 Solution Structure Of The Yeast Copper Transporter 4e-11
1p6t_A151 Structure Characterization Of The Water Soluble Reg 4e-11
1yju_A75 Solution Structure Of The Apo Form Of The Sixth Sol 3e-10
2arf_A165 Solution Structure Of The Wilson Atpase N-Domain In 9e-10
1yjr_A75 Solution Structure Of The Apo Form Of The Sixth Sol 1e-09
2kmv_A185 Solution Structure Of The Nucleotide Binding Domain 1e-08
1s6o_A76 Solution Structure And Backbone Dynamics Of The Apo 9e-08
1q8l_A84 Second Metal Binding Domain Of The Menkes Atpase Le 9e-08
1aw0_A72 Fourth Metal-Binding Domain Of The Menkes Copper- T 1e-06
2k1r_A73 The Solution Nmr Structure Of The Complex Between M 1e-06
1kvi_A79 Solution Structure Of The Reduced Form Of The First 1e-06
2ldi_A71 Nmr Solution Structure Of Ziaan Sub Mutant Length = 2e-06
2ldi_A71 Nmr Solution Structure Of Ziaan Sub Mutant Length = 1e-04
1p8g_A73 The Solution Structure Of Apo Copz From Bacillus Su 2e-06
2qif_A69 Crystal Structure Of A Metallochaperone With A Tetr 2e-06
2ofh_X111 Solution Structure Of The N-Terminal Domain Of The 4e-06
2ofh_X111 Solution Structure Of The N-Terminal Domain Of The 6e-04
2ofg_X111 Solution Structure Of The N-Terminal Domain Of The 4e-06
2ofg_X111 Solution Structure Of The N-Terminal Domain Of The 6e-04
3cjk_B75 Crystal Structure Of The Adduct Hah1-Cd(Ii)-Mnk1 Le 4e-06
2voy_J118 Cryoem Model Of Copa, The Copper Transporting Atpas 7e-06
2l3m_A71 Solution Structure Of The Putative Copper-Ion-Bindi 9e-06
1kqk_A80 Solution Structure Of The N-Terminal Domain Of A Po 2e-05
2voy_A80 Cryoem Model Of Copa, The Copper Transporting Atpas 2e-05
1opz_A76 A Core Mutation Affecting The Folding Properties Of 3e-05
1y3k_A77 Solution Structure Of The Apo Form Of The Fifth Dom 6e-05
1afi_A72 Structure Of The Reduced Form Of Merp, The Periplas 2e-04
>pdb|3J09|A Chain A, High Resolution Helical Reconstruction Of The Bacterial P-Type Atpase Copper Transporter Copa Length = 723 Back     alignment and structure 
Iteration: 1

 Score =  461 bits (1185), Expect = e-129,   Method: Compositional matrix adjust.
 Identities = 295/782 (37%), Positives = 440/782 (56%), Gaps = 74/782 (9%)
Query: 134 IGGMTCAACVNSVEGILSNFKGVRQFRFDKISGELEVLFDPEALSSRSLVDGIAGRSNGK 193
           + GMTCA CV S+E  + + +GV + R +  +    + FD + +   ++   I     G 
Sbjct: 8   VTGMTCAMCVKSIETAVGSLEGVEEVRVNLATETAFIRFDEKRIDFETIKRVIEDLGYG- 66
Query: 194 FQIRVMNPFARMTSRDSEETSNMFRLFISSLFLSIPVFFIRVICPHIPLVYALLLWRCGP 253
               V++  A +++ + E  S M R    + F  + + F+      I L Y         
Sbjct: 67  ----VVDEQAAVSA-EVEHLSRMKRKLYVAAFAGVLLLFL---AHFISLPYE-------- 110
Query: 254 FLMGDWLNWALVSVVQFVIGKRFYTAAGRALRNGSTNMDVLVALGTSAAYFYSVGALLYG 313
               D++   +     F  G   + AA  ALR  + NMDV+ ++G  AA+  SV +   G
Sbjct: 111 ----DFVQLLIALPAIFYSGSSIFKAAFSALRRRTLNMDVMYSMGVGAAFLASVLST-AG 165
Query: 314 VVTGFWSPTYFETSAMLITFVLFGKYLEILAKGKTSDAIKKLVELAPATALLVVKD--KV 371
           V+   +S  ++ETS +L+ F+L G+ LE  AK +T +AIKKLV L   TA+ V++D  ++
Sbjct: 166 VLPREYS--FYETSVLLLAFLLLGRTLEARAKSRTGEAIKKLVGLQAKTAV-VIRDGKEI 222
Query: 372 GKCIEEREIDALLIQSGDTLKVLPGTKLPADGIVVWGTSYVNESMVTGEAVPVLKEINSP 431
              +EE       +  GD + V PG K+P DG+VV G SYV+ESM++GE VPVLK     
Sbjct: 223 AVPVEE-------VAVGDIVIVRPGEKIPVDGVVVEGESYVDESMISGEPVPVLKSKGDE 275
Query: 432 VIGGTINLHGVLHIQATKVGSDAVLSQIISLVETAQMSKAPIQKFADFVASIFVPIVVTL 491
           V G TIN  GVL I+AT+VG + +L+QI+ LVE A  SK PIQ+ AD V + F+P V+ +
Sbjct: 276 VFGATINNTGVLKIRATRVGGETLLAQIVKLVEDAMGSKPPIQRLADKVVAYFIPTVLLV 335
Query: 492 ALFTWLCWYVAGVLGAYPEQWLPENGTHFVFALMFSISVVVIACPCALGLATPTAVMVAT 551
           A+  ++ WY    +   P           +FA    I+V+V+ACPCA GLATPTA+ V  
Sbjct: 336 AISAFIYWY---FIAHAP----------LLFAFTTLIAVLVVACPCAFGLATPTALTVGM 382
Query: 552 GVGANNGVLIKGGDALERAQKIKYVIFDKTGTLTQGRATVTTAKVFTKMDRGEFLTLVAS 611
           G GA  G+LIK  DALE A+K+  VIFDKTGTLT+G+  VT   V    D  E L L A 
Sbjct: 383 GKGAELGILIKNADALEVAEKVTAVIFDKTGTLTKGKPEVTDL-VPLNGDERELLRLAAI 441
Query: 612 AEASSEHPLAKAVVEYARHFHFFDDPSLNPDGQSHSKESTGSGWLLDVSDFSALPGRGIQ 671
           AE  SEHP+A+A+V+ A                 H  E      L +      + G G+ 
Sbjct: 442 AERRSEHPIAEAIVKKALE---------------HGIE------LGEPEKVEVIAGEGVV 480
Query: 672 CFISGKQVLVGNRKLLNESGITIPDHVESFVVELEESARTGILVAYDDNLIGVMGIADPV 731
                  +LVGN++L+ + G+ + + VE  + +LE  A+T ++VA +  + G++ ++D +
Sbjct: 481 A----DGILVGNKRLMEDFGVAVSNEVELALEKLEREAKTAVIVARNGRVEGIIAVSDTL 536
Query: 732 KREAAVVVEGLLKMGVRPVMVTGDNWRTAHAVAREIGIQDVMADVMPAGKADAVRSFQKD 791
           K  A   V+ L +MG++  M+TGDNWR+A A++RE+ +  V+A+V+P  K++ V+  Q  
Sbjct: 537 KESAKPAVQELKRMGIKVGMITGDNWRSAEAISRELNLDLVIAEVLPHQKSEEVKKLQAK 596
Query: 792 GSIVAMVGDGINDSPALAAADVGMAIGAGTDIAIEAADYVLMRNSLEDVIIAIDLSRKTF 851
             +VA VGDGIND+PALA AD+G+A+G+G+D+A+E+ D VL+R+ L DV+ AI LSRKT 
Sbjct: 597 -EVVAFVGDGINDAPALAQADLGIAVGSGSDVAVESGDIVLIRDDLRDVVAAIQLSRKTM 655
Query: 852 ARIRLNYIFAMAYNVIAIPIAAGVFFPSLGIKLPPWAAGACMAXXXXXXXXXXXXXRRYK 911
           ++I+ N  +A+ YNVI IP AAG+ +P  G+   P  AG  MA             R Y 
Sbjct: 656 SKIKQNIFWALIYNVILIPAAAGLLYPIFGVVFRPEFAGLAMAMSSVSVVANSLLLRNYV 715
Query: 912 KP 913
            P
Sbjct: 716 PP 717
>pdb|3J08|A Chain A, High Resolution Helical Reconstruction Of The Bacterial P-Type Atpase Copper Transporter Copa Length = 645 Back     alignment and structure
>pdb|3RFU|A Chain A, Crystal Structure Of A Copper-Transporting Pib-Type Atpase Length = 736 Back     alignment and structure
>pdb|3A1C|A Chain A, Crystal Structure Of The P- And N-Domains Of Copa, A Copper- Transporting P-Type Atpase, Bound With Amppcp-Mg Length = 287 Back     alignment and structure
>pdb|3A1E|A Chain A, Crystal Structure Of The P- And N-Domains Of His462gln Mutant Copa, A Copper-Transporting P-Type Atpase, Bound With Amppcp-Mg Length = 287 Back     alignment and structure
>pdb|2B8E|A Chain A, Copa Atp Binding Domain Length = 273 Back     alignment and structure
>pdb|3SKY|A Chain A, 2.1a Crystal Structure Of The Phosphate Bound Atp Binding Domain Of Archaeoglobus Fulgidus Copb Length = 274 Back     alignment and structure
>pdb|3SKX|A Chain A, Crystal Structure Of The Atp Binding Domain Of Archaeoglobus Fulgidus Copb Length = 280 Back     alignment and structure
>pdb|1MHS|A Chain A, Model Of Neurospora Crassa Proton Atpase Length = 920 Back     alignment and structure
>pdb|2KIJ|A Chain A, Solution Structure Of The Actuator Domain Of The Copper- Transporting Atpase Atp7a Length = 124 Back     alignment and structure
>pdb|3DXS|X Chain X, Crystal Structure Of A Copper Binding Domain From Hma7, A P- Type Atpase Length = 74 Back     alignment and structure
>pdb|2IYE|A Chain A, Structure Of Catalytic Cpx-atpase Domain Copb-b Length = 263 Back     alignment and structure
>pdb|2YJ4|A Chain A, Conformational Changes In The Catalytic Domain Of The Cpx- Atpase Copb-B Upon Nucleotide Binding Length = 263 Back     alignment and structure
>pdb|2YJ3|A Chain A, Conformational Changes In The Catalytic Domain Of The Cpx- Atpase Copb-B Upon Nucleotide Binding Length = 263 Back     alignment and structure
>pdb|3B8C|A Chain A, Crystal Structure Of A Plasma Membrane Proton Pump Length = 885 Back     alignment and structure
>pdb|2VOY|I Chain I, Cryoem Model Of Copa, The Copper Transporting Atpase From Archaeoglobus Fulgidus Length = 128 Back     alignment and structure
>pdb|2HC8|A Chain A, Structure Of The A. Fulgidus Copa A-Domain Length = 113 Back     alignment and structure
>pdb|3BA6|A Chain A, Structure Of The Ca2e1p Phosphoenzyme Intermediate Of The Serca Ca2+-Atpase Length = 994 Back     alignment and structure
>pdb|2DQS|A Chain A, Crystal Structure Of The Calcium Pump With Amppcp In The Absence Of Calcium Length = 995 Back     alignment and structure
>pdb|1KJU|A Chain A, Ca2+-Atpase In The E2 State Length = 994 Back     alignment and structure
>pdb|3TLM|A Chain A, Crystal Structure Of Endoplasmic Reticulum Ca2+-Atpase (Serca) From Bovine Muscle Length = 992 Back     alignment and structure
>pdb|2EW9|A Chain A, Solution Structure Of Apowln5-6 Length = 149 Back     alignment and structure
>pdb|2ZXE|A Chain A, Crystal Structure Of The Sodium - Potassium Pump In The E2.2k+.Pi State Length = 1028 Back     alignment and structure
>pdb|2ROP|A Chain A, Solution Structure Of Domains 3 And 4 Of Human Atp7b Length = 202 Back     alignment and structure
>pdb|3IXZ|A Chain A, Pig Gastric H+K+-Atpase Complexed With Aluminium Fluoride Length = 1034 Back     alignment and structure
>pdb|3N23|A Chain A, Crystal Structure Of The High Affinity Complex Between Ouabain And The E2p Form Of The Sodium-Potassium Pump Length = 992 Back     alignment and structure
>pdb|3B8E|A Chain A, Crystal Structure Of The Sodium-Potassium Pump Length = 998 Back     alignment and structure
>pdb|2KOY|A Chain A, Structure Of The E1064a Mutant Of The N-Domain Of Wilson Disease Associated Protein Length = 141 Back     alignment and structure
>pdb|2RML|A Chain A, Solution Structure Of The N-Terminal Soluble Domains Of Bacillus Subtilis Copa Length = 147 Back     alignment and structure
>pdb|2GGP|B Chain B, Solution Structure Of The Atx1-Cu(I)-Ccc2a Complex Length = 72 Back     alignment and structure
>pdb|1FVS|A Chain A, Solution Structure Of The Yeast Copper Transporter Domain Ccc2a In The Apo And Cu(I) Load States Length = 72 Back     alignment and structure
>pdb|1P6T|A Chain A, Structure Characterization Of The Water Soluble Region Of P- Type Atpase Copa From Bacillus Subtilis Length = 151 Back     alignment and structure
>pdb|1YJU|A Chain A, Solution Structure Of The Apo Form Of The Sixth Soluble Domain Of Menkes Protein Length = 75 Back     alignment and structure
>pdb|2ARF|A Chain A, Solution Structure Of The Wilson Atpase N-Domain In The Presence Of Atp Length = 165 Back     alignment and structure
>pdb|1YJR|A Chain A, Solution Structure Of The Apo Form Of The Sixth Soluble Domain A69p Mutant Of Menkes Protein Length = 75 Back     alignment and structure
>pdb|2KMV|A Chain A, Solution Structure Of The Nucleotide Binding Domain Of The Human Menkes Protein In The Atp-Free Form Length = 185 Back     alignment and structure
>pdb|1S6O|A Chain A, Solution Structure And Backbone Dynamics Of The Apo-Form Of The Second Metal-Binding Domain Of The Menkes Protein Atp7a Length = 76 Back     alignment and structure
>pdb|1Q8L|A Chain A, Second Metal Binding Domain Of The Menkes Atpase Length = 84 Back     alignment and structure
>pdb|1AW0|A Chain A, Fourth Metal-Binding Domain Of The Menkes Copper- Transporting Atpase, Nmr, 20 Structures Length = 72 Back     alignment and structure
>pdb|2K1R|A Chain A, The Solution Nmr Structure Of The Complex Between Mnk1 And Hah1 Mediated By Cu(I) Length = 73 Back     alignment and structure
>pdb|1KVI|A Chain A, Solution Structure Of The Reduced Form Of The First Heavy Metal Binding Motif Of The Menkes Protein Length = 79 Back     alignment and structure
>pdb|2LDI|A Chain A, Nmr Solution Structure Of Ziaan Sub Mutant Length = 71 Back     alignment and structure
>pdb|2LDI|A Chain A, Nmr Solution Structure Of Ziaan Sub Mutant Length = 71 Back     alignment and structure
>pdb|1P8G|A Chain A, The Solution Structure Of Apo Copz From Bacillus Subtilis Length = 73 Back     alignment and structure
>pdb|2QIF|A Chain A, Crystal Structure Of A Metallochaperone With A Tetranuclear Cu(I) Cluster Length = 69 Back     alignment and structure
>pdb|2OFH|X Chain X, Solution Structure Of The N-Terminal Domain Of The Zinc(Ii) Atpase Ziaa In Its Apo Form Length = 111 Back     alignment and structure
>pdb|2OFH|X Chain X, Solution Structure Of The N-Terminal Domain Of The Zinc(Ii) Atpase Ziaa In Its Apo Form Length = 111 Back     alignment and structure
>pdb|2OFG|X Chain X, Solution Structure Of The N-Terminal Domain Of The Zinc(Ii) Atpase Ziaa In Its Apo Form Length = 111 Back     alignment and structure
>pdb|2OFG|X Chain X, Solution Structure Of The N-Terminal Domain Of The Zinc(Ii) Atpase Ziaa In Its Apo Form Length = 111 Back     alignment and structure
>pdb|3CJK|B Chain B, Crystal Structure Of The Adduct Hah1-Cd(Ii)-Mnk1 Length = 75 Back     alignment and structure
>pdb|2VOY|J Chain J, Cryoem Model Of Copa, The Copper Transporting Atpase From Archaeoglobus Fulgidus Length = 118 Back     alignment and structure
>pdb|2L3M|A Chain A, Solution Structure Of The Putative Copper-Ion-Binding Protein From Bacillus Anthracis Str. Ames Length = 71 Back     alignment and structure
>pdb|1KQK|A Chain A, Solution Structure Of The N-Terminal Domain Of A Potential Copper-Translocating P-Type Atpase From Bacillus Subtilis In The Cu(I)loaded State Length = 80 Back     alignment and structure
>pdb|2VOY|A Chain A, Cryoem Model Of Copa, The Copper Transporting Atpase From Archaeoglobus Fulgidus Length = 80 Back     alignment and structure
>pdb|1OPZ|A Chain A, A Core Mutation Affecting The Folding Properties Of A Soluble Domain Of The Atpase Protein Copa From Bacillus Subtilis Length = 76 Back     alignment and structure
>pdb|1Y3K|A Chain A, Solution Structure Of The Apo Form Of The Fifth Domain Of Menkes Protein Length = 77 Back     alignment and structure
>pdb|1AFI|A Chain A, Structure Of The Reduced Form Of Merp, The Periplasmic Protein From The Bacterial Mercury Detoxification System, Nmr, 20 Structures Length = 72 Back     alignment and structure

Structure Templates Detected by RPS-BLAST ?

Original result of RPS-BLAST against PDB70 database

ID ?Alignment Graph ?Length ? Definition ? E-value ?
Query924
3j09_A723 COPA, copper-exporting P-type ATPase A; copper tra 0.0
3j09_A723 COPA, copper-exporting P-type ATPase A; copper tra 5e-17
3rfu_A736 Copper efflux ATPase; alpha helical, CPC, CXXC, AT 0.0
3j08_A645 COPA, copper-exporting P-type ATPase A; copper tra 0.0
3a1c_A287 Probable copper-exporting P-type ATPase A; ATP-bin 1e-129
3skx_A280 Copper-exporting P-type ATPase B; P1B-ATPase, ATP 1e-120
2yj3_A263 Copper-transporting ATPase; hydrolase, P-type ATPa 1e-115
2kij_A124 Copper-transporting ATPase 1; actuator, menkes dis 2e-59
1mhs_A 920 Proton pump, plasma membrane ATPase; ION transport 2e-54
2hc8_A113 PACS, cation-transporting ATPase, P-type; copper, 6e-43
2ew9_A149 Copper-transporting ATPase 2; copper trafficking, 3e-39
2ew9_A149 Copper-transporting ATPase 2; copper trafficking, 3e-22
3b8c_A 885 ATPase 2, plasma membrane-type; P-type ATPase, pro 2e-36
3b8c_A 885 ATPase 2, plasma membrane-type; P-type ATPase, pro 5e-16
1p6t_A151 Potential copper-transporting ATPase; COPA, P-type 1e-35
1p6t_A151 Potential copper-transporting ATPase; COPA, P-type 2e-20
2rop_A202 Copper-transporting ATPase 2; wilson protein, mobi 1e-33
2rop_A202 Copper-transporting ATPase 2; wilson protein, mobi 8e-24
2rop_A202 Copper-transporting ATPase 2; wilson protein, mobi 5e-11
2arf_A165 Wilson disease ATPase; P-type ATPase,ATP7B, copper 2e-31
3dxs_X74 Copper-transporting ATPase RAN1; CXXC motif, ferre 6e-28
3dxs_X74 Copper-transporting ATPase RAN1; CXXC motif, ferre 2e-09
2kmv_A185 Copper-transporting ATPase 1; menkes, nucleotide b 3e-27
2l3m_A71 Copper-ION-binding protein; structural genomics, c 1e-26
2l3m_A71 Copper-ION-binding protein; structural genomics, c 2e-09
3ar4_A 995 Sarcoplasmic/endoplasmic reticulum calcium ATPase; 2e-26
3ar4_A 995 Sarcoplasmic/endoplasmic reticulum calcium ATPase; 2e-08
1kvi_A79 Copper-transporting ATPase 1; menkes, Cu-protein, 3e-26
1kvi_A79 Copper-transporting ATPase 1; menkes, Cu-protein, 2e-09
1fvq_A72 Copper-transporting ATPase; APO-CCC2A, hydrolase; 9e-26
1fvq_A72 Copper-transporting ATPase; APO-CCC2A, hydrolase; 3e-08
1q8l_A84 Copper-transporting ATPase 1; metal binding protei 9e-26
1q8l_A84 Copper-transporting ATPase 1; metal binding protei 5e-10
3cjk_B75 Copper-transporting ATPase 1; HAH1, ATP7B, menkes 2e-25
3cjk_B75 Copper-transporting ATPase 1; HAH1, ATP7B, menkes 2e-09
1aw0_A72 Menkes copper-transporting ATPase; copper-binding 5e-25
1aw0_A72 Menkes copper-transporting ATPase; copper-binding 1e-09
2qif_A69 Copper chaperone COPZ; tetranuclear Cu(I) cluster; 7e-25
2qif_A69 Copper chaperone COPZ; tetranuclear Cu(I) cluster; 1e-09
2kkh_A95 Putative heavy metal transporter; zinc transport, 7e-25
2kkh_A95 Putative heavy metal transporter; zinc transport, 8e-11
1y3j_A77 Copper-transporting ATPase 1; ferrodoxin-like fold 9e-25
1y3j_A77 Copper-transporting ATPase 1; ferrodoxin-like fold 2e-09
2ofg_X111 Zinc-transporting ATPase; ferredoxin-like fold, be 1e-24
2ofg_X111 Zinc-transporting ATPase; ferredoxin-like fold, be 3e-08
2ldi_A71 Zinc-transporting ATPase; metal homeostasis, metal 2e-24
2ldi_A71 Zinc-transporting ATPase; metal homeostasis, metal 7e-09
1cpz_A68 Protein (COPZ); copper chaperone, metal transport, 2e-24
1cpz_A68 Protein (COPZ); copper chaperone, metal transport, 1e-09
1yjr_A75 Copper-transporting ATPase 1; metallochaperone, pr 4e-24
1yjr_A75 Copper-transporting ATPase 1; metallochaperone, pr 1e-08
1osd_A72 MERP, hypothetical protein MERP; mercury resistanc 1e-23
1osd_A72 MERP, hypothetical protein MERP; mercury resistanc 4e-08
1jww_A80 Potential copper-transporting ATPase; beta-alpha-b 2e-23
1jww_A80 Potential copper-transporting ATPase; beta-alpha-b 4e-07
2g9o_A90 Copper-transporting ATPase 1; menkes disease, solu 4e-23
2g9o_A90 Copper-transporting ATPase 1; menkes disease, solu 6e-09
1opz_A76 Potential copper-transporting ATPase; mutation, fo 6e-22
1opz_A76 Potential copper-transporting ATPase; mutation, fo 1e-07
2xmw_A71 PACS-N, cation-transporting ATPase PACS; hydrolase 2e-18
2xmw_A71 PACS-N, cation-transporting ATPase PACS; hydrolase 2e-05
1svj_A156 Potassium-transporting ATPase B chain; alpha-beta 3e-18
2roe_A66 Heavy metal binding protein; NMR {Thermus thermoph 3e-18
2roe_A66 Heavy metal binding protein; NMR {Thermus thermoph 4e-05
2zxe_A 1028 Na, K-ATPase alpha subunit; membrane protein, ION 3e-18
2zxe_A 1028 Na, K-ATPase alpha subunit; membrane protein, ION 3e-13
3ixz_A 1034 Potassium-transporting ATPase alpha; ION pump, H+, 5e-18
3ixz_A 1034 Potassium-transporting ATPase alpha; ION pump, H+, 2e-13
1mwy_A73 ZNTA; open-faced beta-sandwich fold, beta-alpha-be 1e-17
1mwy_A73 ZNTA; open-faced beta-sandwich fold, beta-alpha-be 2e-06
2kt2_A69 Mercuric reductase; nmera, MERA, HMA domain, mercu 1e-17
2kt2_A69 Mercuric reductase; nmera, MERA, HMA domain, mercu 2e-05
1yg0_A66 COP associated protein; open-faced beta-sandwich, 9e-17
1yg0_A66 COP associated protein; open-faced beta-sandwich, 5e-06
3fry_A73 Probable copper-exporting P-type ATPase A; transpo 9e-16
2k2p_A85 Uncharacterized protein ATU1203; putative metal-bi 2e-14
2k2p_A85 Uncharacterized protein ATU1203; putative metal-bi 3e-05
2xmm_A64 SSR2857 protein, ATX1; metal transport, copper hom 3e-12
2aj0_A71 Probable cadmium-transporting ATPase; ferrodoxin-l 7e-12
2aj0_A71 Probable cadmium-transporting ATPase; ferrodoxin-l 9e-05
2kyz_A67 Heavy metal binding protein; structural genomics, 5e-11
1vt4_I 1221 APAF-1 related killer DARK; drosophila apoptosome, 6e-10
1vt4_I 1221 APAF-1 related killer DARK; drosophila apoptosome, 5e-08
1vt4_I 1221 APAF-1 related killer DARK; drosophila apoptosome, 4e-06
2crl_A98 Copper chaperone for superoxide dismutase; SOD1, f 6e-09
3iwl_A68 Copper transport protein ATOX1; beta-alpha-beta-BE 2e-08
3m1y_A217 Phosphoserine phosphatase (SERB); NYSGXRC, PSI II, 2e-06
1cc8_A73 Protein (metallochaperone ATX1); copper transport, 3e-06
1rku_A206 Homoserine kinase; phosphoserine phosphatase, phos 4e-06
4eze_A317 Haloacid dehalogenase-like hydrolase; magnesium bi 8e-06
2r8e_A188 3-deoxy-D-manno-octulosonate 8-phosphate phosphata 9e-06
3n28_A335 Phosphoserine phosphatase; HAD family hydrolase, s 2e-05
3mn1_A189 Probable YRBI family phosphatase; structural genom 2e-05
3n1u_A191 Hydrolase, HAD superfamily, subfamily III A; struc 3e-05
3fvv_A232 Uncharacterized protein; unknown function, structu 3e-05
3n07_A195 3-deoxy-D-manno-octulosonate 8-phosphate phosphat; 3e-05
1k1e_A180 Deoxy-D-mannose-octulosonate 8-phosphate phosphat; 4e-05
2p9j_A162 Hypothetical protein AQ2171; secsg, riken, PSI, st 5e-05
2fea_A236 2-hydroxy-3-keto-5-methylthiopentenyl-1-phosphate 7e-05
3ij5_A211 3-deoxy-D-manno-octulosonate 8-phosphate phosphat; 7e-05
3e8m_A164 Acylneuraminate cytidylyltransferase; 2-keto-3-deo 9e-05
1nnl_A225 L-3-phosphoserine phosphatase; PSP, HPSP, phospho- 1e-04
3p96_A415 Phosphoserine phosphatase SERB; ssgcid, structural 1e-04
1l7m_A211 Phosphoserine phosphatase; rossmann fold, four-hel 1e-04
1jk9_B249 CCS, copper chaperone for superoxide dismutase; pr 3e-04
3mmz_A176 Putative HAD family hydrolase; structural genomics 7e-04
3ewi_A168 N-acylneuraminate cytidylyltransferase; beta barre 8e-04
>3j09_A COPA, copper-exporting P-type ATPase A; copper transporter, adenosine triphosph archaeal proteins, cation transport proteins; 10.00A {Archaeoglobus fulgidus} Length = 723 Back     alignment and structure
 Score =  883 bits (2283), Expect = 0.0
 Identities = 295/785 (37%), Positives = 437/785 (55%), Gaps = 74/785 (9%)

Query: 131 QYTIGGMTCAACVNSVEGILSNFKGVRQFRFDKISGELEVLFDPEALSSRSLVDGI--AG 188
              + GMTCA CV S+E  + + +GV + R +  +    + FD + +   ++   I   G
Sbjct: 5   TVRVTGMTCAMCVKSIETAVGSLEGVEEVRVNLATETAFIRFDEKRIDFETIKRVIEDLG 64

Query: 189 RSNGKFQIRVMNPFARMTSRDSEETSNMFRLFISSLFLSIPVFFIRVICPHIPLVYALLL 248
                     +       S + E  S M R    + F  + + F+     H         
Sbjct: 65  YG--------VVDEQAAVSAEVEHLSRMKRKLYVAAFAGVLLLFL----AHFI------- 105

Query: 249 WRCGPFLMGDWLNWALVSVVQFVIGKRFYTAAGRALRNGSTNMDVLVALGTSAAYFYSVG 308
                    D++   +     F  G   + AA  ALR  + NMDV+ ++G  AA+  SV 
Sbjct: 106 ----SLPYEDFVQLLIALPAIFYSGSSIFKAAFSALRRRTLNMDVMYSMGVGAAFLASVL 161

Query: 309 ALLYGVVTGFWSPTYFETSAMLITFVLFGKYLEILAKGKTSDAIKKLVELAPATALLVVK 368
           +    +   +   +++ETS +L+ F+L G+ LE  AK +T +AIKKLV L   TA+ V++
Sbjct: 162 STAGVLPREY---SFYETSVLLLAFLLLGRTLEARAKSRTGEAIKKLVGLQAKTAV-VIR 217

Query: 369 DKVGKCIEEREIDALLIQSGDTLKVLPGTKLPADGIVVWGTSYVNESMVTGEAVPVLKEI 428
           D      +E  +    +  GD + V PG K+P DG+VV G SYV+ESM++GE VPVLK  
Sbjct: 218 DG-----KEIAVPVEEVAVGDIVIVRPGEKIPVDGVVVEGESYVDESMISGEPVPVLKSK 272

Query: 429 NSPVIGGTINLHGVLHIQATKVGSDAVLSQIISLVETAQMSKAPIQKFADFVASIFVPIV 488
              V G TIN  GVL I+AT+VG + +L+QI+ LVE A  SK PIQ+ AD V + F+P V
Sbjct: 273 GDEVFGATINNTGVLKIRATRVGGETLLAQIVKLVEDAMGSKPPIQRLADKVVAYFIPTV 332

Query: 489 VTLALFTWLCWYVAGVLGAYPEQWLPENGTHFVFALMFSISVVVIACPCALGLATPTAVM 548
           + +A+  ++ WY                    +FA    I+V+V+ACPCA GLATPTA+ 
Sbjct: 333 LLVAISAFIYWYFIA-------------HAPLLFAFTTLIAVLVVACPCAFGLATPTALT 379

Query: 549 VATGVGANNGVLIKGGDALERAQKIKYVIFDKTGTLTQGRATVTTAKVFTKMDRGEFLTL 608
           V  G GA  G+LIK  DALE A+K+  VIFDKTGTLT+G+  VT        D  E L L
Sbjct: 380 VGMGKGAELGILIKNADALEVAEKVTAVIFDKTGTLTKGKPEVTDLVPLN-GDERELLRL 438

Query: 609 VASAEASSEHPLAKAVVEYARHFHFFDDPSLNPDGQSHSKESTGSGWLLDVSDFSALPGR 668
            A AE  SEHP+A+A+V+ A                    E      L +      + G 
Sbjct: 439 AAIAERRSEHPIAEAIVKKA-------------------LEHGIE--LGEPEKVEVIAGE 477

Query: 669 GIQCFISGKQVLVGNRKLLNESGITIPDHVESFVVELEESARTGILVAYDDNLIGVMGIA 728
           G+        +LVGN++L+ + G+ + + VE  + +LE  A+T ++VA +  + G++ ++
Sbjct: 478 GVV----ADGILVGNKRLMEDFGVAVSNEVELALEKLEREAKTAVIVARNGRVEGIIAVS 533

Query: 729 DPVKREAAVVVEGLLKMGVRPVMVTGDNWRTAHAVAREIGIQDVMADVMPAGKADAVRSF 788
           D +K  A   V+ L +MG++  M+TGDNWR+A A++RE+ +  V+A+V+P  K++ V+  
Sbjct: 534 DTLKESAKPAVQELKRMGIKVGMITGDNWRSAEAISRELNLDLVIAEVLPHQKSEEVKKL 593

Query: 789 QKDGSIVAMVGDGINDSPALAAADVGMAIGAGTDIAIEAADYVLMRNSLEDVIIAIDLSR 848
           Q    +VA VGDGIND+PALA AD+G+A+G+G+D+A+E+ D VL+R+ L DV+ AI LSR
Sbjct: 594 QAKE-VVAFVGDGINDAPALAQADLGIAVGSGSDVAVESGDIVLIRDDLRDVVAAIQLSR 652

Query: 849 KTFARIRLNYIFAMAYNVIAIPIAAGVFFPSLGIKLPPWAAGACMALSSVSVVCSSLLLR 908
           KT ++I+ N  +A+ YNVI IP AAG+ +P  G+   P  AG  MA+SSVSVV +SLLLR
Sbjct: 653 KTMSKIKQNIFWALIYNVILIPAAAGLLYPIFGVVFRPEFAGLAMAMSSVSVVANSLLLR 712

Query: 909 RYKKP 913
            Y  P
Sbjct: 713 NYVPP 717
>3j09_A COPA, copper-exporting P-type ATPase A; copper transporter, adenosine triphosph archaeal proteins, cation transport proteins; 10.00A {Archaeoglobus fulgidus} Length = 723 Back     alignment and structure
>3rfu_A Copper efflux ATPase; alpha helical, CPC, CXXC, ATP-binding, hydrolase, ION transp magnesium, Cu+, membrane, metal-binding; 3.20A {Legionella pneumophila subsp} Length = 736 Back     alignment and structure
>3j08_A COPA, copper-exporting P-type ATPase A; copper transporter, adenosine triphosph archaeal proteins, cation transport proteins; 10.00A {Archaeoglobus fulgidus} Length = 645 Back     alignment and structure
>3a1c_A Probable copper-exporting P-type ATPase A; ATP-binding, cell membrane, copper transport, hydrolase, ION transport, magnesium, membrane; HET: ACP; 1.85A {Archaeoglobus fulgidus} PDB: 3a1d_A* 3a1e_A* 2b8e_A 2voy_J 2voy_I Length = 287 Back     alignment and structure
>3skx_A Copper-exporting P-type ATPase B; P1B-ATPase, ATP binding domain, copper(II) transporter, MEMB protein, hydrolase; 1.59A {Archaeoglobus fulgidus} PDB: 3sky_A* Length = 280 Back     alignment and structure
>2yj3_A Copper-transporting ATPase; hydrolase, P-type ATPase, COPB, heavy metal translocation; 2.20A {Sulfolobus solfataricus} PDB: 2iye_A 2yj6_A* 2yj5_A* 2yj4_A* Length = 263 Back     alignment and structure
>2kij_A Copper-transporting ATPase 1; actuator, menkes disease, alternative splicing, ATP-binding, cell membrane, cytoplasm, disease mutation; NMR {Homo sapiens} Length = 124 Back     alignment and structure
>1mhs_A Proton pump, plasma membrane ATPase; ION transport, membrane protein, P-type ATPase, active transport, cryo-electron microscopy; 8.00A {Neurospora crassa} SCOP: i.18.1.1 Length = 920 Back     alignment and structure
>2hc8_A PACS, cation-transporting ATPase, P-type; copper, COPA, COPB, actuator, transport protein; 1.65A {Archaeoglobus fulgidus} PDB: 2voy_F Length = 113 Back     alignment and structure
>2ew9_A Copper-transporting ATPase 2; copper trafficking, ferrodoxin-like fold, structural genomics, structural proteomics in europe, spine, hydrolase; NMR {Homo sapiens} Length = 149 Back     alignment and structure
>2ew9_A Copper-transporting ATPase 2; copper trafficking, ferrodoxin-like fold, structural genomics, structural proteomics in europe, spine, hydrolase; NMR {Homo sapiens} Length = 149 Back     alignment and structure
>3b8c_A ATPase 2, plasma membrane-type; P-type ATPase, proton pump, ATP-binding, hydrogen ION transport, hydrolase, ION transport; HET: ACP; 3.60A {Arabidopsis thaliana} Length = 885 Back     alignment and structure
>3b8c_A ATPase 2, plasma membrane-type; P-type ATPase, proton pump, ATP-binding, hydrogen ION transport, hydrolase, ION transport; HET: ACP; 3.60A {Arabidopsis thaliana} Length = 885 Back     alignment and structure
>1p6t_A Potential copper-transporting ATPase; COPA, P-type ATPase, water-soluble region, beta-alpha-beta- beta-alpha-beta fold; NMR {Bacillus subtilis} SCOP: d.58.17.1 d.58.17.1 PDB: 2rml_A Length = 151 Back     alignment and structure
>1p6t_A Potential copper-transporting ATPase; COPA, P-type ATPase, water-soluble region, beta-alpha-beta- beta-alpha-beta fold; NMR {Bacillus subtilis} SCOP: d.58.17.1 d.58.17.1 PDB: 2rml_A Length = 151 Back     alignment and structure
>2rop_A Copper-transporting ATPase 2; wilson protein, mobility, protein-protein interaction, alternative splicing, ATP-binding, copper transport cytoplasm; NMR {Homo sapiens} Length = 202 Back     alignment and structure
>2rop_A Copper-transporting ATPase 2; wilson protein, mobility, protein-protein interaction, alternative splicing, ATP-binding, copper transport cytoplasm; NMR {Homo sapiens} Length = 202 Back     alignment and structure
>2rop_A Copper-transporting ATPase 2; wilson protein, mobility, protein-protein interaction, alternative splicing, ATP-binding, copper transport cytoplasm; NMR {Homo sapiens} Length = 202 Back     alignment and structure
>2arf_A Wilson disease ATPase; P-type ATPase,ATP7B, copper transport, nucleotide binding, ATP binding, hydrolase; NMR {Homo sapiens} PDB: 2koy_A Length = 165 Back     alignment and structure
>3dxs_X Copper-transporting ATPase RAN1; CXXC motif, ferredoxin-like fold, ATP- binding, ethylene signaling pathway, hydrolase, ION transport; 1.70A {Arabidopsis thaliana} Length = 74 Back     alignment and structure
>3dxs_X Copper-transporting ATPase RAN1; CXXC motif, ferredoxin-like fold, ATP- binding, ethylene signaling pathway, hydrolase, ION transport; 1.70A {Arabidopsis thaliana} Length = 74 Back     alignment and structure
>2kmv_A Copper-transporting ATPase 1; menkes, nucleotide binding protein, alternative splicing, ATP-binding, cell membrane, cytoplasm, disease mutation; NMR {Homo sapiens} PDB: 2kmx_A* Length = 185 Back     alignment and structure
>2l3m_A Copper-ION-binding protein; structural genomics, center for structural genomics of infec diseases, csgid, metal binding protein; NMR {Bacillus anthracis} Length = 71 Back     alignment and structure
>2l3m_A Copper-ION-binding protein; structural genomics, center for structural genomics of infec diseases, csgid, metal binding protein; NMR {Bacillus anthracis} Length = 71 Back     alignment and structure
>3ar4_A Sarcoplasmic/endoplasmic reticulum calcium ATPase; P-type ATPase, hydrolase, calcium transport, calcium binding binding; HET: ATP TG1 PTY; 2.15A {Oryctolagus cuniculus} PDB: 2ear_A* 2eas_A* 2eat_A* 2eau_A* 2dqs_A* 2zbe_A 2zbf_A* 2zbg_A* 3ar2_A* 2zbd_A* 3ar3_A* 3ar5_A* 3ar6_A* 3ar7_A* 3ar8_A* 3ar9_A* 3n5k_A* 1kju_A 1iwo_A 1t5s_A* ... Length = 995 Back     alignment and structure
>3ar4_A Sarcoplasmic/endoplasmic reticulum calcium ATPase; P-type ATPase, hydrolase, calcium transport, calcium binding binding; HET: ATP TG1 PTY; 2.15A {Oryctolagus cuniculus} PDB: 2ear_A* 2eas_A* 2eat_A* 2eau_A* 2dqs_A* 2zbe_A 2zbf_A* 2zbg_A* 3ar2_A* 2zbd_A* 3ar3_A* 3ar5_A* 3ar6_A* 3ar7_A* 3ar8_A* 3ar9_A* 3n5k_A* 1kju_A 1iwo_A 1t5s_A* ... Length = 995 Back     alignment and structure
>1kvi_A Copper-transporting ATPase 1; menkes, Cu-protein, hydrolase; NMR {Homo sapiens} SCOP: d.58.17.1 PDB: 1kvj_A Length = 79 Back     alignment and structure
>1kvi_A Copper-transporting ATPase 1; menkes, Cu-protein, hydrolase; NMR {Homo sapiens} SCOP: d.58.17.1 PDB: 1kvj_A Length = 79 Back     alignment and structure
>1fvq_A Copper-transporting ATPase; APO-CCC2A, hydrolase; NMR {Saccharomyces cerevisiae} SCOP: d.58.17.1 PDB: 1fvs_A 2ggp_B Length = 72 Back     alignment and structure
>1fvq_A Copper-transporting ATPase; APO-CCC2A, hydrolase; NMR {Saccharomyces cerevisiae} SCOP: d.58.17.1 PDB: 1fvs_A 2ggp_B Length = 72 Back     alignment and structure
>1q8l_A Copper-transporting ATPase 1; metal binding protein; NMR {Homo sapiens} SCOP: d.58.17.1 PDB: 1s6o_A 1s6u_A Length = 84 Back     alignment and structure
>1q8l_A Copper-transporting ATPase 1; metal binding protein; NMR {Homo sapiens} SCOP: d.58.17.1 PDB: 1s6o_A 1s6u_A Length = 84 Back     alignment and structure
>3cjk_B Copper-transporting ATPase 1; HAH1, ATP7B, menkes disease, metal homeostasis, chaperone, ION transport, metal- binding, alternative splicing; 1.80A {Homo sapiens} PDB: 2k1r_A Length = 75 Back     alignment and structure
>3cjk_B Copper-transporting ATPase 1; HAH1, ATP7B, menkes disease, metal homeostasis, chaperone, ION transport, metal- binding, alternative splicing; 1.80A {Homo sapiens} PDB: 2k1r_A Length = 75 Back     alignment and structure
>1aw0_A Menkes copper-transporting ATPase; copper-binding domain, hydrolase; NMR {Homo sapiens} SCOP: d.58.17.1 PDB: 2aw0_A Length = 72 Back     alignment and structure
>1aw0_A Menkes copper-transporting ATPase; copper-binding domain, hydrolase; NMR {Homo sapiens} SCOP: d.58.17.1 PDB: 2aw0_A Length = 72 Back     alignment and structure
>2qif_A Copper chaperone COPZ; tetranuclear Cu(I) cluster; 1.50A {Bacillus subtilis} SCOP: d.58.17.1 PDB: 3i9z_A 1k0v_A 1p8g_A Length = 69 Back     alignment and structure
>2qif_A Copper chaperone COPZ; tetranuclear Cu(I) cluster; 1.50A {Bacillus subtilis} SCOP: d.58.17.1 PDB: 3i9z_A 1k0v_A 1p8g_A Length = 69 Back     alignment and structure
>2kkh_A Putative heavy metal transporter; zinc transport, metal binding, metal selectivity, ferredoxin fold, ATP-binding, hydrolase; NMR {Arabidopsis thaliana} Length = 95 Back     alignment and structure
>2kkh_A Putative heavy metal transporter; zinc transport, metal binding, metal selectivity, ferredoxin fold, ATP-binding, hydrolase; NMR {Arabidopsis thaliana} Length = 95 Back     alignment and structure
>1y3j_A Copper-transporting ATPase 1; ferrodoxin-like fold, beta-alpha-beta-BETA-alpha-beta structure, structural proteomics in europe, spine; NMR {Homo sapiens} PDB: 1y3k_A Length = 77 Back     alignment and structure
>1y3j_A Copper-transporting ATPase 1; ferrodoxin-like fold, beta-alpha-beta-BETA-alpha-beta structure, structural proteomics in europe, spine; NMR {Homo sapiens} PDB: 1y3k_A Length = 77 Back     alignment and structure
>2ldi_A Zinc-transporting ATPase; metal homeostasis, metallochaperones, hydrolase; NMR {Synechocystis SP} Length = 71 Back     alignment and structure
>2ldi_A Zinc-transporting ATPase; metal homeostasis, metallochaperones, hydrolase; NMR {Synechocystis SP} Length = 71 Back     alignment and structure
>1cpz_A Protein (COPZ); copper chaperone, metal transport, gene regulation; NMR {Enterococcus hirae} SCOP: d.58.17.1 Length = 68 Back     alignment and structure
>1cpz_A Protein (COPZ); copper chaperone, metal transport, gene regulation; NMR {Enterococcus hirae} SCOP: d.58.17.1 Length = 68 Back     alignment and structure
>1yjr_A Copper-transporting ATPase 1; metallochaperone, protein-protein interaction, copper(I), metal homeostasis, structural proteomics in europe, spine; NMR {Homo sapiens} PDB: 1yjt_A 1yju_A 1yjv_A Length = 75 Back     alignment and structure
>1yjr_A Copper-transporting ATPase 1; metallochaperone, protein-protein interaction, copper(I), metal homeostasis, structural proteomics in europe, spine; NMR {Homo sapiens} PDB: 1yjt_A 1yju_A 1yjv_A Length = 75 Back     alignment and structure
>1osd_A MERP, hypothetical protein MERP; mercury resistance, metal binding protein, perisplasm, structural genomics; 2.00A {Cupriavidus metallidurans} SCOP: d.58.17.1 PDB: 1afi_A 1afj_A 2hqi_A Length = 72 Back     alignment and structure
>1osd_A MERP, hypothetical protein MERP; mercury resistance, metal binding protein, perisplasm, structural genomics; 2.00A {Cupriavidus metallidurans} SCOP: d.58.17.1 PDB: 1afi_A 1afj_A 2hqi_A Length = 72 Back     alignment and structure
>1jww_A Potential copper-transporting ATPase; beta-alpha-beta-BETA-alpha-beta, hydrolase; NMR {Bacillus subtilis} SCOP: d.58.17.1 PDB: 2voy_A 1kqk_A Length = 80 Back     alignment and structure
>1jww_A Potential copper-transporting ATPase; beta-alpha-beta-BETA-alpha-beta, hydrolase; NMR {Bacillus subtilis} SCOP: d.58.17.1 PDB: 2voy_A 1kqk_A Length = 80 Back     alignment and structure
>2g9o_A Copper-transporting ATPase 1; menkes disease, solution structure, structural genomics, structural proteomics in europe, spine, hydrolase; NMR {Homo sapiens} PDB: 2ga7_A Length = 90 Back     alignment and structure
>2g9o_A Copper-transporting ATPase 1; menkes disease, solution structure, structural genomics, structural proteomics in europe, spine, hydrolase; NMR {Homo sapiens} PDB: 2ga7_A Length = 90 Back     alignment and structure
>1opz_A Potential copper-transporting ATPase; mutation, folding, abbab fold, hydrolase; NMR {Bacillus subtilis} SCOP: d.58.17.1 PDB: 1oq3_A 1oq6_A Length = 76 Back     alignment and structure
>1opz_A Potential copper-transporting ATPase; mutation, folding, abbab fold, hydrolase; NMR {Bacillus subtilis} SCOP: d.58.17.1 PDB: 1oq3_A 1oq6_A Length = 76 Back     alignment and structure
>2xmw_A PACS-N, cation-transporting ATPase PACS; hydrolase, Cu(I)-binding, trafficking; 1.80A {Synechocystis SP} PDB: 2gcf_A Length = 71 Back     alignment and structure
>2xmw_A PACS-N, cation-transporting ATPase PACS; hydrolase, Cu(I)-binding, trafficking; 1.80A {Synechocystis SP} PDB: 2gcf_A Length = 71 Back     alignment and structure
>1svj_A Potassium-transporting ATPase B chain; alpha-beta sandwich, hydrolase; NMR {Escherichia coli} SCOP: d.220.1.1 PDB: 1u7q_A 2a00_A* 2a29_A* Length = 156 Back     alignment and structure
>2roe_A Heavy metal binding protein; NMR {Thermus thermophilus} PDB: 2rog_A Length = 66 Back     alignment and structure
>2roe_A Heavy metal binding protein; NMR {Thermus thermophilus} PDB: 2rog_A Length = 66 Back     alignment and structure
>2zxe_A Na, K-ATPase alpha subunit; membrane protein, ION pump, ATPase, K+ binding, haloacid dehydrogenease superfamily, phosphate analogue; HET: CLR NAG NDG; 2.40A {Squalus acanthias} PDB: 3a3y_A* 3b8e_A* 3kdp_A* 3n2f_A* 3n23_A* 1mo7_A 1mo8_A* 1q3i_A Length = 1028 Back     alignment and structure
>2zxe_A Na, K-ATPase alpha subunit; membrane protein, ION pump, ATPase, K+ binding, haloacid dehydrogenease superfamily, phosphate analogue; HET: CLR NAG NDG; 2.40A {Squalus acanthias} PDB: 3a3y_A* 3b8e_A* 3kdp_A* 3n2f_A* 3n23_A* 1mo7_A 1mo8_A* 1q3i_A Length = 1028 Back     alignment and structure
>3ixz_A Potassium-transporting ATPase alpha; ION pump, H+, K+-ATPase, P-type ATPase, membrane protein, hydrolase, aluminium fluoride, ATP-binding; 6.50A {Sus scrofa} PDB: 2xzb_A 1iwc_A 1iwf_A Length = 1034 Back     alignment and structure
>3ixz_A Potassium-transporting ATPase alpha; ION pump, H+, K+-ATPase, P-type ATPase, membrane protein, hydrolase, aluminium fluoride, ATP-binding; 6.50A {Sus scrofa} PDB: 2xzb_A 1iwc_A 1iwf_A Length = 1034 Back     alignment and structure
>1mwy_A ZNTA; open-faced beta-sandwich fold, beta-alpha-beta-BETA-alpha- beta, hydrolase; NMR {Escherichia coli} SCOP: d.58.17.1 PDB: 1mwz_A Length = 73 Back     alignment and structure
>1mwy_A ZNTA; open-faced beta-sandwich fold, beta-alpha-beta-BETA-alpha- beta, hydrolase; NMR {Escherichia coli} SCOP: d.58.17.1 PDB: 1mwz_A Length = 73 Back     alignment and structure
>2kt2_A Mercuric reductase; nmera, MERA, HMA domain, mercuric resist metal-binding, oxidoreductase; NMR {Pseudomonas aeruginosa} PDB: 2kt3_A Length = 69 Back     alignment and structure
>2kt2_A Mercuric reductase; nmera, MERA, HMA domain, mercuric resist metal-binding, oxidoreductase; NMR {Pseudomonas aeruginosa} PDB: 2kt3_A Length = 69 Back     alignment and structure
>1yg0_A COP associated protein; open-faced beta-sandwich, missing C-terminal beta-sheet, Met transport; NMR {Helicobacter pylori} Length = 66 Back     alignment and structure
>1yg0_A COP associated protein; open-faced beta-sandwich, missing C-terminal beta-sheet, Met transport; NMR {Helicobacter pylori} Length = 66 Back     alignment and structure
>3fry_A Probable copper-exporting P-type ATPase A; transport protein, metal binding domain, domain SWAP, ATP-BI cell membrane, copper transport; HET: CIT; 2.00A {Archaeoglobus fulgidus} Length = 73 Back     alignment and structure
>2k2p_A Uncharacterized protein ATU1203; putative metal-binding domain ATU1203, ontario centre for ST proteomics, structural genomics; NMR {Agrobacterium tumefaciens str} Length = 85 Back     alignment and structure
>2k2p_A Uncharacterized protein ATU1203; putative metal-binding domain ATU1203, ontario centre for ST proteomics, structural genomics; NMR {Agrobacterium tumefaciens str} Length = 85 Back     alignment and structure
>2xmm_A SSR2857 protein, ATX1; metal transport, copper homeostasis, chaperone, P-type atpas; 1.65A {Synechocystis SP} PDB: 2xmv_A 1sb6_A 2xmj_A 2xmk_A 2xmt_A 2xmu_A Length = 64 Back     alignment and structure
>2aj0_A Probable cadmium-transporting ATPase; ferrodoxin-like fold, beta-alpha-beta-BETA-alpha-beta, metal binding protein, hydrolase; NMR {Listeria monocytogenes} PDB: 2aj1_A Length = 71 Back     alignment and structure
>2aj0_A Probable cadmium-transporting ATPase; ferrodoxin-like fold, beta-alpha-beta-BETA-alpha-beta, metal binding protein, hydrolase; NMR {Listeria monocytogenes} PDB: 2aj1_A Length = 71 Back     alignment and structure
>2kyz_A Heavy metal binding protein; structural genomics, PSI-biology, protein structure initiative, joint for structural genomics, JCSG; NMR {Thermotoga maritima} Length = 67 Back     alignment and structure
>1vt4_I APAF-1 related killer DARK; drosophila apoptosome, apoptosis, programmed cell death; HET: DTP; 6.90A {Drosophila melanogaster} PDB: 3iz8_A* Length = 1221 Back     alignment and structure
>1vt4_I APAF-1 related killer DARK; drosophila apoptosome, apoptosis, programmed cell death; HET: DTP; 6.90A {Drosophila melanogaster} PDB: 3iz8_A* Length = 1221 Back     alignment and structure
>1vt4_I APAF-1 related killer DARK; drosophila apoptosome, apoptosis, programmed cell death; HET: DTP; 6.90A {Drosophila melanogaster} PDB: 3iz8_A* Length = 1221 Back     alignment and structure
>2crl_A Copper chaperone for superoxide dismutase; SOD1, familial ALS, structural genomics, NPPSFA; NMR {Homo sapiens} Length = 98 Back     alignment and structure
>3iwl_A Copper transport protein ATOX1; beta-alpha-beta-BETA-alpha-beta, cisplatin, platinum, chaperone, ION transport, metal-binding, metal transport; HET: TCE; 1.60A {Homo sapiens} PDB: 1fe4_A* 1fee_A* 1tl4_A 1tl5_A 2k1r_B 1fe0_A* 3iwx_A 3cjk_A Length = 68 Back     alignment and structure
>3m1y_A Phosphoserine phosphatase (SERB); NYSGXRC, PSI II, phophoserine phosphatase, protein structure initiative, structural genomics; 2.40A {Helicobacter pylori} Length = 217 Back     alignment and structure
>1cc8_A Protein (metallochaperone ATX1); copper transport, mercury coordination, metal transport; 1.02A {Saccharomyces cerevisiae} SCOP: d.58.17.1 PDB: 1cc7_A 1fd8_A 1fes_A 2ggp_A 3k7r_A Length = 73 Back     alignment and structure
>1rku_A Homoserine kinase; phosphoserine phosphatase, phosphoserine:homoserine phosphotransferase, THRH, phosphoserine phosphoryl donor; 1.47A {Pseudomonas aeruginosa} SCOP: c.108.1.11 PDB: 1rkv_A Length = 206 Back     alignment and structure
>4eze_A Haloacid dehalogenase-like hydrolase; magnesium binding site, enzyme function initiativ; 2.27A {Salmonella enterica subsp} Length = 317 Back     alignment and structure
>2r8e_A 3-deoxy-D-manno-octulosonate 8-phosphate phosphatase; YRBI, divalent metal, HAD superfamily, KDO 8-P, hydrolase; 1.40A {Escherichia coli O6} PDB: 2r8x_A 2r8y_A 2r8z_A 3hyc_A 3i6b_A* Length = 188 Back     alignment and structure
>3n28_A Phosphoserine phosphatase; HAD family hydrolase, structural genomics, PSI, protein STRU initiative, nysgrc; 2.30A {Vibrio cholerae} Length = 335 Back     alignment and structure
>3mn1_A Probable YRBI family phosphatase; structural genomics, PSI, protein structure initiative, NYSG phosphatase; 1.80A {Pseudomonas syringae PV} PDB: 3nrj_A Length = 189 Back     alignment and structure
>3n1u_A Hydrolase, HAD superfamily, subfamily III A; structural genomics, PSI-2; 1.80A {Legionella pneumophila} Length = 191 Back     alignment and structure
>3fvv_A Uncharacterized protein; unknown function, structural genomics, PSI,MCSG, protein STR initiative, midwest center for structural genomics; 2.10A {Bordetella pertussis} Length = 232 Back     alignment and structure
>3n07_A 3-deoxy-D-manno-octulosonate 8-phosphate phosphat; structural genomics, phosphatase, PSI-2, protein structure initiative; HET: MSE; 1.76A {Vibrio cholerae} Length = 195 Back     alignment and structure
>1k1e_A Deoxy-D-mannose-octulosonate 8-phosphate phosphat; structural genomics, KDO 8-P phosphatase, structure function project, S2F; HET: MES; 1.67A {Haemophilus influenzae RD} SCOP: c.108.1.5 PDB: 1j8d_A* Length = 180 Back     alignment and structure
>2p9j_A Hypothetical protein AQ2171; secsg, riken, PSI, structural GENO protein structure initiative, southeast collaboratory for S genomics; 2.40A {Aquifex aeolicus} Length = 162 Back     alignment and structure
>2fea_A 2-hydroxy-3-keto-5-methylthiopentenyl-1-phosphate phosphatase; 2633731, structural genomics, joint center for structural GE JCSG; HET: MSE; 2.00A {Bacillus subtilis} SCOP: c.108.1.20 Length = 236 Back     alignment and structure
>3ij5_A 3-deoxy-D-manno-octulosonate 8-phosphate phosphat; IDP022 hydrolase, lipopolysaccharide biosynthesis, magnesium, STRU genomics; 1.95A {Yersinia pestis} Length = 211 Back     alignment and structure
>3e8m_A Acylneuraminate cytidylyltransferase; 2-keto-3-deoxynononic acid 9-phosphate phosphohydrolase, nucleotidyltransferase; HET: PEG PG4 EDO PGE; 1.10A {Bacteroides thetaiotaomicron} PDB: 3e84_A 3e81_A* Length = 164 Back     alignment and structure
>1nnl_A L-3-phosphoserine phosphatase; PSP, HPSP, phospho-aspartyl, hydrolase; 1.53A {Homo sapiens} SCOP: c.108.1.4 PDB: 1l8l_A* 1l8o_A Length = 225 Back     alignment and structure
>3p96_A Phosphoserine phosphatase SERB; ssgcid, structural genomics, structural genomics center for infectious disease, hydrolas; 2.05A {Mycobacterium avium} Length = 415 Back     alignment and structure
>1l7m_A Phosphoserine phosphatase; rossmann fold, four-helix bundle, B-hairpin, structural genomics, BSGC structure funded by NIH; 1.48A {Methanocaldococcus jannaschii} SCOP: c.108.1.4 PDB: 1f5s_A 1l7n_A 1l7p_A* 1l7o_A* 1j97_A* Length = 211 Back     alignment and structure
>1jk9_B CCS, copper chaperone for superoxide dismutase; protein-protein complex, heterodimer, metallochaperone, amyotrophic lateral sclerosis; 2.90A {Saccharomyces cerevisiae} SCOP: b.1.8.1 d.58.17.1 Length = 249 Back     alignment and structure
>3mmz_A Putative HAD family hydrolase; structural genomics, protein structure initiative, NEW YORK structural genomix research consortium; 1.84A {Streptomyces avermitilis} Length = 176 Back     alignment and structure
>3ewi_A N-acylneuraminate cytidylyltransferase; beta barrel, HAD-like, rossmannoid fold, nucleotidyltransferase, nucleus; 1.90A {Mus musculus} Length = 168 Back     alignment and structure

Structure Templates Detected by HHsearch ?

Original result of HHsearch against PDB70 database

ID ?Alignment Graph ?Length ? Definition ? Probability ?
Query924
3j09_A723 COPA, copper-exporting P-type ATPase A; copper tra 100.0
3rfu_A736 Copper efflux ATPase; alpha helical, CPC, CXXC, AT 100.0
3j08_A645 COPA, copper-exporting P-type ATPase A; copper tra 100.0
1mhs_A 920 Proton pump, plasma membrane ATPase; ION transport 100.0
3b8c_A 885 ATPase 2, plasma membrane-type; P-type ATPase, pro 100.0
2zxe_A 1028 Na, K-ATPase alpha subunit; membrane protein, ION 100.0
3ar4_A 995 Sarcoplasmic/endoplasmic reticulum calcium ATPase; 100.0
3ixz_A 1034 Potassium-transporting ATPase alpha; ION pump, H+, 100.0
2yj3_A263 Copper-transporting ATPase; hydrolase, P-type ATPa 100.0
3a1c_A287 Probable copper-exporting P-type ATPase A; ATP-bin 100.0
3skx_A280 Copper-exporting P-type ATPase B; P1B-ATPase, ATP 100.0
2hc8_A113 PACS, cation-transporting ATPase, P-type; copper, 99.94
2kij_A124 Copper-transporting ATPase 1; actuator, menkes dis 99.94
4fe3_A297 Cytosolic 5'-nucleotidase 3; substrate complex, HA 99.87
2ew9_A149 Copper-transporting ATPase 2; copper trafficking, 99.8
1p6t_A151 Potential copper-transporting ATPase; COPA, P-type 99.77
2kmv_A185 Copper-transporting ATPase 1; menkes, nucleotide b 99.71
2rop_A202 Copper-transporting ATPase 2; wilson protein, mobi 99.71
1svj_A156 Potassium-transporting ATPase B chain; alpha-beta 99.71
3mn1_A189 Probable YRBI family phosphatase; structural genom 99.62
2arf_A165 Wilson disease ATPase; P-type ATPase,ATP7B, copper 99.61
3n28_A335 Phosphoserine phosphatase; HAD family hydrolase, s 99.4
1k1e_A180 Deoxy-D-mannose-octulosonate 8-phosphate phosphat; 99.32
3n1u_A191 Hydrolase, HAD superfamily, subfamily III A; struc 99.3
3n07_A195 3-deoxy-D-manno-octulosonate 8-phosphate phosphat; 99.28
3mmz_A176 Putative HAD family hydrolase; structural genomics 99.24
3ij5_A211 3-deoxy-D-manno-octulosonate 8-phosphate phosphat; 99.22
3ewi_A168 N-acylneuraminate cytidylyltransferase; beta barre 99.2
3dxs_X74 Copper-transporting ATPase RAN1; CXXC motif, ferre 99.1
1l6r_A227 Hypothetical protein TA0175; structural genomics, 99.06
3dxs_X74 Copper-transporting ATPase RAN1; CXXC motif, ferre 99.04
4a4j_A69 Pacszia, cation-transporting ATPase PACS; hydrolas 98.98
2ofg_X111 Zinc-transporting ATPase; ferredoxin-like fold, be 98.98
3e8m_A164 Acylneuraminate cytidylyltransferase; 2-keto-3-deo 98.97
4a4j_A69 Pacszia, cation-transporting ATPase PACS; hydrolas 98.97
3p96_A415 Phosphoserine phosphatase SERB; ssgcid, structural 98.93
3fry_A73 Probable copper-exporting P-type ATPase A; transpo 98.86
3iwl_A68 Copper transport protein ATOX1; beta-alpha-beta-BE 98.86
2r8e_A188 3-deoxy-D-manno-octulosonate 8-phosphate phosphata 98.85
2g9o_A90 Copper-transporting ATPase 1; menkes disease, solu 98.85
2l3m_A71 Copper-ION-binding protein; structural genomics, c 98.85
3m1y_A217 Phosphoserine phosphatase (SERB); NYSGXRC, PSI II, 98.84
3fry_A73 Probable copper-exporting P-type ATPase A; transpo 98.83
1q8l_A84 Copper-transporting ATPase 1; metal binding protei 98.83
1osd_A72 MERP, hypothetical protein MERP; mercury resistanc 98.81
3iwl_A68 Copper transport protein ATOX1; beta-alpha-beta-BE 98.81
4eze_A317 Haloacid dehalogenase-like hydrolase; magnesium bi 98.81
1osd_A72 MERP, hypothetical protein MERP; mercury resistanc 98.8
1cpz_A68 Protein (COPZ); copper chaperone, metal transport, 98.8
1kvi_A79 Copper-transporting ATPase 1; menkes, Cu-protein, 98.79
3cjk_B75 Copper-transporting ATPase 1; HAH1, ATP7B, menkes 98.79
1kvi_A79 Copper-transporting ATPase 1; menkes, Cu-protein, 98.78
2l3m_A71 Copper-ION-binding protein; structural genomics, c 98.77
2p9j_A162 Hypothetical protein AQ2171; secsg, riken, PSI, st 98.77
1aw0_A72 Menkes copper-transporting ATPase; copper-binding 98.76
2qif_A69 Copper chaperone COPZ; tetranuclear Cu(I) cluster; 98.76
1q8l_A84 Copper-transporting ATPase 1; metal binding protei 98.75
2xmw_A71 PACS-N, cation-transporting ATPase PACS; hydrolase 98.75
1y3j_A77 Copper-transporting ATPase 1; ferrodoxin-like fold 98.75
2kt2_A69 Mercuric reductase; nmera, MERA, HMA domain, mercu 98.74
4ap9_A201 Phosphoserine phosphatase; hydrolase, haloacid deh 98.74
1l7m_A211 Phosphoserine phosphatase; rossmann fold, four-hel 98.74
1y3j_A77 Copper-transporting ATPase 1; ferrodoxin-like fold 98.74
3cjk_B75 Copper-transporting ATPase 1; HAH1, ATP7B, menkes 98.74
1mwy_A73 ZNTA; open-faced beta-sandwich fold, beta-alpha-be 98.73
2xmw_A71 PACS-N, cation-transporting ATPase PACS; hydrolase 98.72
2ldi_A71 Zinc-transporting ATPase; metal homeostasis, metal 98.71
1opz_A76 Potential copper-transporting ATPase; mutation, fo 98.71
2g9o_A90 Copper-transporting ATPase 1; menkes disease, solu 98.71
2qif_A69 Copper chaperone COPZ; tetranuclear Cu(I) cluster; 98.71
1yjr_A75 Copper-transporting ATPase 1; metallochaperone, pr 98.7
1yg0_A66 COP associated protein; open-faced beta-sandwich, 98.7
1aw0_A72 Menkes copper-transporting ATPase; copper-binding 98.7
1y8a_A332 Hypothetical protein AF1437; structural genomics, 98.68
1cpz_A68 Protein (COPZ); copper chaperone, metal transport, 98.68
1mwy_A73 ZNTA; open-faced beta-sandwich fold, beta-alpha-be 98.67
2ldi_A71 Zinc-transporting ATPase; metal homeostasis, metal 98.67
1yg0_A66 COP associated protein; open-faced beta-sandwich, 98.67
1opz_A76 Potential copper-transporting ATPase; mutation, fo 98.66
2ofg_X111 Zinc-transporting ATPase; ferredoxin-like fold, be 98.65
1jww_A80 Potential copper-transporting ATPase; beta-alpha-b 98.63
1yjr_A75 Copper-transporting ATPase 1; metallochaperone, pr 98.63
1fvq_A72 Copper-transporting ATPase; APO-CCC2A, hydrolase; 98.62
1rku_A206 Homoserine kinase; phosphoserine phosphatase, phos 98.62
2kt2_A69 Mercuric reductase; nmera, MERA, HMA domain, mercu 98.62
1fvq_A72 Copper-transporting ATPase; APO-CCC2A, hydrolase; 98.61
1cc8_A73 Protein (metallochaperone ATX1); copper transport, 98.6
1jww_A80 Potential copper-transporting ATPase; beta-alpha-b 98.6
4dw8_A279 Haloacid dehalogenase-like hydrolase; HAD, putativ 98.59
2kkh_A95 Putative heavy metal transporter; zinc transport, 98.58
3kd3_A219 Phosphoserine phosphohydrolase-like protein; csgid 98.57
2kkh_A95 Putative heavy metal transporter; zinc transport, 98.56
1cc8_A73 Protein (metallochaperone ATX1); copper transport, 98.54
2roe_A66 Heavy metal binding protein; NMR {Thermus thermoph 98.54
3pgv_A285 Haloacid dehalogenase-like hydrolase; structural g 98.54
3dnp_A290 Stress response protein YHAX; structural PSI-2, pr 98.54
2crl_A98 Copper chaperone for superoxide dismutase; SOD1, f 98.52
2kyz_A67 Heavy metal binding protein; structural genomics, 98.5
2k2p_A85 Uncharacterized protein ATU1203; putative metal-bi 98.5
1p6t_A151 Potential copper-transporting ATPase; COPA, P-type 98.49
2k2p_A85 Uncharacterized protein ATU1203; putative metal-bi 98.49
3dao_A283 Putative phosphatse; structural genomics, joint ce 98.49
3m9l_A205 Hydrolase, haloacid dehalogenase-like family; HAD 98.48
2roe_A66 Heavy metal binding protein; NMR {Thermus thermoph 98.47
2ew9_A149 Copper-transporting ATPase 2; copper trafficking, 98.47
2xmm_A64 SSR2857 protein, ATX1; metal transport, copper hom 98.46
2kyz_A67 Heavy metal binding protein; structural genomics, 98.45
3fvv_A232 Uncharacterized protein; unknown function, structu 98.43
2xmm_A64 SSR2857 protein, ATX1; metal transport, copper hom 98.43
4ex6_A237 ALNB; modified rossman fold, phosphatase, magnesiu 98.42
3mpo_A279 Predicted hydrolase of the HAD superfamily; SGX, P 98.4
1nnl_A225 L-3-phosphoserine phosphatase; PSP, HPSP, phospho- 98.39
2crl_A98 Copper chaperone for superoxide dismutase; SOD1, f 98.39
3mc1_A226 Predicted phosphatase, HAD family; PSI2, NYSGXRC, 98.37
2pq0_A258 Hypothetical conserved protein GK1056; hyopthetica 98.36
1swv_A267 Phosphonoacetaldehyde hydrolase; HAD enzyme superf 98.34
2rop_A202 Copper-transporting ATPase 2; wilson protein, mobi 98.33
2pib_A216 Phosphorylated carbohydrates phosphatase TM_1254; 98.26
1wr8_A231 Phosphoglycolate phosphatase; alpha / beta core do 98.26
1rkq_A282 Hypothetical protein YIDA; two domain structure wi 98.23
3r4c_A268 Hydrolase, haloacid dehalogenase-like hydrolase; h 98.23
3fzq_A274 Putative hydrolase; YP_001086940.1, putative haloa 98.22
3l7y_A304 Putative uncharacterized protein SMU.1108C; hydrol 98.22
2aj0_A71 Probable cadmium-transporting ATPase; ferrodoxin-l 98.2
3s6j_A233 Hydrolase, haloacid dehalogenase-like family; stru 98.16
2aj0_A71 Probable cadmium-transporting ATPase; ferrodoxin-l 98.16
3l8h_A179 Putative haloacid dehalogenase-like hydrolase; HAD 98.15
1te2_A226 Putative phosphatase; structural genomics, phospha 98.14
2hsz_A243 Novel predicted phosphatase; structural genomics, 98.12
3sd7_A240 Putative phosphatase; structural genomics, haloaci 98.11
4gxt_A385 A conserved functionally unknown protein; structur 98.11
3gyg_A289 NTD biosynthesis operon putative hydrolase NTDB; P 98.1
3j09_A723 COPA, copper-exporting P-type ATPase A; copper tra 98.1
2nyv_A222 Pgpase, PGP, phosphoglycolate phosphatase; structu 98.09
3kzx_A231 HAD-superfamily hydrolase, subfamily IA, variant; 98.08
3u26_A234 PF00702 domain protein; structural genomics, PSI-b 98.07
2fea_A236 2-hydroxy-3-keto-5-methylthiopentenyl-1-phosphate 98.07
3nas_A233 Beta-PGM, beta-phosphoglucomutase; PSI, structural 98.06
2go7_A207 Hydrolase, haloacid dehalogenase-like family; stru 98.05
3d6j_A225 Putative haloacid dehalogenase-like hydrolase; str 98.04
3umb_A233 Dehalogenase-like hydrolase; 2.20A {Ralstonia sola 98.03
1rlm_A271 Phosphatase; HAD family, rossman fold, hydrolase; 98.03
3um9_A230 Haloacid dehalogenase, type II; haloacid dehalogen 98.01
4eek_A259 Beta-phosphoglucomutase-related protein; hydrolase 98.01
2hcf_A234 Hydrolase, haloacid dehalogenase-like family; NP_6 98.01
2wf7_A221 Beta-PGM, beta-phosphoglucomutase; transition stat 98.0
3iru_A277 Phoshonoacetaldehyde hydrolase like protein; phosp 97.98
3nuq_A282 Protein SSM1, putative nucleotide phosphatase; sup 97.97
3e58_A214 Putative beta-phosphoglucomutase; structu genomics 97.97
1nf2_A268 Phosphatase; structural proteomics, HAD NEW fold, 97.96
2hoq_A241 Putative HAD-hydrolase PH1655; haloacid dehalogena 97.96
3dv9_A247 Beta-phosphoglucomutase; structural genomics, APC6 97.95
3qxg_A243 Inorganic pyrophosphatase; hydrolase, magnesium bi 97.95
2om6_A235 Probable phosphoserine phosphatase; rossmann fold, 97.94
1jk9_B249 CCS, copper chaperone for superoxide dismutase; pr 97.89
2no4_A240 (S)-2-haloacid dehalogenase IVA; HAD superfamily, 97.88
1qup_A222 Superoxide dismutase 1 copper chaperone; two domai 97.87
2gmw_A211 D,D-heptose 1,7-bisphosphate phosphatase; Zn-bindi 97.87
1qup_A222 Superoxide dismutase 1 copper chaperone; two domai 97.87
2hdo_A209 Phosphoglycolate phosphatase; NP_784602.1, structu 97.85
1zrn_A232 L-2-haloacid dehalogenase; hydrolase; 1.83A {Pseud 97.82
2wm8_A187 MDP-1, magnesium-dependent phosphatase 1; haloacid 97.77
3ib6_A189 Uncharacterized protein; structural genomics, unkn 97.77
3qnm_A240 Haloacid dehalogenase-like hydrolase; structural g 97.75
3ddh_A234 Putative haloacid dehalogenase-like family hydrol; 97.75
1jk9_B249 CCS, copper chaperone for superoxide dismutase; pr 97.7
2hi0_A240 Putative phosphoglycolate phosphatase; YP_619066.1 97.7
2w43_A201 Hypothetical 2-haloalkanoic acid dehalogenase; hyd 97.7
2fdr_A229 Conserved hypothetical protein; SAD, structural ge 97.69
3ed5_A238 YFNB; APC60080, bacillus subtilis subsp. subtilis 97.69
1qq5_A253 Protein (L-2-haloacid dehalogenase); hydrolase; 1. 97.63
3l5k_A250 Protein GS1, haloacid dehalogenase-like hydrolase 97.61
2fi1_A190 Hydrolase, haloacid dehalogenase-like family; stru 97.6
2ah5_A210 COG0546: predicted phosphatases; MCSG, structural 97.57
3k1z_A263 Haloacid dehalogenase-like hydrolase domain-conta 97.53
2rbk_A261 Putative uncharacterized protein; HAD-like phospha 97.5
3smv_A240 S-(-)-azetidine-2-carboxylate hydrolase; haloacid 97.49
3umc_A254 Haloacid dehalogenase; HY; 2.15A {Pseudomonas aeru 97.48
3umg_A254 Haloacid dehalogenase; defluorinase, hydrolase; 2. 97.46
2pke_A251 Haloacid delahogenase-like family hydrolase; NP_63 97.44
2qlt_A275 (DL)-glycerol-3-phosphatase 1; APC7326, RHR2P, sac 97.42
2pr7_A137 Haloacid dehalogenase/epoxide hydrolase family; NP 97.35
1u02_A239 Trehalose-6-phosphate phosphatase related protein; 97.34
2b30_A301 Pvivax hypothetical protein; SGPP, structural geno 97.32
3cnh_A200 Hydrolase family protein; NP_295428.1, predicted h 97.31
1qyi_A384 ZR25, hypothetical protein; structural genomics, P 97.25
1nrw_A288 Hypothetical protein, haloacid dehalogenase-like h 97.25
2gfh_A260 Haloacid dehalogenase-like hydrolase domain conta; 97.21
3kbb_A216 Phosphorylated carbohydrates phosphatase TM_1254; 97.2
3zx4_A259 MPGP, mannosyl-3-phosphoglycerate phosphatase; hyd 97.2
2i6x_A211 Hydrolase, haloacid dehalogenase-like family; HAD 97.18
1s2o_A244 SPP, sucrose-phosphatase; phosphohydrolase, HAD su 97.16
3qgm_A268 P-nitrophenyl phosphatase (PHO2); structural genom 97.07
2oda_A196 Hypothetical protein pspto_2114; haloacid dehaloge 97.04
2o2x_A218 Hypothetical protein; structural genomics, joint c 97.0
3nvb_A387 Uncharacterized protein; protein FKBH, protein fkb 96.98
2b0c_A206 Putative phosphatase; alpha-D-glucose-1-phosphate, 96.93
3vay_A230 HAD-superfamily hydrolase; rossmann fold, haloacid 96.9
3gwi_A170 Magnesium-transporting ATPase, P-type 1; P-type AT 96.82
4dcc_A229 Putative haloacid dehalogenase-like hydrolase; mag 96.8
3pct_A260 Class C acid phosphatase; hydrolase, outer membran 96.71
2p11_A231 Hypothetical protein; putative haloacid dehalogena 96.61
1xvi_A275 MPGP, YEDP, putative mannosyl-3-phosphoglycerate p 96.58
2zos_A249 MPGP, mannosyl-3-phosphoglycerate phosphatase; hal 96.54
3ocu_A262 Lipoprotein E; hydrolase, outer membrane; HET: NMN 96.51
3pdw_A266 Uncharacterized hydrolase YUTF; structural genomic 96.49
4gib_A250 Beta-phosphoglucomutase; rossmann fold, HAD-like, 96.3
2zg6_A220 Putative uncharacterized protein ST2620, probable 95.93
2fue_A262 PMM 1, PMMH-22, phosphomannomutase 1; enzyme-produ 95.92
2fpr_A176 Histidine biosynthesis bifunctional protein HISB; 95.71
3epr_A264 Hydrolase, haloacid dehalogenase-like family; stru 95.57
1vjr_A271 4-nitrophenylphosphatase; TM1742, structural genom 95.43
2amy_A246 PMM 2, phosphomannomutase 2; HS.459855, HS.313504, 95.3
4as2_A327 Phosphorylcholine phosphatase; hydrolase, HAD supe 95.27
2c4n_A250 Protein NAGD; nucleotide phosphatase, HAD superfam 94.88
2i33_A258 Acid phosphatase; HAD superfamily, hydrolase; 1.57 94.84
2x4d_A271 HLHPP, phospholysine phosphohistidine inorganic py 94.76
1ltq_A301 Polynucleotide kinase; phosphatase, alpha/beta, P- 94.57
1yns_A261 E-1 enzyme; hydrolase fold; HET: HPO; 1.70A {Homo 94.5
4g9b_A243 Beta-PGM, beta-phosphoglucomutase; HAD, putative p 93.63
2b82_A211 APHA, class B acid phosphatase; DDDD acid phosphat 92.69
3f9r_A246 Phosphomannomutase; trypanosome glycobiology struc 92.27
2ho4_A259 Haloacid dehalogenase-like hydrolase domain contai 91.98
2g80_A253 Protein UTR4; YEL038W, UTR4 protein (unknown trans 91.29
2i7d_A193 5'(3')-deoxyribonucleotidase, cytosolic type; hydr 90.16
3i28_A 555 Epoxide hydrolase 2; aromatic hydrocarbons catabol 89.19
2oyc_A306 PLP phosphatase, pyridoxal phosphate phosphatase; 88.37
1q92_A197 5(3)-deoxyribonucleotidase; alpha-beta rossman fol 87.52
4gwb_A168 Peptide methionine sulfoxide reductase MSRA 3; str 86.75
1yv9_A264 Hydrolase, haloacid dehalogenase family; hypotheti 85.15
3bwv_A180 Putative 5'(3')-deoxyribonucleotidase; NP_764060.1 85.01
3zvl_A416 Bifunctional polynucleotide phosphatase/kinase; hy 84.46
1nrw_A288 Hypothetical protein, haloacid dehalogenase-like h 84.02
2hhl_A195 CTD small phosphatase-like protein; CTD phosphatas 83.18
1fvg_A199 Peptide methionine sulfoxide reductase; oxidoreduc 82.95
2ght_A181 Carboxy-terminal domain RNA polymerase II polypept 82.51
1zjj_A263 Hypothetical protein PH1952; alpha/beta hydrolase 81.79
3bqh_A193 PILB, peptide methionine sulfoxide reductase MSRA/ 80.89
2j89_A261 Methionine sulfoxide reductase A; MSRA, poplar, ox 80.56
2zos_A249 MPGP, mannosyl-3-phosphoglycerate phosphatase; hal 80.15
1nwa_A203 Peptide methionine sulfoxide reductase MSRA; oxido 80.09
>3j09_A COPA, copper-exporting P-type ATPase A; copper transporter, adenosine triphosph archaeal proteins, cation transport proteins; 10.00A {Archaeoglobus fulgidus} Back     alignment and structure
Probab=100.00  E-value=2.9e-128  Score=1167.12  Aligned_cols=717  Identities=40%  Similarity=0.659  Sum_probs=652.7

Q ss_pred             eeeeeeCCCcccchHhhHHhhhhcCCCceeEEEecCCCeEEEeeCCCCCChhhHHHhhhhcCCccceeeccccccccccc
Q 002427          129 VGQYTIGGMTCAACVNSVEGILSNFKGVRQFRFDKISGELEVLFDPEALSSRSLVDGIAGRSNGKFQIRVMNPFARMTSR  208 (924)
Q Consensus       129 ~~~l~i~gm~C~~C~~~ie~~l~~~~GV~~v~vn~~~~~~~V~yd~~~~~~~~i~~~I~~~g~~~y~~~~~~~~~~~~~~  208 (924)
                      +..+.|+||+|++|+++||+.++++|||.++++|+.++++.|.||+..++.+++.+.+++.|   |++...++...   .
T Consensus         3 ~~~l~V~GM~Ca~Ca~~Ie~~L~~~~GV~~v~Vnl~~~~~~V~~d~~~~~~~~i~~ai~~~G---y~~~~~~~~~~---~   76 (723)
T 3j09_A            3 ERTVRVTGMTCAMCVKSIETAVGSLEGVEEVRVNLATETAFIRFDEKRIDFETIKRVIEDLG---YGVVDEQAAVS---A   76 (723)
T ss_dssp             CEEEEEETCCSHHHHHHHHHHHHTSTTEEEEEEETTTTEEEEEECTTTCCHHHHHHHHHHHC---CEESSCCCCCC---C
T ss_pred             eEEEEeCCCCchHHHHHHHHHHhcCCCceEEEEEcCCCEEEEEeCCCcCCHHHHHHHHHhcC---Ccccccccccc---h
Confidence            35799999999999999999999999999999999999999999999899999999999999   87654332211   1


Q ss_pred             chHHHHhhHHHhHHHHHhhhhHHHHHhhccchhhHHHHhhhccCCcchHHHHHHHHHHHHHHhcCHHHHHHHHHHHHcCC
Q 002427          209 DSEETSNMFRLFISSLFLSIPVFFIRVICPHIPLVYALLLWRCGPFLMGDWLNWALVSVVQFVIGKRFYTAAGRALRNGS  288 (924)
Q Consensus       209 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~l~~~v~~~~g~~~~~~a~~~l~~~~  288 (924)
                      ..++.+.+++++++++++++|+++++++ .+              ++...|+++++++|+++|+|+|||++||++|++|+
T Consensus        77 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~-~~--------------~~~~~~~~~~l~~~~~~~~g~~~~~~a~~~l~~~~  141 (723)
T 3j09_A           77 EVEHLSRMKRKLYVAAFAGVLLLFLAHF-IS--------------LPYEDFVQLLIALPAIFYSGSSIFKAAFSALRRRT  141 (723)
T ss_dssp             CCCCCCCSCCCSSSTTTTHHHHHHHTTS-SC--------------SSSSCCSCCSTHHHHHHHHHHHHHHHTCCTTTTCS
T ss_pred             hhHHHHHHHHHHHHHHHHHHHHHHHHHH-hc--------------cchHHHHHHHHHHHHHHHhHHHHHHHHHHHHHcCC
Confidence            1123344556677788888887765541 11              11124667789999999999999999999999999


Q ss_pred             CCchHHHHHHHHHHHHHHHHHHHhhhhcCCCCcchhhhHHHHHHHHHHHHHHHHHHhhhHHHHHHHHHhcCCCeEEEEEe
Q 002427          289 TNMDVLVALGTSAAYFYSVGALLYGVVTGFWSPTYFETSAMLITFVLFGKYLEILAKGKTSDAIKKLVELAPATALLVVK  368 (924)
Q Consensus       289 ~~md~Li~l~~~~a~~~s~~~~~~~~~~~~~~~~~~~~~~~li~~~~~~~~le~~~~~k~~~~l~~l~~~~~~~~~v~~~  368 (924)
                      +|||+|+++|+.+||+||++.++....   ....||++++++++++++|+++|.++++|+++.+++|.++.|++++++  
T Consensus       142 ~~md~l~~l~~~~a~~~s~~~~~~~~~---~~~~~~~~~~~i~~~~~ig~~le~~~~~~~~~~i~~l~~l~~~~a~v~--  216 (723)
T 3j09_A          142 LNMDVMYSMGVGAAFLASVLSTAGVLP---REYSFYETSVLLLAFLLLGRTLEARAKSRTGEAIKKLVGLQAKTAVVI--  216 (723)
T ss_dssp             TTSCSSCSCHHHHHHHHHHHHHHTTTT---CCCCCCTTHHHHHHHHHHHHHHHHHHHTTCCCTTHHHHHTSCSEEEEE--
T ss_pred             CChHHHHHHHHHHHHHHHHHHHHhhcc---cchhHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHhcCCCeeEEE--
Confidence            999999999999999999998875311   112389999999999999999999999999999999999999999998  


Q ss_pred             cCCCceeeEEEEeCCCCCCCCEEEECCCCcccceEEEEecceeeecccccCCCcceeccCCCccccceeeecceEEEEEE
Q 002427          369 DKVGKCIEEREIDALLIQSGDTLKVLPGTKLPADGIVVWGTSYVNESMVTGEAVPVLKEINSPVIGGTINLHGVLHIQAT  448 (924)
Q Consensus       369 ~~~g~~~~~~~i~~~~l~~GDii~v~~G~~iP~Dg~vl~G~~~Vdes~LTGEs~pv~k~~g~~v~aGt~~~~g~~~~~v~  448 (924)
                       |||   ++++|++++|+|||+|+|++||+|||||+|++|++.||||+|||||.|+.|++|+.+|+||++.+|.++++|+
T Consensus       217 -r~g---~~~~i~~~~l~~GDiv~v~~Ge~IPaDg~vl~G~~~VdeS~LTGES~pv~K~~g~~v~~Gt~~~~g~~~~~v~  292 (723)
T 3j09_A          217 -RDG---KEIAVPVEEVAVGDIVIVRPGEKIPVDGVVVEGESYVDESMISGEPVPVLKSKGDEVFGATINNTGVLKIRAT  292 (723)
T ss_dssp             -ETT---EEEEEEGGGCCTTCEEEECTTCBCCSEEEEEECCEEEECHHHHCCSSCEEECTTCEECTTCEECSSCEEEEEE
T ss_pred             -ECC---EEEEEEHHHCCCCCEEEECCCCEEeeEEEEEECCeEEecccccCCCcceeecCCCeeccceEEecCcEEEEEE
Confidence             677   6899999999999999999999999999999999999999999999999999999999999999999999999


Q ss_pred             EecChhHHHHHHHHHHHhhccCChhHHHHHHHHHhHHHHHHHHHHHHHHHHHHHhhcCCCCCcccCCCCccHHHHHHHHh
Q 002427          449 KVGSDAVLSQIISLVETAQMSKAPIQKFADFVASIFVPIVVTLALFTWLCWYVAGVLGAYPEQWLPENGTHFVFALMFSI  528 (924)
Q Consensus       449 ~~g~~t~~~~i~~~~~~~~~~~~~~~~~~~~~~~~~~~~~l~~a~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~i  528 (924)
                      ++|.+|.+++|.+++++++.+|+|+|+++|+++.+|+|++++++++++++|++..             ..+|..++.+++
T Consensus       293 ~~g~~T~l~~i~~lv~~a~~~k~~~~~~~d~~~~~~~~~vl~~a~~~~~~~~~~~-------------~~~~~~~~~~~i  359 (723)
T 3j09_A          293 RVGGETLLAQIVKLVEDAMGSKPPIQRLADKVVAYFIPTVLLVAISAFIYWYFIA-------------HAPLLFAFTTLI  359 (723)
T ss_dssp             ECGGGSHHHHHHHHHSSSCCSCCHHHHHHHHHHHHHHHHHHHHHHHHHTTSCSST-------------TCTTCCSHHHHH
T ss_pred             EecCccHHHHHHHHHHHhhccCChHHHHHHHHHHHHHHHHHHHHHHHHHHHHHhc-------------CCcHHHHHHHHH
Confidence            9999999999999999999999999999999999999999999999988765431             123445678999


Q ss_pred             hhhhhhcccccchhHHHHHHHHHHHHHhcCccccCchHHHHccCCcEEEecCCCccccCceEEEEEEecCCCCHHHHHHH
Q 002427          529 SVVVIACPCALGLATPTAVMVATGVGANNGVLIKGGDALERAQKIKYVIFDKTGTLTQGRATVTTAKVFTKMDRGEFLTL  608 (924)
Q Consensus       529 svlv~~~P~aL~la~p~~l~~~~~~~~~~gilvk~~~~lE~lg~v~~i~fDKTGTLT~~~~~v~~~~~~~~~~~~~~l~~  608 (924)
                      ++++++|||+|++++|+++..++.+++|+|+++|+++++|++|++|++|||||||||+|+|+|.++.+.+ .++++++.+
T Consensus       360 ~vlvia~P~aL~la~p~a~~~~~~~~a~~gilvk~~~~lE~lg~v~~i~fDKTGTLT~g~~~v~~~~~~~-~~~~~~l~~  438 (723)
T 3j09_A          360 AVLVVACPCAFGLATPTALTVGMGKGAELGILIKNADALEVAEKVTAVIFDKTGTLTKGKPEVTDLVPLN-GDERELLRL  438 (723)
T ss_dssp             HHHHHHSCTTHHHHHHHHHHHHHHHHHTTTCEESSTTHHHHGGGCCEEEEEHHHHTSCSCCEEEEEEESS-SCHHHHHHH
T ss_pred             HHHHhhhhHHHHHHHHHHHHHHHHHHHHCCeEEeChHHHHHhhcCCEEEEcCCCccccCceEEEEEEeCC-CCHHHHHHH
Confidence            9999999999999999999999999999999999999999999999999999999999999999999874 578889999


Q ss_pred             HHHHhcCCCChHHHHHHHHHHhcCCCCCCCCCCCCCCCccccCCCCcccccccceeecCCeEEEEEcCeEEEEeeHhhHh
Q 002427          609 VASAEASSEHPLAKAVVEYARHFHFFDDPSLNPDGQSHSKESTGSGWLLDVSDFSALPGRGIQCFISGKQVLVGNRKLLN  688 (924)
Q Consensus       609 ~~~~~~~s~hp~~~ai~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~g~gv~~~~~g~~~~ig~~~~~~  688 (924)
                      ++++|.+++||+++|+++++++.+.                     ......++++.+|+|+.+    ..+.+|+++++.
T Consensus       439 aa~~e~~s~hP~~~Ai~~~a~~~~~---------------------~~~~~~~~~~~~g~g~~~----~~~~~g~~~~~~  493 (723)
T 3j09_A          439 AAIAERRSEHPIAEAIVKKALEHGI---------------------ELGEPEKVEVIAGEGVVA----DGILVGNKRLME  493 (723)
T ss_dssp             HHHHHTTCCSHHHHHHHHHHHHTTC---------------------CCCSCCCCEEETTTEEEE----TTEEEECHHHHH
T ss_pred             HHHHhccCCCchhHHHHHHHHhcCC---------------------CcCCccceEEecCCceEE----EEEEECCHHHHH
Confidence            9999999999999999999987642                     123456788899999877    678899999999


Q ss_pred             hcCCCCChhhhHHHHHHHHcCCeEEEEEECCeEEEEEEecCCCcHhHHHHHHHHHHCCCeEEEEcCCCHHHHHHHHHHcC
Q 002427          689 ESGITIPDHVESFVVELEESARTGILVAYDDNLIGVMGIADPVKREAAVVVEGLLKMGVRPVMVTGDNWRTAHAVAREIG  768 (924)
Q Consensus       689 ~~~~~~~~~~~~~~~~~~~~g~~~i~va~~~~~lG~i~l~D~lr~~~~~~I~~L~~~gi~v~mlTGD~~~ta~~iA~~~g  768 (924)
                      +.+.+.+++..+..++++++|++++++++|++++|+++++|++||+++++|++||++|++++|+|||+..+|.++|+++|
T Consensus       494 ~~~~~~~~~~~~~~~~~~~~g~~~~~va~~~~~~G~i~i~D~~~~~~~~~i~~l~~~Gi~v~~~TGd~~~~a~~ia~~lg  573 (723)
T 3j09_A          494 DFGVAVSNEVELALEKLEREAKTAVIVARNGRVEGIIAVSDTLKESAKPAVQELKRMGIKVGMITGDNWRSAEAISRELN  573 (723)
T ss_dssp             HTTCCCCHHHHHHHHHHHTTTCEEEEEEETTEEEEEEEEECCSCTTHHHHHHHHHHTTCEEEEECSSCHHHHHHHHHHHT
T ss_pred             hcCCCccHHHHHHHHHHHhcCCeEEEEEECCEEEEEEeecCCcchhHHHHHHHHHHCCCEEEEECCCCHHHHHHHHHHcC
Confidence            99888888888888899999999999999999999999999999999999999999999999999999999999999999


Q ss_pred             CceEEeccChhhHHHHHHHHhhCCCEEEEEcCCcCCHHHHhcCCceEEecCChHHHHHhcCEEEecCChhHHHHHHHHHH
Q 002427          769 IQDVMADVMPAGKADAVRSFQKDGSIVAMVGDGINDSPALAAADVGMAIGAGTDIAIEAADYVLMRNSLEDVIIAIDLSR  848 (924)
Q Consensus       769 i~~v~a~~~P~~K~~~V~~lq~~g~~v~~vGDg~nD~~al~~A~vgia~~~~~~~a~~~ad~vl~~~~l~~l~~~i~~~r  848 (924)
                      |++++++++|+||.++|+.+|++ +.|+|+|||.||+|||++||||||||+|++.++++||++++++++..+++++++||
T Consensus       574 i~~~~~~~~P~~K~~~v~~l~~~-~~v~~vGDg~ND~~al~~A~vgiamg~g~~~a~~~AD~vl~~~~~~~i~~~i~~~r  652 (723)
T 3j09_A          574 LDLVIAEVLPHQKSEEVKKLQAK-EVVAFVGDGINDAPALAQADLGIAVGSGSDVAVESGDIVLIRDDLRDVVAAIQLSR  652 (723)
T ss_dssp             CSEEECSCCTTCHHHHHHHHTTT-CCEEEEECSSTTHHHHHHSSEEEECCCCSCCSSCCSSEECSSCCTTHHHHHHHHHH
T ss_pred             CcEEEccCCHHHHHHHHHHHhcC-CeEEEEECChhhHHHHhhCCEEEEeCCCcHHHHHhCCEEEeCCCHHHHHHHHHHHH
Confidence            99999999999999999999988 88999999999999999999999999999999999999999999999999999999


Q ss_pred             HHHHHHHHHHHHHHHHHHHHHHHHhhhhccccCCCccHHHHHHHhhhhhHhHhhhcccccccCCCCc
Q 002427          849 KTFARIRLNYIFAMAYNVIAIPIAAGVFFPSLGIKLPPWAAGACMALSSVSVVCSSLLLRRYKKPRL  915 (924)
Q Consensus       849 ~~~~~i~~n~~~~l~~n~~~i~~a~g~~~~~~g~~l~p~~a~~~m~~ss~~v~~ns~~l~~~~~~~~  915 (924)
                      +++++|+||+.|+++||++++|+|+++++|++|+.++||+|+++|.+||++|++||+||+++++|..
T Consensus       653 ~~~~~i~~nl~~a~~~n~~~i~~a~~~~~~~~g~~l~p~~a~~~m~~ss~~vv~nslrl~~~~~~~~  719 (723)
T 3j09_A          653 KTMSKIKQNIFWALIYNVILIPAAAGLLYPIFGVVFRPEFAGLAMAMSSVSVVANSLLLRNYVPPIR  719 (723)
T ss_dssp             HHHHHHHHHHHHHHHHHHHHHHHHHHTTSSCCCCSCCHHHHHHHHHTHHHHHHHHTTSCCCCSCSTT
T ss_pred             HHHHHHHHHHHHHHHHHHHHHHHHHHhhhhccccccCHHHHHHHHhccHHHHHHHHHHhccCCCchh
Confidence            9999999999999999999999999999999999999999999999999999999999999987653
>3rfu_A Copper efflux ATPase; alpha helical, CPC, CXXC, ATP-binding, hydrolase, ION transp magnesium, Cu+, membrane, metal-binding; 3.20A {Legionella pneumophila subsp} Back     alignment and structure
>3j08_A COPA, copper-exporting P-type ATPase A; copper transporter, adenosine triphosph archaeal proteins, cation transport proteins; 10.00A {Archaeoglobus fulgidus} Back     alignment and structure
>1mhs_A Proton pump, plasma membrane ATPase; ION transport, membrane protein, P-type ATPase, active transport, cryo-electron microscopy; 8.00A {Neurospora crassa} SCOP: i.18.1.1 Back     alignment and structure
>3b8c_A ATPase 2, plasma membrane-type; P-type ATPase, proton pump, ATP-binding, hydrogen ION transport, hydrolase, ION transport; HET: ACP; 3.60A {Arabidopsis thaliana} Back     alignment and structure
>2zxe_A Na, K-ATPase alpha subunit; membrane protein, ION pump, ATPase, K+ binding, haloacid dehydrogenease superfamily, phosphate analogue; HET: CLR NAG NDG; 2.40A {Squalus acanthias} PDB: 3a3y_A* 3b8e_A* 3kdp_A* 3n2f_A* 3n23_A* 1mo7_A 1mo8_A* 1q3i_A Back     alignment and structure
>3ar4_A Sarcoplasmic/endoplasmic reticulum calcium ATPase; P-type ATPase, hydrolase, calcium transport, calcium binding binding; HET: ATP TG1 PTY; 2.15A {Oryctolagus cuniculus} PDB: 2ear_A* 2eas_A* 2eat_A* 2eau_A* 2dqs_A* 2zbe_A 2zbf_A* 2zbg_A* 3ar2_A* 2zbd_A* 3ar3_A* 3ar5_A* 3ar6_A* 3ar7_A* 3ar8_A* 3ar9_A* 3n5k_A* 1kju_A 1iwo_A 1t5s_A* ... Back     alignment and structure
>3ixz_A Potassium-transporting ATPase alpha; ION pump, H+, K+-ATPase, P-type ATPase, membrane protein, hydrolase, aluminium fluoride, ATP-binding; 6.50A {Sus scrofa} PDB: 2yn9_A 2xzb_A 1iwc_A 1iwf_A Back     alignment and structure
>2yj3_A Copper-transporting ATPase; hydrolase, P-type ATPase, COPB, heavy metal translocation; 2.20A {Sulfolobus solfataricus} PDB: 2iye_A 2yj6_A* 2yj5_A* 2yj4_A* Back     alignment and structure
>3a1c_A Probable copper-exporting P-type ATPase A; ATP-binding, cell membrane, copper transport, hydrolase, ION transport, magnesium, membrane; HET: ACP; 1.85A {Archaeoglobus fulgidus} PDB: 3a1d_A* 3a1e_A* 2b8e_A 2voy_J 2voy_I Back     alignment and structure
>3skx_A Copper-exporting P-type ATPase B; P1B-ATPase, ATP binding domain, copper(II) transporter, MEMB protein, hydrolase; 1.59A {Archaeoglobus fulgidus} PDB: 3sky_A* Back     alignment and structure
>2hc8_A PACS, cation-transporting ATPase, P-type; copper, COPA, COPB, actuator, transport protein; 1.65A {Archaeoglobus fulgidus} PDB: 2voy_F Back     alignment and structure
>2kij_A Copper-transporting ATPase 1; actuator, menkes disease, alternative splicing, ATP-binding, cell membrane, cytoplasm, disease mutation; NMR {Homo sapiens} Back     alignment and structure
>4fe3_A Cytosolic 5'-nucleotidase 3; substrate complex, HAD-like, protein binding; HET: U5P; 1.74A {Mus musculus} PDB: 2g09_A* 2bdu_A* 2g08_A 2g06_A* 2g0a_A* 2q4t_A* 2g07_A* 2jga_A 2vkq_A 2cn1_A Back     alignment and structure
>2ew9_A Copper-transporting ATPase 2; copper trafficking, ferrodoxin-like fold, structural genomics, structural proteomics in europe, spine, hydrolase; NMR {Homo sapiens} Back     alignment and structure
>1p6t_A Potential copper-transporting ATPase; COPA, P-type ATPase, water-soluble region, beta-alpha-beta- beta-alpha-beta fold; NMR {Bacillus subtilis} SCOP: d.58.17.1 d.58.17.1 PDB: 2rml_A Back     alignment and structure
>2kmv_A Copper-transporting ATPase 1; menkes, nucleotide binding protein, alternative splicing, ATP-binding, cell membrane, cytoplasm, disease mutation; NMR {Homo sapiens} PDB: 2kmx_A* Back     alignment and structure
>2rop_A Copper-transporting ATPase 2; wilson protein, mobility, protein-protein interaction, alternative splicing, ATP-binding, copper transport cytoplasm; NMR {Homo sapiens} Back     alignment and structure
>1svj_A Potassium-transporting ATPase B chain; alpha-beta sandwich, hydrolase; NMR {Escherichia coli} SCOP: d.220.1.1 PDB: 1u7q_A 2a00_A* 2a29_A* Back     alignment and structure
>3mn1_A Probable YRBI family phosphatase; structural genomics, PSI, protein structure initiative, NYSG phosphatase; 1.80A {Pseudomonas syringae PV} PDB: 3nrj_A Back     alignment and structure
>2arf_A Wilson disease ATPase; P-type ATPase,ATP7B, copper transport, nucleotide binding, ATP binding, hydrolase; NMR {Homo sapiens} PDB: 2koy_A Back     alignment and structure
>3n28_A Phosphoserine phosphatase; HAD family hydrolase, structural genomics, PSI, protein STRU initiative, nysgrc; 2.30A {Vibrio cholerae} Back     alignment and structure
>1k1e_A Deoxy-D-mannose-octulosonate 8-phosphate phosphat; structural genomics, KDO 8-P phosphatase, structure function project, S2F; HET: MES; 1.67A {Haemophilus influenzae RD} SCOP: c.108.1.5 PDB: 1j8d_A* Back     alignment and structure
>3n1u_A Hydrolase, HAD superfamily, subfamily III A; structural genomics, PSI-2; 1.80A {Legionella pneumophila} SCOP: c.108.1.0 Back     alignment and structure
>3n07_A 3-deoxy-D-manno-octulosonate 8-phosphate phosphat; structural genomics, phosphatase, PSI-2, protein structure initiative; HET: MSE; 1.76A {Vibrio cholerae} Back     alignment and structure
>3mmz_A Putative HAD family hydrolase; structural genomics, protein structure initiative, NEW YORK structural genomix research consortium; 1.84A {Streptomyces avermitilis} Back     alignment and structure
>3ij5_A 3-deoxy-D-manno-octulosonate 8-phosphate phosphat; IDP022 hydrolase, lipopolysaccharide biosynthesis, magnesium, STRU genomics; 1.95A {Yersinia pestis} Back     alignment and structure
>3ewi_A N-acylneuraminate cytidylyltransferase; beta barrel, HAD-like, rossmannoid fold, nucleotidyltransferase, nucleus; 1.90A {Mus musculus} Back     alignment and structure
>3dxs_X Copper-transporting ATPase RAN1; CXXC motif, ferredoxin-like fold, ATP- binding, ethylene signaling pathway, hydrolase, ION transport; 1.70A {Arabidopsis thaliana} SCOP: d.58.17.0 Back     alignment and structure
>1l6r_A Hypothetical protein TA0175; structural genomics, putative hydrolas midwest center for structural genomics, MCSG, PSI; 1.40A {Thermoplasma acidophilum} SCOP: c.108.1.10 PDB: 1kyt_A Back     alignment and structure
>3dxs_X Copper-transporting ATPase RAN1; CXXC motif, ferredoxin-like fold, ATP- binding, ethylene signaling pathway, hydrolase, ION transport; 1.70A {Arabidopsis thaliana} SCOP: d.58.17.0 Back     alignment and structure
>4a4j_A Pacszia, cation-transporting ATPase PACS; hydrolase, copper homeostasis, zinc homeostasis, ATX1, metal-transporting atpases; 1.25A {Synechocystis} PDB: 4a48_A 2gcf_A 2xmw_A Back     alignment and structure
>3e8m_A Acylneuraminate cytidylyltransferase; 2-keto-3-deoxynononic acid 9-phosphate phosphohydrolase, nucleotidyltransferase; HET: PEG PG4 EDO PGE; 1.10A {Bacteroides thetaiotaomicron} PDB: 3e84_A 3e81_A* Back     alignment and structure
>4a4j_A Pacszia, cation-transporting ATPase PACS; hydrolase, copper homeostasis, zinc homeostasis, ATX1, metal-transporting atpases; 1.25A {Synechocystis} PDB: 4a48_A 2gcf_A 2xmw_A Back     alignment and structure
>3p96_A Phosphoserine phosphatase SERB; ssgcid, structural genomics, structural genomics center for infectious disease, hydrolas; 2.05A {Mycobacterium avium} Back     alignment and structure
>3fry_A Probable copper-exporting P-type ATPase A; transport protein, metal binding domain, domain SWAP, ATP-BI cell membrane, copper transport; HET: CIT; 2.00A {Archaeoglobus fulgidus} Back     alignment and structure
>3iwl_A Copper transport protein ATOX1; beta-alpha-beta-BETA-alpha-beta, cisplatin, platinum, chaperone, ION transport, metal-binding, metal transport; HET: TCE; 1.60A {Homo sapiens} SCOP: d.58.17.1 PDB: 1fe4_A* 1fee_A* 1tl4_A 1tl5_A 2k1r_B 1fe0_A* 3iwx_A 3cjk_A Back     alignment and structure
>2r8e_A 3-deoxy-D-manno-octulosonate 8-phosphate phosphatase; YRBI, divalent metal, HAD superfamily, KDO 8-P, hydrolase; 1.40A {Escherichia coli O6} PDB: 2r8x_A 2r8y_A 2r8z_A 3hyc_A 3i6b_A* Back     alignment and structure
>2g9o_A Copper-transporting ATPase 1; menkes disease, solution structure, structural genomics, structural proteomics in europe, spine, hydrolase; NMR {Homo sapiens} PDB: 2ga7_A Back     alignment and structure
>2l3m_A Copper-ION-binding protein; structural genomics, center for structural genomics of infec diseases, csgid, metal binding protein; NMR {Bacillus anthracis} Back     alignment and structure
>3m1y_A Phosphoserine phosphatase (SERB); NYSGXRC, PSI II, phophoserine phosphatase, protein structure initiative, structural genomics; 2.40A {Helicobacter pylori} SCOP: c.108.1.0 Back     alignment and structure
>3fry_A Probable copper-exporting P-type ATPase A; transport protein, metal binding domain, domain SWAP, ATP-BI cell membrane, copper transport; HET: CIT; 2.00A {Archaeoglobus fulgidus} Back     alignment and structure
>1q8l_A Copper-transporting ATPase 1; metal binding protein; NMR {Homo sapiens} SCOP: d.58.17.1 PDB: 1s6o_A 1s6u_A Back     alignment and structure
>1osd_A MERP, hypothetical protein MERP; mercury resistance, metal binding protein, perisplasm, structural genomics; 2.00A {Cupriavidus metallidurans} SCOP: d.58.17.1 PDB: 1afi_A 1afj_A 2hqi_A Back     alignment and structure
>3iwl_A Copper transport protein ATOX1; beta-alpha-beta-BETA-alpha-beta, cisplatin, platinum, chaperone, ION transport, metal-binding, metal transport; HET: TCE; 1.60A {Homo sapiens} SCOP: d.58.17.1 PDB: 1fe4_A* 1fee_A* 1tl4_A 1tl5_A 2k1r_B 1fe0_A* 3iwx_A 3cjk_A Back     alignment and structure
>4eze_A Haloacid dehalogenase-like hydrolase; magnesium binding site, enzyme function initiativ; 2.27A {Salmonella enterica subsp} Back     alignment and structure
>1osd_A MERP, hypothetical protein MERP; mercury resistance, metal binding protein, perisplasm, structural genomics; 2.00A {Cupriavidus metallidurans} SCOP: d.58.17.1 PDB: 1afi_A 1afj_A 2hqi_A Back     alignment and structure
>1cpz_A Protein (COPZ); copper chaperone, metal transport, gene regulation; NMR {Enterococcus hirae} SCOP: d.58.17.1 Back     alignment and structure
>1kvi_A Copper-transporting ATPase 1; menkes, Cu-protein, hydrolase; NMR {Homo sapiens} SCOP: d.58.17.1 PDB: 1kvj_A Back     alignment and structure
>3cjk_B Copper-transporting ATPase 1; HAH1, ATP7B, menkes disease, metal homeostasis, chaperone, ION transport, metal- binding, alternative splicing; 1.80A {Homo sapiens} PDB: 2k1r_A Back     alignment and structure
>1kvi_A Copper-transporting ATPase 1; menkes, Cu-protein, hydrolase; NMR {Homo sapiens} SCOP: d.58.17.1 PDB: 1kvj_A Back     alignment and structure
>2l3m_A Copper-ION-binding protein; structural genomics, center for structural genomics of infec diseases, csgid, metal binding protein; NMR {Bacillus anthracis} Back     alignment and structure
>2p9j_A Hypothetical protein AQ2171; secsg, riken, PSI, structural GENO protein structure initiative, southeast collaboratory for S genomics; 2.40A {Aquifex aeolicus} Back     alignment and structure
>1aw0_A Menkes copper-transporting ATPase; copper-binding domain, hydrolase; NMR {Homo sapiens} SCOP: d.58.17.1 PDB: 2aw0_A Back     alignment and structure
>2qif_A Copper chaperone COPZ; tetranuclear Cu(I) cluster; 1.50A {Bacillus subtilis} SCOP: d.58.17.1 PDB: 3i9z_A 1k0v_A 1p8g_A Back     alignment and structure
>1q8l_A Copper-transporting ATPase 1; metal binding protein; NMR {Homo sapiens} SCOP: d.58.17.1 PDB: 1s6o_A 1s6u_A Back     alignment and structure
>2xmw_A PACS-N, cation-transporting ATPase PACS; hydrolase, Cu(I)-binding, trafficking; 1.80A {Synechocystis SP} PDB: 2gcf_A Back     alignment and structure
>1y3j_A Copper-transporting ATPase 1; ferrodoxin-like fold, beta-alpha-beta-BETA-alpha-beta structure, structural proteomics in europe, spine; NMR {Homo sapiens} PDB: 1y3k_A Back     alignment and structure
>2kt2_A Mercuric reductase; nmera, MERA, HMA domain, mercuric resist metal-binding, oxidoreductase; NMR {Pseudomonas aeruginosa} PDB: 2kt3_A Back     alignment and structure
>4ap9_A Phosphoserine phosphatase; hydrolase, haloacid dehalogenase superfamily, NDSB; HET: 1PS; 1.78A {Thermococcus onnurineus} PDB: 4b6j_A Back     alignment and structure
>1l7m_A Phosphoserine phosphatase; rossmann fold, four-helix bundle, B-hairpin, structural genomics, BSGC structure funded by NIH; 1.48A {Methanocaldococcus jannaschii} SCOP: c.108.1.4 PDB: 1f5s_A 1l7n_A 1l7p_A* 1l7o_A* 1j97_A* Back     alignment and structure
>1y3j_A Copper-transporting ATPase 1; ferrodoxin-like fold, beta-alpha-beta-BETA-alpha-beta structure, structural proteomics in europe, spine; NMR {Homo sapiens} PDB: 1y3k_A Back     alignment and structure
>3cjk_B Copper-transporting ATPase 1; HAH1, ATP7B, menkes disease, metal homeostasis, chaperone, ION transport, metal- binding, alternative splicing; 1.80A {Homo sapiens} PDB: 2k1r_A Back     alignment and structure
>1mwy_A ZNTA; open-faced beta-sandwich fold, beta-alpha-beta-BETA-alpha- beta, hydrolase; NMR {Escherichia coli} SCOP: d.58.17.1 PDB: 1mwz_A Back     alignment and structure
>2xmw_A PACS-N, cation-transporting ATPase PACS; hydrolase, Cu(I)-binding, trafficking; 1.80A {Synechocystis SP} PDB: 2gcf_A Back     alignment and structure
>2ldi_A Zinc-transporting ATPase; metal homeostasis, metallochaperones, hydrolase; NMR {Synechocystis SP} Back     alignment and structure
>1opz_A Potential copper-transporting ATPase; mutation, folding, abbab fold, hydrolase; NMR {Bacillus subtilis} SCOP: d.58.17.1 PDB: 1oq3_A 1oq6_A Back     alignment and structure
>2g9o_A Copper-transporting ATPase 1; menkes disease, solution structure, structural genomics, structural proteomics in europe, spine, hydrolase; NMR {Homo sapiens} PDB: 2ga7_A Back     alignment and structure
>2qif_A Copper chaperone COPZ; tetranuclear Cu(I) cluster; 1.50A {Bacillus subtilis} SCOP: d.58.17.1 PDB: 3i9z_A 1k0v_A 1p8g_A Back     alignment and structure
>1yjr_A Copper-transporting ATPase 1; metallochaperone, protein-protein interaction, copper(I), metal homeostasis, structural proteomics in europe, spine; NMR {Homo sapiens} PDB: 1yjt_A 1yju_A 1yjv_A Back     alignment and structure
>1yg0_A COP associated protein; open-faced beta-sandwich, missing C-terminal beta-sheet, Met transport; NMR {Helicobacter pylori} Back     alignment and structure
>1aw0_A Menkes copper-transporting ATPase; copper-binding domain, hydrolase; NMR {Homo sapiens} SCOP: d.58.17.1 PDB: 2aw0_A Back     alignment and structure
>1y8a_A Hypothetical protein AF1437; structural genomics, protein structu initiative, PSI, midwest center for structural genomics; 1.40A {Archaeoglobus fulgidus} SCOP: c.108.1.24 Back     alignment and structure
>1cpz_A Protein (COPZ); copper chaperone, metal transport, gene regulation; NMR {Enterococcus hirae} SCOP: d.58.17.1 Back     alignment and structure
>1mwy_A ZNTA; open-faced beta-sandwich fold, beta-alpha-beta-BETA-alpha- beta, hydrolase; NMR {Escherichia coli} SCOP: d.58.17.1 PDB: 1mwz_A Back     alignment and structure
>2ldi_A Zinc-transporting ATPase; metal homeostasis, metallochaperones, hydrolase; NMR {Synechocystis SP} Back     alignment and structure
>1yg0_A COP associated protein; open-faced beta-sandwich, missing C-terminal beta-sheet, Met transport; NMR {Helicobacter pylori} Back     alignment and structure
>1opz_A Potential copper-transporting ATPase; mutation, folding, abbab fold, hydrolase; NMR {Bacillus subtilis} SCOP: d.58.17.1 PDB: 1oq3_A 1oq6_A Back     alignment and structure
>1jww_A Potential copper-transporting ATPase; beta-alpha-beta-BETA-alpha-beta, hydrolase; NMR {Bacillus subtilis} SCOP: d.58.17.1 PDB: 2voy_A 1kqk_A Back     alignment and structure
>1yjr_A Copper-transporting ATPase 1; metallochaperone, protein-protein interaction, copper(I), metal homeostasis, structural proteomics in europe, spine; NMR {Homo sapiens} PDB: 1yjt_A 1yju_A 1yjv_A Back     alignment and structure
>1fvq_A Copper-transporting ATPase; APO-CCC2A, hydrolase; NMR {Saccharomyces cerevisiae} SCOP: d.58.17.1 PDB: 1fvs_A 2ggp_B Back     alignment and structure
>1rku_A Homoserine kinase; phosphoserine phosphatase, phosphoserine:homoserine phosphotransferase, THRH, phosphoserine phosphoryl donor; 1.47A {Pseudomonas aeruginosa} SCOP: c.108.1.11 PDB: 1rkv_A Back     alignment and structure
>2kt2_A Mercuric reductase; nmera, MERA, HMA domain, mercuric resist metal-binding, oxidoreductase; NMR {Pseudomonas aeruginosa} PDB: 2kt3_A Back     alignment and structure
>1fvq_A Copper-transporting ATPase; APO-CCC2A, hydrolase; NMR {Saccharomyces cerevisiae} SCOP: d.58.17.1 PDB: 1fvs_A 2ggp_B Back     alignment and structure
>1cc8_A Protein (metallochaperone ATX1); copper transport, mercury coordination, metal transport; 1.02A {Saccharomyces cerevisiae} SCOP: d.58.17.1 PDB: 1cc7_A 1fd8_A 1fes_A 2ggp_A 3k7r_A Back     alignment and structure
>1jww_A Potential copper-transporting ATPase; beta-alpha-beta-BETA-alpha-beta, hydrolase; NMR {Bacillus subtilis} SCOP: d.58.17.1 PDB: 2voy_A 1kqk_A Back     alignment and structure
>4dw8_A Haloacid dehalogenase-like hydrolase; HAD, putative phosphatase, enzyme function initiative, EFI, structural genomics; 1.50A {Bacteroides thetaiotaomicron} PDB: 3niw_A 4dwo_A Back     alignment and structure
>2kkh_A Putative heavy metal transporter; zinc transport, metal binding, metal selectivity, ferredoxin fold, ATP-binding, hydrolase; NMR {Arabidopsis thaliana} Back     alignment and structure
>3kd3_A Phosphoserine phosphohydrolase-like protein; csgid, niaid, S genomics, national institute of allergy and infectious DISE (niaid); 1.70A {Francisella tularensis subsp} Back     alignment and structure
>2kkh_A Putative heavy metal transporter; zinc transport, metal binding, metal selectivity, ferredoxin fold, ATP-binding, hydrolase; NMR {Arabidopsis thaliana} Back     alignment and structure
>1cc8_A Protein (metallochaperone ATX1); copper transport, mercury coordination, metal transport; 1.02A {Saccharomyces cerevisiae} SCOP: d.58.17.1 PDB: 1cc7_A 1fd8_A 1fes_A 2ggp_A 3k7r_A Back     alignment and structure
>2roe_A Heavy metal binding protein; NMR {Thermus thermophilus} PDB: 2rog_A Back     alignment and structure
>3pgv_A Haloacid dehalogenase-like hydrolase; structural genomics, joint center for structural genomics, J protein structure initiative; HET: EPE; 2.39A {Klebsiella pneumoniae subsp} Back     alignment and structure
>3dnp_A Stress response protein YHAX; structural PSI-2, protein structure initiative, midwest center for STR genomics, MCSG, unknown function; HET: MSE; 1.85A {Bacillus subtilis} SCOP: c.108.1.0 Back     alignment and structure
>2crl_A Copper chaperone for superoxide dismutase; SOD1, familial ALS, structural genomics, NPPSFA; NMR {Homo sapiens} Back     alignment and structure
>2kyz_A Heavy metal binding protein; structural genomics, PSI-biology, protein structure initiative, joint for structural genomics, JCSG; NMR {Thermotoga maritima} Back     alignment and structure
>2k2p_A Uncharacterized protein ATU1203; putative metal-binding domain ATU1203, ontario centre for ST proteomics, structural genomics; NMR {Agrobacterium tumefaciens str} Back     alignment and structure
>1p6t_A Potential copper-transporting ATPase; COPA, P-type ATPase, water-soluble region, beta-alpha-beta- beta-alpha-beta fold; NMR {Bacillus subtilis} SCOP: d.58.17.1 d.58.17.1 PDB: 2rml_A Back     alignment and structure
>2k2p_A Uncharacterized protein ATU1203; putative metal-binding domain ATU1203, ontario centre for ST proteomics, structural genomics; NMR {Agrobacterium tumefaciens str} Back     alignment and structure
>3dao_A Putative phosphatse; structural genomics, joint center for S genomics, JCSG, protein structure initiative, PSI-2, hydrol; HET: MSE 1PE CIT; 1.80A {Eubacterium rectale} Back     alignment and structure
>3m9l_A Hydrolase, haloacid dehalogenase-like family; HAD family hydrolase, structural genomics, PSI, protein structure initiative; HET: MSE; 1.60A {Pseudomonas fluorescens} PDB: 2ybd_A* 3r09_A* Back     alignment and structure
>2roe_A Heavy metal binding protein; NMR {Thermus thermophilus} PDB: 2rog_A Back     alignment and structure
>2ew9_A Copper-transporting ATPase 2; copper trafficking, ferrodoxin-like fold, structural genomics, structural proteomics in europe, spine, hydrolase; NMR {Homo sapiens} Back     alignment and structure
>2xmm_A SSR2857 protein, ATX1; metal transport, copper homeostasis, chaperone, P-type atpas; 1.65A {Synechocystis SP} PDB: 2xmv_A 1sb6_A 2xmj_A 2xmk_A 2xmt_A 2xmu_A Back     alignment and structure
>2kyz_A Heavy metal binding protein; structural genomics, PSI-biology, protein structure initiative, joint for structural genomics, JCSG; NMR {Thermotoga maritima} Back     alignment and structure
>3fvv_A Uncharacterized protein; unknown function, structural genomics, PSI,MCSG, protein STR initiative, midwest center for structural genomics; 2.10A {Bordetella pertussis} Back     alignment and structure
>2xmm_A SSR2857 protein, ATX1; metal transport, copper homeostasis, chaperone, P-type atpas; 1.65A {Synechocystis SP} PDB: 2xmv_A 1sb6_A 2xmj_A 2xmk_A 2xmt_A 2xmu_A Back     alignment and structure
>4ex6_A ALNB; modified rossman fold, phosphatase, magnesium binding, hydro; 1.25A {Streptomyces SP} PDB: 4ex7_A Back     alignment and structure
>3mpo_A Predicted hydrolase of the HAD superfamily; SGX, PSI, structural genomics, protein structure initiative; 2.90A {Lactobacillus brevis} SCOP: c.108.1.0 Back     alignment and structure
>1nnl_A L-3-phosphoserine phosphatase; PSP, HPSP, phospho-aspartyl, hydrolase; 1.53A {Homo sapiens} SCOP: c.108.1.4 PDB: 1l8l_A* 1l8o_A Back     alignment and structure
>2crl_A Copper chaperone for superoxide dismutase; SOD1, familial ALS, structural genomics, NPPSFA; NMR {Homo sapiens} Back     alignment and structure
>3mc1_A Predicted phosphatase, HAD family; PSI2, NYSGXRC, structural genomics, protein structure initiative; 1.93A {Clostridium acetobutylicum} SCOP: c.108.1.0 Back     alignment and structure
>2pq0_A Hypothetical conserved protein GK1056; hyopthetical protein, structural genomics, unknown function; 2.60A {Geobacillus kaustophilus} PDB: 2qyh_A Back     alignment and structure
>1swv_A Phosphonoacetaldehyde hydrolase; HAD enzyme superfamily, phosphonotase, metal binding; 2.30A {Bacillus cereus} SCOP: c.108.1.3 PDB: 1sww_A 2iof_A* 2ioh_A 1rql_A 1rqn_A 2iof_K* 1rdf_A 1fez_A Back     alignment and structure
>2rop_A Copper-transporting ATPase 2; wilson protein, mobility, protein-protein interaction, alternative splicing, ATP-binding, copper transport cytoplasm; NMR {Homo sapiens} Back     alignment and structure
>1wr8_A Phosphoglycolate phosphatase; alpha / beta core domain, HAD superfamily, structural genomi structural genomics/proteomics initiative, RSGI; 1.60A {Pyrococcus horikoshii} SCOP: c.108.1.10 Back     alignment and structure
>1rkq_A Hypothetical protein YIDA; two domain structure with beta-alpha sandwich. stucture contains A magnesium ION., PSI, protein structure initiative; 1.40A {Escherichia coli} SCOP: c.108.1.10 Back     alignment and structure
>3r4c_A Hydrolase, haloacid dehalogenase-like hydrolase; haloalkanoate dehalogenase enzyme superfamily, phosphohydrol hydrolase; 1.82A {Bacteroides thetaiotaomicron} SCOP: c.108.1.0 Back     alignment and structure
>3fzq_A Putative hydrolase; YP_001086940.1, putative haloacid dehalogenase-like hydrolas structural genomics, joint center for structural genomics; HET: MSE; 2.10A {Clostridium difficile} SCOP: c.108.1.0 Back     alignment and structure
>3l7y_A Putative uncharacterized protein SMU.1108C; hydrolase; 2.00A {Streptococcus mutans} Back     alignment and structure
>2aj0_A Probable cadmium-transporting ATPase; ferrodoxin-like fold, beta-alpha-beta-BETA-alpha-beta, metal binding protein, hydrolase; NMR {Listeria monocytogenes} PDB: 2aj1_A Back     alignment and structure
>3s6j_A Hydrolase, haloacid dehalogenase-like family; structural genomics, PSI-2; 2.20A {Pseudomonas syringae PV} Back     alignment and structure
>2aj0_A Probable cadmium-transporting ATPase; ferrodoxin-like fold, beta-alpha-beta-BETA-alpha-beta, metal binding protein, hydrolase; NMR {Listeria monocytogenes} PDB: 2aj1_A Back     alignment and structure
>3l8h_A Putative haloacid dehalogenase-like hydrolase; HAD superfamily, GMHB, D-glycero-D-manno-heptose-1, 7-bispho phosphatase; HET: FX1; 1.68A {Bordetella bronchiseptica} Back     alignment and structure
>1te2_A Putative phosphatase; structural genomics, phosphates, PSI, protein S initiative, midwest center for structural genomics, MCSG; HET: MSE; 1.76A {Escherichia coli} SCOP: c.108.1.6 Back     alignment and structure
>2hsz_A Novel predicted phosphatase; structural genomics, joint center for structural genomics, J protein structure initiative, PSI-2; HET: UNL; 1.90A {Haemophilus somnus 129PT} SCOP: c.108.1.6 Back     alignment and structure
>3sd7_A Putative phosphatase; structural genomics, haloacid dehalogenase-like hydrolase, H center for structural genomics of infectious diseases; HET: PGE; 1.70A {Clostridium difficile} Back     alignment and structure
>4gxt_A A conserved functionally unknown protein; structural genomics, PSI-biology; 1.82A {Anaerococcus prevotii} Back     alignment and structure
>3gyg_A NTD biosynthesis operon putative hydrolase NTDB; PF05116, PF08282, MCSG, PSI-2, haloacid dehalogenase-like HY structural genomics; 2.45A {Bacillus subtilis subsp} Back     alignment and structure
>3j09_A COPA, copper-exporting P-type ATPase A; copper transporter, adenosine triphosph archaeal proteins, cation transport proteins; 10.00A {Archaeoglobus fulgidus} Back     alignment and structure
>2nyv_A Pgpase, PGP, phosphoglycolate phosphatase; structural genomics, PSI-2, protein structure initiative; 2.10A {Aquifex aeolicus} PDB: 2yy6_A Back     alignment and structure
>3kzx_A HAD-superfamily hydrolase, subfamily IA, variant; ssgcid, NIH, niaid, SBRI, UW, emerald biostructures, ehrlich chaffeensis; 1.90A {Ehrlichia chaffeensis} Back     alignment and structure
>3u26_A PF00702 domain protein; structural genomics, PSI-biology, northeast structural genom consortium, NESG, unknown function; 1.59A {Pyrococcus horikoshii} SCOP: c.108.1.1 PDB: 1x42_A Back     alignment and structure
>2fea_A 2-hydroxy-3-keto-5-methylthiopentenyl-1-phosphate phosphatase; 2633731, structural genomics, joint center for structural GE JCSG; HET: MSE; 2.00A {Bacillus subtilis} SCOP: c.108.1.20 Back     alignment and structure
>3nas_A Beta-PGM, beta-phosphoglucomutase; PSI, structural genomics, protein structure initiative, NEW research center for structural genomics; 3.00A {Bacillus subtilis} Back     alignment and structure
>2go7_A Hydrolase, haloacid dehalogenase-like family; structural genomics, joint center for structural genomics, J protein structure initiative; 2.10A {Streptococcus pneumoniae} SCOP: c.108.1.6 Back     alignment and structure
>3d6j_A Putative haloacid dehalogenase-like hydrolase; structural genomics, PSI-2, protein structure initiative; 2.00A {Bacteroides fragilis nctc 9343} Back     alignment and structure
>3umb_A Dehalogenase-like hydrolase; 2.20A {Ralstonia solanacearum} Back     alignment and structure
>1rlm_A Phosphatase; HAD family, rossman fold, hydrolase; 1.90A {Escherichia coli} SCOP: c.108.1.10 PDB: 1rlt_A 1rlo_A* 2hf2_A Back     alignment and structure
>3um9_A Haloacid dehalogenase, type II; haloacid dehalogenase-like hydrolase protein superfamily, defluorinase, hydrolase; 2.19A {Polaromonas SP} Back     alignment and structure
>4eek_A Beta-phosphoglucomutase-related protein; hydrolase, magnesium binding site, enzyme function initiativ; 1.60A {Deinococcus radiodurans} PDB: 4eel_A* 4een_A Back     alignment and structure
>2hcf_A Hydrolase, haloacid dehalogenase-like family; NP_662590.1, ST genomics, PSI-2, protein structure initiative; 1.80A {Chlorobaculum tepidum} SCOP: c.108.1.6 Back     alignment and structure
>2wf7_A Beta-PGM, beta-phosphoglucomutase; transition state analogue, haloacid dehalogenase superfamily, isomerase, phosphotransferase; HET: G7P; 1.05A {Lactococcus lactis} PDB: 1o03_A* 1z4n_A* 1z4o_A* 1zol_A 2wf5_A* 2wf6_A* 1o08_A* 2wf8_A* 2wf9_A* 2wfa_A 2whe_A 1lvh_A* 3fm9_A Back     alignment and structure
>3iru_A Phoshonoacetaldehyde hydrolase like protein; phosphonoacetaldehyde hydrolase like P structural genomics, PSI-2, protein structure initiative; 2.30A {Oleispira antarctica} SCOP: c.108.1.0 Back     alignment and structure
>3nuq_A Protein SSM1, putative nucleotide phosphatase; suppresses the 6-AU sensitivity of transcription elongation II; 1.70A {Saccharomyces cerevisiae} PDB: 3onn_A 3opx_A* Back     alignment and structure
>3e58_A Putative beta-phosphoglucomutase; structu genomics, PSI-2, protein structure initiative, midwest CENT structural genomics; 1.86A {Streptococcus thermophilus lmg 18311} Back     alignment and structure
>1nf2_A Phosphatase; structural proteomics, HAD NEW fold, structural genomics, BSGC structure funded by NIH structure initiative, PSI; 2.20A {Thermotoga maritima} SCOP: c.108.1.10 Back     alignment and structure
>2hoq_A Putative HAD-hydrolase PH1655; haloacid dehalogenase, structural genomics, NPPSFA, national on protein structural and functional analyses; 1.70A {Pyrococcus horikoshii} Back     alignment and structure
>3dv9_A Beta-phosphoglucomutase; structural genomics, APC60149, PSI- protein structure initiative, midwest center for structural genomics, MCSG; HET: MSE; 1.72A {Bacteroides vulgatus} Back     alignment and structure
>3qxg_A Inorganic pyrophosphatase; hydrolase, magnesium binding site, NEW YORK research center for structural genomics; HET: TLA; 1.24A {Bacteroides thetaiotaomicron} PDB: 3qu2_A* 3qx7_A 3quq_A* 3r9k_A 3qut_A 3qu9_A* 3qu7_A 3qu5_A 3qyp_A 3quc_A 3qub_A 3qu4_A Back     alignment and structure
>2om6_A Probable phosphoserine phosphatase; rossmann fold, B-hairpin, four-helix bundle, structural GENO NPPSFA; 2.20A {Pyrococcus horikoshii} Back     alignment and structure
>1jk9_B CCS, copper chaperone for superoxide dismutase; protein-protein complex, heterodimer, metallochaperone, amyotrophic lateral sclerosis; 2.90A {Saccharomyces cerevisiae} SCOP: b.1.8.1 d.58.17.1 Back     alignment and structure
>2no4_A (S)-2-haloacid dehalogenase IVA; HAD superfamily, rossman fold, hydrol; 1.93A {Burkholderia cepacia} PDB: 2no5_A* Back     alignment and structure
>1qup_A Superoxide dismutase 1 copper chaperone; two domains, beta-alpha-beta-BETA-alpha-beta and beta barrel; 1.80A {Saccharomyces cerevisiae} SCOP: b.1.8.1 d.58.17.1 Back     alignment and structure
>2gmw_A D,D-heptose 1,7-bisphosphate phosphatase; Zn-binding protein, hydrolase; 1.50A {Escherichia coli} SCOP: c.108.1.19 PDB: 3esq_A 3esr_A 3l1u_A 3l1v_A 3l8e_A 3l8f_A 3l8g_A* Back     alignment and structure
>1qup_A Superoxide dismutase 1 copper chaperone; two domains, beta-alpha-beta-BETA-alpha-beta and beta barrel; 1.80A {Saccharomyces cerevisiae} SCOP: b.1.8.1 d.58.17.1 Back     alignment and structure
>2hdo_A Phosphoglycolate phosphatase; NP_784602.1, structur genomics, PSI-2, protein structure initiative, joint center structural genomics; HET: MSE; 1.50A {Lactobacillus plantarum} SCOP: c.108.1.6 Back     alignment and structure
>1zrn_A L-2-haloacid dehalogenase; hydrolase; 1.83A {Pseudomonas SP} SCOP: c.108.1.1 PDB: 1zrm_A 1jud_A 1qh9_A Back     alignment and structure
>2wm8_A MDP-1, magnesium-dependent phosphatase 1; haloacid dehalogenase, protein phosphatase, hydrolase, magne metal-binding; 1.75A {Homo sapiens} PDB: 1u7o_A 1u7p_A Back     alignment and structure
>3ib6_A Uncharacterized protein; structural genomics, unknown function, PSI-2, protein struct initiative; 2.20A {Listeria monocytogenes} Back     alignment and structure
>3qnm_A Haloacid dehalogenase-like hydrolase; structural genomics, PSI-2, protein structure initiative; 1.70A {Bacteroides thetaiotaomicron} SCOP: c.108.1.0 Back     alignment and structure
>3ddh_A Putative haloacid dehalogenase-like family hydrol; hydrolase, HAD superfamily, ST genomics, PSI-2, protein structure initiative; 2.00A {Bacteroides thetaiotaomicron} Back     alignment and structure
>1jk9_B CCS, copper chaperone for superoxide dismutase; protein-protein complex, heterodimer, metallochaperone, amyotrophic lateral sclerosis; 2.90A {Saccharomyces cerevisiae} SCOP: b.1.8.1 d.58.17.1 Back     alignment and structure
>2hi0_A Putative phosphoglycolate phosphatase; YP_619066.1, structural genomics, joint center for structural genomics, JCSG; HET: MSE; 1.51A {Lactobacillus delbrueckii} Back     alignment and structure
>2w43_A Hypothetical 2-haloalkanoic acid dehalogenase; hydrolase, metabolic process; HET: MES; 1.66A {Sulfolobus tokodaii} PDB: 2w11_A Back     alignment and structure
>2fdr_A Conserved hypothetical protein; SAD, structural genomics, agrobacter tumefaciens, HAD-superfamily hydrolase; 2.00A {Agrobacterium tumefaciens str} SCOP: c.108.1.6 Back     alignment and structure
>3ed5_A YFNB; APC60080, bacillus subtilis subsp. subtilis STR. 168, structural genomics, PSI-2, protein structure initiative; HET: MSE; 1.72A {Bacillus subtilis} PDB: 3i76_A Back     alignment and structure
>1qq5_A Protein (L-2-haloacid dehalogenase); hydrolase; 1.52A {Xanthobacter autotrophicus} SCOP: c.108.1.1 PDB: 1qq6_A* 1qq7_A* 1aq6_A Back     alignment and structure
>3l5k_A Protein GS1, haloacid dehalogenase-like hydrolase domain- containing protein 1A; HDHD1A, haloacid dehalogenase-like hydrolase domain containing 1A; 2.00A {Homo sapiens} Back     alignment and structure
>2fi1_A Hydrolase, haloacid dehalogenase-like family; structural genomics, haloacid dehalogenase-like F PSI, protein structure initiative; 1.40A {Streptococcus pneumoniae} SCOP: c.108.1.3 Back     alignment and structure
>2ah5_A COG0546: predicted phosphatases; MCSG, structural genomics, hydrola haloacid dehalogenase-like, PSI; 1.74A {Streptococcus pneumoniae} SCOP: c.108.1.6 Back     alignment and structure
>3k1z_A Haloacid dehalogenase-like hydrolase domain-conta protein 3; HDHD3, haloacid dehalogenase-like hydrolase domain containin structural genomics; 1.55A {Homo sapiens} Back     alignment and structure
>2rbk_A Putative uncharacterized protein; HAD-like phosphatase, unknown function; 1.00A {Bacteroides thetaiotaomicron} SCOP: c.108.1.10 PDB: 1ymq_A 2rb5_A 2rav_A 2rar_A Back     alignment and structure
>3smv_A S-(-)-azetidine-2-carboxylate hydrolase; haloacid dehalogenase superfamily, L-azetidine-2- carboxylate; HET: GOL; 1.38A {Pseudomonas} Back     alignment and structure
>3umc_A Haloacid dehalogenase; HY; 2.15A {Pseudomonas aeruginosa} Back     alignment and structure
>3umg_A Haloacid dehalogenase; defluorinase, hydrolase; 2.25A {Rhodococcus jostii} Back     alignment and structure
>2pke_A Haloacid delahogenase-like family hydrolase; NP_639141.1, ST genomics, joint center for structural genomics, JCSG; 1.81A {Xanthomonas campestris PV} Back     alignment and structure
>2qlt_A (DL)-glycerol-3-phosphatase 1; APC7326, RHR2P, saccharom cerevisiae, structural genomics, PSI-2, protein structure initiative; 1.60A {Saccharomyces cerevisiae} Back     alignment and structure
>2pr7_A Haloacid dehalogenase/epoxide hydrolase family; NP_599989.1, uncharacterized protein, structural genomics; 1.44A {Corynebacterium glutamicum atcc 13032} Back     alignment and structure
>1u02_A Trehalose-6-phosphate phosphatase related protein; structural genomics, PSI; 1.92A {Thermoplasma acidophilum} SCOP: c.108.1.15 Back     alignment and structure
>2b30_A Pvivax hypothetical protein; SGPP, structural genomics, PSI, protein structure initiative; 2.70A {Plasmodium vivax} SCOP: c.108.1.10 Back     alignment and structure
>3cnh_A Hydrolase family protein; NP_295428.1, predicted hydrolase of haloacid dehalogenase-LI superfamily; HET: MSE PG4; 1.66A {Deinococcus radiodurans R1} Back     alignment and structure
>1qyi_A ZR25, hypothetical protein; structural genomics, PSI, protein structure initiative, NORT structural genomics consortium, NESG; 2.50A {Staphylococcus aureus subsp} SCOP: c.108.1.13 Back     alignment and structure
>1nrw_A Hypothetical protein, haloacid dehalogenase-like hydrolase; structural genomics, PSI, protein structure initiative; 1.70A {Bacillus subtilis} SCOP: c.108.1.10 Back     alignment and structure
>2gfh_A Haloacid dehalogenase-like hydrolase domain conta; structural genomics, joint center for structural genomics, J protein structure initiative, PSI-2; 1.90A {Mus musculus} SCOP: c.108.1.6 PDB: 2w4m_A Back     alignment and structure
>3kbb_A Phosphorylated carbohydrates phosphatase TM_1254; hydrolase, arbohydrate metabolism, COBA magnesium, manganese, metal-binding, nickel; HET: MSE GOL; 1.74A {Thermotoga maritima MSB8} Back     alignment and structure
>3zx4_A MPGP, mannosyl-3-phosphoglycerate phosphatase; hydrolase, haloalkanoid acid dehalogenase-like phosphatase, crystallographic snapshot; HET: 2M8; 1.74A {Thermus thermophilus} PDB: 3zty_A 3zu6_A* 3ztw_A* 3zw7_A* 3zwd_A* 3zwk_A 3zup_A* 3zx5_A* Back     alignment and structure
>2i6x_A Hydrolase, haloacid dehalogenase-like family; HAD superfamily, struct genomics, PSI-2, protein structure initiative; HET: MSE; 2.40A {Porphyromonas gingivalis} Back     alignment and structure
>1s2o_A SPP, sucrose-phosphatase; phosphohydrolase, HAD superfamily, cyanobacteria; 1.40A {Synechocystis SP} SCOP: c.108.1.10 PDB: 1tj3_A 1tj4_A* 1tj5_A* 1u2s_A* 1u2t_A* 2b1q_A* 2b1r_A* 2d2v_A* Back     alignment and structure
>3qgm_A P-nitrophenyl phosphatase (PHO2); structural genomics, PSI-2, protein structure initiative, MI center for structural genomics, MCSG; HET: MSE; 2.00A {Archaeoglobus fulgidus} SCOP: c.108.1.0 Back     alignment and structure
>2oda_A Hypothetical protein pspto_2114; haloacid dehalogenase, phosphonoacetaldehyde hydrolase, protein binding; HET: EPE; 1.90A {Pseudomonas syringae PV} Back     alignment and structure
>2o2x_A Hypothetical protein; structural genomics, joint center for structural genomics, J protein structure initiative, PSI-2, hydrolase; 1.50A {Mesorhizobium loti} SCOP: c.108.1.19 Back     alignment and structure
>2b0c_A Putative phosphatase; alpha-D-glucose-1-phosphate, structural genomic protein structure initiative, midwest center for structural genomics, MCSG; HET: G1P; 2.00A {Escherichia coli} SCOP: c.108.1.2 Back     alignment and structure
>3vay_A HAD-superfamily hydrolase; rossmann fold, haloacid dehalogenase; 1.98A {Pseudomonas syringae PV} Back     alignment and structure
>3gwi_A Magnesium-transporting ATPase, P-type 1; P-type ATPase, nucleotide binding, ATP binding, MGTA, membra protein, cell inner membrane; 1.60A {Escherichia coli} Back     alignment and structure
>4dcc_A Putative haloacid dehalogenase-like hydrolase; magnesium binding site, enzyme function initiativ; 1.65A {Bacteroides thetaiotaomicron} PDB: 4dfd_A 4f71_A 4f72_A Back     alignment and structure
>3pct_A Class C acid phosphatase; hydrolase, outer membrane; 1.85A {Pasteurella multocida} Back     alignment and structure
>2p11_A Hypothetical protein; putative haloacid dehalogenase-like hydrolase, structural GE joint center for structural genomics, JCSG; 2.20A {Burkholderia xenovorans} Back     alignment and structure
>1xvi_A MPGP, YEDP, putative mannosyl-3-phosphoglycerate phosphatase; hypothetical protein, conserved protein, phophatase-like domain; HET: 1PE PG4 PGE; 2.26A {Escherichia coli K12} SCOP: c.108.1.10 Back     alignment and structure
>2zos_A MPGP, mannosyl-3-phosphoglycerate phosphatase; haloacid dehalogenase like hydrolase, mannosylglycerate, cytoplasm, hydrolase, magnesium; 1.70A {Pyrococcus horikoshii} PDB: 1wzc_A Back     alignment and structure
>3ocu_A Lipoprotein E; hydrolase, outer membrane; HET: NMN; 1.35A {Haemophilus influenzae} PDB: 3ocv_A* 3ocw_A* 3ocx_A* 3ocz_A* 3ocy_A* 3sf0_A* 2hlk_A 2hll_A 3et4_A 3et5_A Back     alignment and structure
>3pdw_A Uncharacterized hydrolase YUTF; structural genomics, PSI2, NYSGXRC, protein structure initia YORK SGX research center for structural genomics; 1.60A {Bacillus subtilis} SCOP: c.108.1.0 Back     alignment and structure
>4gib_A Beta-phosphoglucomutase; rossmann fold, HAD-like, structural genomics, center for structural genomics of infectious DISE csgid, isomerase; 2.27A {Clostridium difficile} Back     alignment and structure
>2zg6_A Putative uncharacterized protein ST2620, probable 2-haloalkanoic; probable 2-haloalkanoic acid dehalogenase, hydrolase, structural genomics; 2.40A {Sulfolobus tokodaii} Back     alignment and structure
>2fue_A PMM 1, PMMH-22, phosphomannomutase 1; enzyme-product complex, protein glycosyl carbohydrate-deficient glycoprotein syndrome; HET: MSE M1P; 1.75A {Homo sapiens} SCOP: c.108.1.10 PDB: 2fuc_A* Back     alignment and structure
>2fpr_A Histidine biosynthesis bifunctional protein HISB; histidinola phosphate phosphatase, bifunctional enzyme structural genomics; 1.70A {Escherichia coli} SCOP: c.108.1.19 PDB: 2fps_A 2fpu_A* 2fpx_A 2fpw_A* Back     alignment and structure
>3epr_A Hydrolase, haloacid dehalogenase-like family; structural genomics, unknown function, HAD superfamily hydro PSI-2; 1.55A {Streptococcus agalactiae serogroup V} SCOP: c.108.1.14 PDB: 1ys9_A 1wvi_A 1ydf_A Back     alignment and structure
>1vjr_A 4-nitrophenylphosphatase; TM1742, structural genomics, JCSG, protein structure initiative, joint center for structural G hydrolase; 2.40A {Thermotoga maritima} SCOP: c.108.1.14 PDB: 1pw5_A* Back     alignment and structure
>2amy_A PMM 2, phosphomannomutase 2; HS.459855, HS.313504, BC008310, phosphatase, PFAM PF03332, H superfamily, jaecken disease; 2.09A {Homo sapiens} SCOP: c.108.1.10 PDB: 2q4r_A Back     alignment and structure
>4as2_A Phosphorylcholine phosphatase; hydrolase, HAD superfamily, alkylammonium compounds; HET: BTB; 2.12A {Pseudomonas aeruginosa} PDB: 4as3_A* Back     alignment and structure
>2c4n_A Protein NAGD; nucleotide phosphatase, HAD superfamily, UMP phosphatase, carbohydrate metabolism, hydrolase; 1.8A {Escherichia coli} SCOP: c.108.1.14 Back     alignment and structure
>2i33_A Acid phosphatase; HAD superfamily, hydrolase; 1.57A {Bacillus anthracis} PDB: 2i34_A Back     alignment and structure
>2x4d_A HLHPP, phospholysine phosphohistidine inorganic pyrophos phosphatase; hydrolase; 1.92A {Homo sapiens} Back     alignment and structure
>1ltq_A Polynucleotide kinase; phosphatase, alpha/beta, P-loop, transferase; HET: ADP; 2.33A {Enterobacteria phage T4} SCOP: c.108.1.9 c.37.1.1 PDB: 1rc8_A* 1rpz_A* 1rrc_A* 2ia5_A Back     alignment and structure
>1yns_A E-1 enzyme; hydrolase fold; HET: HPO; 1.70A {Homo sapiens} SCOP: c.108.1.22 PDB: 1zs9_A Back     alignment and structure
>4g9b_A Beta-PGM, beta-phosphoglucomutase; HAD, putative phosphoglucomutase, enzyme function initiative structural genomics, isomerase; 1.70A {Escherichia coli} Back     alignment and structure
>2b82_A APHA, class B acid phosphatase; DDDD acid phosphatase, metallo-ENZ hydrolase; HET: ADN; 1.25A {Escherichia coli} SCOP: c.108.1.12 PDB: 2b8j_A* 2hf7_A 1rmt_A* 1n9k_A 1rmq_A 1n8n_A* 1rmy_A* 2g1a_A* 3cz4_A 2heg_A* 1z5g_A 1z5u_A* 1z88_A 2aut_A Back     alignment and structure
>3f9r_A Phosphomannomutase; trypanosome glycobiology structural genomics, isomerase, structural genomics consortium, SGC; 1.85A {Trypanosoma brucei} SCOP: c.108.1.0 PDB: 2i54_A* 2i55_A* Back     alignment and structure
>2ho4_A Haloacid dehalogenase-like hydrolase domain containing 2; HDHD2, protein structure initiative, PSI, center for eukaryotic structural genomics, CESG; 2.20A {Mus musculus} PDB: 3hlt_A Back     alignment and structure
>2g80_A Protein UTR4; YEL038W, UTR4 protein (unknown transcript 4 protein), struct genomics, PSI, protein structure initiative; 2.28A {Saccharomyces cerevisiae} SCOP: c.108.1.22 Back     alignment and structure
>2i7d_A 5'(3')-deoxyribonucleotidase, cytosolic type; hydrolase; HET: DUR; 1.20A {Homo sapiens} PDB: 2jar_A* 2jao_A* Back     alignment and structure
>3i28_A Epoxide hydrolase 2; aromatic hydrocarbons catabolism, detoxification, magnesium, metal-binding, peroxisome; HET: 34N; 1.95A {Homo sapiens} PDB: 1s8o_A* 1zd2_P* 1vj5_A* 1zd4_A* 1zd5_A* 3i1y_A* 1zd3_A* 3koo_A* 3otq_A* 4hai_A* 1cqz_A 1cr6_A* 1ek1_A* 1ek2_A* 3ans_A* 3ant_A* 3pdc_A* Back     alignment and structure
>2oyc_A PLP phosphatase, pyridoxal phosphate phosphatase; structural genomics, NYSGXRC, NEW YORK SGX research center for structural genomics, PSI-2; 1.72A {Homo sapiens} PDB: 2p27_A 2p69_A* 2cft_A* 2cfs_A 2cfr_A* Back     alignment and structure
>1q92_A 5(3)-deoxyribonucleotidase; alpha-beta rossman fold, hydrolase; HET: DRM; 1.40A {Homo sapiens} SCOP: c.108.1.8 PDB: 1mh9_A* 1q91_A* 1z4m_A* 1z4i_A* 1z4j_A* 1z4l_A* 1z4k_A* 1z4p_X* 1z4q_A* 2jau_A* 2jaw_A* 3u19_A* 3u13_A 4e88_A Back     alignment and structure
>4gwb_A Peptide methionine sulfoxide reductase MSRA 3; structural genomics, protein structure initiative, nysgrc, R PSI-biology; 1.20A {Sinorhizobium meliloti} Back     alignment and structure
>1yv9_A Hydrolase, haloacid dehalogenase family; hypothetical protein, struc genomics, PSI, protein structure initiative; 2.80A {Enterococcus faecalis} SCOP: c.108.1.14 Back     alignment and structure
>3bwv_A Putative 5'(3')-deoxyribonucleotidase; NP_764060.1, deoxyribonucleotidase-like protein; HET: MSE; 1.55A {Staphylococcus epidermidis} Back     alignment and structure
>3zvl_A Bifunctional polynucleotide phosphatase/kinase; hydrolase-transferase complex, base excision repair, BER, non-homologous END-joining, NHEJ; 1.65A {Mus musculus} PDB: 3zvm_A* 3zvn_A* 1yj5_A 3u7e_B* 3u7f_B* 3u7h_B* 3u7g_A* Back     alignment and structure
>1nrw_A Hypothetical protein, haloacid dehalogenase-like hydrolase; structural genomics, PSI, protein structure initiative; 1.70A {Bacillus subtilis} SCOP: c.108.1.10 Back     alignment and structure
>2hhl_A CTD small phosphatase-like protein; CTD phosphatase, keggins anion, structural genomics, PSI, protein structure initiative; HET: KEG; 2.10A {Homo sapiens} Back     alignment and structure
>1fvg_A Peptide methionine sulfoxide reductase; oxidoreductase; 1.60A {Bos taurus} SCOP: d.58.28.1 PDB: 1fva_A 2l90_A* Back     alignment and structure
>2ght_A Carboxy-terminal domain RNA polymerase II polypeptide A small phosphatase 1; protein-peptide complex, HAD superfamily, hydrolase; HET: SEP; 1.80A {Homo sapiens} PDB: 2ghq_A* 3pgl_A* 1t9z_A* 1ta0_A* 3l0c_A 3l0y_A 3l0b_A* 2q5e_A Back     alignment and structure
>1zjj_A Hypothetical protein PH1952; alpha/beta hydrolase fold, HAD superfamily, structural genom riken structural genomics/proteomics initiative; 1.85A {Pyrococcus horikoshii} Back     alignment and structure
>3bqh_A PILB, peptide methionine sulfoxide reductase MSRA/MSRB; methionine sulfoxide reductase A, oxidized form, elect transport; 1.95A {Neisseria meningitidis} PDB: 3bqe_A 3bqf_A* 3bqg_A Back     alignment and structure
>2j89_A Methionine sulfoxide reductase A; MSRA, poplar, oxidoreductase; 1.7A {Populus trichocarpa} Back     alignment and structure
>2zos_A MPGP, mannosyl-3-phosphoglycerate phosphatase; haloacid dehalogenase like hydrolase, mannosylglycerate, cytoplasm, hydrolase, magnesium; 1.70A {Pyrococcus horikoshii} PDB: 1wzc_A Back     alignment and structure
>1nwa_A Peptide methionine sulfoxide reductase MSRA; oxidoreductase, product complex, structural genomics, PSI, protein structure initiative; 1.50A {Mycobacterium tuberculosis} SCOP: d.58.28.1 Back     alignment and structure

Homologous Structure Domains

Structure Domains Detected by RPS-BLAST ?

Original result of RPS-BLAST against SCOP70(version1.75) database

ID ?Alignment Graph ?Length ? Definition ? E-value ?
Query 924
d2b8ea1135 c.108.1.7 (A:416-434,A:548-663) Cation-transportin 7e-30
d1wpga2168 c.108.1.7 (A:344-360,A:600-750) Calcium ATPase, ca 3e-28
d1kvja_79 d.58.17.1 (A:) Menkes copper-transporting ATPase { 3e-21
d1kvja_79 d.58.17.1 (A:) Menkes copper-transporting ATPase { 1e-08
d2ggpb172 d.58.17.1 (B:1-72) Copper transporter domain ccc2a 1e-20
d2ggpb172 d.58.17.1 (B:1-72) Copper transporter domain ccc2a 4e-07
d1osda_72 d.58.17.1 (A:) Mercuric ion binding protein MerP { 3e-20
d1osda_72 d.58.17.1 (A:) Mercuric ion binding protein MerP { 1e-08
d1p6ta279 d.58.17.1 (A:73-151) Potential copper-translocatin 3e-20
d1p6ta279 d.58.17.1 (A:73-151) Potential copper-translocatin 4e-09
d2qifa169 d.58.17.1 (A:1-69) Copper chaperone {Bacillus subt 7e-20
d2qifa169 d.58.17.1 (A:1-69) Copper chaperone {Bacillus subt 2e-08
d1cpza_68 d.58.17.1 (A:) Copper chaperone {Enterococcus hira 2e-19
d1cpza_68 d.58.17.1 (A:) Copper chaperone {Enterococcus hira 3e-08
d1q8la_84 d.58.17.1 (A:) Menkes copper-transporting ATPase { 4e-19
d1q8la_84 d.58.17.1 (A:) Menkes copper-transporting ATPase { 8e-06
d1p6ta172 d.58.17.1 (A:1-72) Potential copper-translocating 8e-19
d1p6ta172 d.58.17.1 (A:1-72) Potential copper-translocating 1e-08
d2aw0a_72 d.58.17.1 (A:) Menkes copper-transporting ATPase { 9e-19
d2aw0a_72 d.58.17.1 (A:) Menkes copper-transporting ATPase { 1e-08
d1mwza_73 d.58.17.1 (A:) Metal ion-transporting ATPase ZntA, 6e-17
d1mwza_73 d.58.17.1 (A:) Metal ion-transporting ATPase ZntA, 2e-07
d2a29a1136 d.220.1.1 (A:316-451) Potassium-transporting ATPas 1e-16
d2b8ea2113 d.220.1.1 (A:435-547) Cation-transporting ATPase { 1e-16
d1sb6a_64 d.58.17.1 (A:) Copper chaperone {Synechocystis sp. 4e-13
d1sb6a_64 d.58.17.1 (A:) Copper chaperone {Synechocystis sp. 0.002
d1qupa272 d.58.17.1 (A:2-73) Copper chaperone for superoxide 1e-12
d1cc8a_72 d.58.17.1 (A:) ATX1 metallochaperone protein (ATOX 2e-11
d2feaa1226 c.108.1.20 (A:2-227) 2-hydroxy-3-keto-5-methylthio 2e-11
d1rkua_206 c.108.1.11 (A:) Homoserine kinase ThrH {Pseudomona 3e-11
d1fe0a_66 d.58.17.1 (A:) ATX1 metallochaperone protein (ATOX 7e-11
d2b30a1283 c.108.1.10 (A:18-300) PFL1270w orthologue {Plasmod 4e-10
d1k1ea_177 c.108.1.5 (A:) Probable phosphatase YrbI {Haemophi 7e-09
d1j97a_210 c.108.1.4 (A:) Phosphoserine phosphatase {Archaeon 9e-08
d1qyia_380 c.108.1.13 (A:) Hypothetical protein MW1667 (SA154 1e-07
d1wr8a_230 c.108.1.10 (A:) Phosphoglycolate phosphatase, PGPa 2e-07
d1nrwa_285 c.108.1.10 (A:) Hypothetical protein YwpJ {Bacillu 3e-07
d1rkqa_271 c.108.1.10 (A:) Hypothetical protein YidA {Escheri 5e-07
d1nnla_217 c.108.1.4 (A:) Phosphoserine phosphatase {Human (H 2e-06
d1l6ra_225 c.108.1.10 (A:) Phosphoglycolate phosphatase, PGPa 2e-06
d2rbka1260 c.108.1.10 (A:2-261) Sugar-phosphate phosphatase B 4e-06
d1nf2a_267 c.108.1.10 (A:) Hypothetical protein TM0651 {Therm 4e-06
d1wpga1115 b.82.7.1 (A:125-239) Calcium ATPase, transduction 5e-06
d1rlma_269 c.108.1.10 (A:) Sugar phosphatase SupH (YbiV) {Esc 1e-04
>d2b8ea1 c.108.1.7 (A:416-434,A:548-663) Cation-transporting ATPase {Archaeon Archaeoglobus fulgidus [TaxId: 2234]} Length = 135 Back     information, alignment and structure

class: Alpha and beta proteins (a/b)
fold: HAD-like
superfamily: HAD-like
family: Meta-cation ATPase, catalytic domain P
domain: Cation-transporting ATPase
species: Archaeon Archaeoglobus fulgidus [TaxId: 2234]

 Score =  112 bits (282), Expect = 7e-30
 Identities = 59/130 (45%), Positives = 90/130 (69%), Gaps = 1/130 (0%)

Query: 715 VAYDDNLIGVMGIADPVKREAAVVVEGLLKMGVRPVMVTGDNWRTAHAVAREIGIQDVMA 774
           V +D       G  D +K  A   V+ L +MG++  M+TGDNWR+A A++RE+ +  V+A
Sbjct: 6   VIFDKTGTLTKGKPDTLKESAKPAVQELKRMGIKVGMITGDNWRSAEAISRELNLDLVIA 65

Query: 775 DVMPAGKADAVRSFQKDGSIVAMVGDGINDSPALAAADVGMAIGAGTDIAIEAADYVLMR 834
           +V+P  K++ V+  Q    +VA VGDGIND+PALA AD+G+A+G+G+D+A+E+ D VL+R
Sbjct: 66  EVLPHQKSEEVKKLQA-KEVVAFVGDGINDAPALAQADLGIAVGSGSDVAVESGDIVLIR 124

Query: 835 NSLEDVIIAI 844
           + L DV+ AI
Sbjct: 125 DDLRDVVAAI 134
>d1wpga2 c.108.1.7 (A:344-360,A:600-750) Calcium ATPase, catalytic domain P {Rabbit (Oryctolagus cuniculus) [TaxId: 9986]} Length = 168 Back     information, alignment and structure
>d1kvja_ d.58.17.1 (A:) Menkes copper-transporting ATPase {Human (Homo sapiens) [TaxId: 9606]} Length = 79 Back     information, alignment and structure
>d1kvja_ d.58.17.1 (A:) Menkes copper-transporting ATPase {Human (Homo sapiens) [TaxId: 9606]} Length = 79 Back     information, alignment and structure
>d2ggpb1 d.58.17.1 (B:1-72) Copper transporter domain ccc2a {Baker's yeast (Saccharomyces cerevisiae) [TaxId: 4932]} Length = 72 Back     information, alignment and structure
>d2ggpb1 d.58.17.1 (B:1-72) Copper transporter domain ccc2a {Baker's yeast (Saccharomyces cerevisiae) [TaxId: 4932]} Length = 72 Back     information, alignment and structure
>d1osda_ d.58.17.1 (A:) Mercuric ion binding protein MerP {Ralstonia metallidurans CH34 [TaxId: 266264]} Length = 72 Back     information, alignment and structure
>d1osda_ d.58.17.1 (A:) Mercuric ion binding protein MerP {Ralstonia metallidurans CH34 [TaxId: 266264]} Length = 72 Back     information, alignment and structure
>d1p6ta2 d.58.17.1 (A:73-151) Potential copper-translocating P-type ATPase CopA (YvgX) {Bacillus subtilis [TaxId: 1423]} Length = 79 Back     information, alignment and structure
>d1p6ta2 d.58.17.1 (A:73-151) Potential copper-translocating P-type ATPase CopA (YvgX) {Bacillus subtilis [TaxId: 1423]} Length = 79 Back     information, alignment and structure
>d2qifa1 d.58.17.1 (A:1-69) Copper chaperone {Bacillus subtilis, CopZ [TaxId: 1423]} Length = 69 Back     information, alignment and structure
>d2qifa1 d.58.17.1 (A:1-69) Copper chaperone {Bacillus subtilis, CopZ [TaxId: 1423]} Length = 69 Back     information, alignment and structure
>d1cpza_ d.58.17.1 (A:) Copper chaperone {Enterococcus hirae [TaxId: 1354]} Length = 68 Back     information, alignment and structure
>d1cpza_ d.58.17.1 (A:) Copper chaperone {Enterococcus hirae [TaxId: 1354]} Length = 68 Back     information, alignment and structure
>d1q8la_ d.58.17.1 (A:) Menkes copper-transporting ATPase {Human (Homo sapiens) [TaxId: 9606]} Length = 84 Back     information, alignment and structure
>d1q8la_ d.58.17.1 (A:) Menkes copper-transporting ATPase {Human (Homo sapiens) [TaxId: 9606]} Length = 84 Back     information, alignment and structure
>d1p6ta1 d.58.17.1 (A:1-72) Potential copper-translocating P-type ATPase CopA (YvgX) {Bacillus subtilis [TaxId: 1423]} Length = 72 Back     information, alignment and structure
>d1p6ta1 d.58.17.1 (A:1-72) Potential copper-translocating P-type ATPase CopA (YvgX) {Bacillus subtilis [TaxId: 1423]} Length = 72 Back     information, alignment and structure
>d2aw0a_ d.58.17.1 (A:) Menkes copper-transporting ATPase {Human (Homo sapiens) [TaxId: 9606]} Length = 72 Back     information, alignment and structure
>d2aw0a_ d.58.17.1 (A:) Menkes copper-transporting ATPase {Human (Homo sapiens) [TaxId: 9606]} Length = 72 Back     information, alignment and structure
>d1mwza_ d.58.17.1 (A:) Metal ion-transporting ATPase ZntA, N-terminal domain {Escherichia coli [TaxId: 562]} Length = 73 Back     information, alignment and structure
>d1mwza_ d.58.17.1 (A:) Metal ion-transporting ATPase ZntA, N-terminal domain {Escherichia coli [TaxId: 562]} Length = 73 Back     information, alignment and structure
>d2a29a1 d.220.1.1 (A:316-451) Potassium-transporting ATPase B chain, KdpB {Escherichia coli [TaxId: 562]} Length = 136 Back     information, alignment and structure
>d2b8ea2 d.220.1.1 (A:435-547) Cation-transporting ATPase {Archaeon Archaeoglobus fulgidus [TaxId: 2234]} Length = 113 Back     information, alignment and structure
>d1sb6a_ d.58.17.1 (A:) Copper chaperone {Synechocystis sp. pcc 6803, Scatx1 [TaxId: 1148]} Length = 64 Back     information, alignment and structure
>d1sb6a_ d.58.17.1 (A:) Copper chaperone {Synechocystis sp. pcc 6803, Scatx1 [TaxId: 1148]} Length = 64 Back     information, alignment and structure
>d1qupa2 d.58.17.1 (A:2-73) Copper chaperone for superoxide dismutase, N-terminal domain {Baker's yeast (Saccharomyces cerevisiae) [TaxId: 4932]} Length = 72 Back     information, alignment and structure
>d1cc8a_ d.58.17.1 (A:) ATX1 metallochaperone protein (ATOX1) {Baker's yeast (Saccharomyces cerevisiae) [TaxId: 4932]} Length = 72 Back     information, alignment and structure
>d2feaa1 c.108.1.20 (A:2-227) 2-hydroxy-3-keto-5-methylthiopentenyl-1-phosphate phosphatase MtnX {Bacillus subtilis [TaxId: 1423]} Length = 226 Back     information, alignment and structure
>d1rkua_ c.108.1.11 (A:) Homoserine kinase ThrH {Pseudomonas aeruginosa [TaxId: 287]} Length = 206 Back     information, alignment and structure
>d1fe0a_ d.58.17.1 (A:) ATX1 metallochaperone protein (ATOX1) {Human (Homo sapiens), HAH1 [TaxId: 9606]} Length = 66 Back     information, alignment and structure
>d2b30a1 c.108.1.10 (A:18-300) PFL1270w orthologue {Plasmodium vivax [TaxId: 5855]} Length = 283 Back     information, alignment and structure
>d1k1ea_ c.108.1.5 (A:) Probable phosphatase YrbI {Haemophilus influenzae, HI1679 [TaxId: 727]} Length = 177 Back     information, alignment and structure
>d1j97a_ c.108.1.4 (A:) Phosphoserine phosphatase {Archaeon Methanococcus jannaschii [TaxId: 2190]} Length = 210 Back     information, alignment and structure
>d1qyia_ c.108.1.13 (A:) Hypothetical protein MW1667 (SA1546) {Staphylococcus aureus [TaxId: 1280]} Length = 380 Back     information, alignment and structure
>d1wr8a_ c.108.1.10 (A:) Phosphoglycolate phosphatase, PGPase {Pyrococcus horikoshii [TaxId: 53953]} Length = 230 Back     information, alignment and structure
>d1nrwa_ c.108.1.10 (A:) Hypothetical protein YwpJ {Bacillus subtilis [TaxId: 1423]} Length = 285 Back     information, alignment and structure
>d1rkqa_ c.108.1.10 (A:) Hypothetical protein YidA {Escherichia coli [TaxId: 562]} Length = 271 Back     information, alignment and structure
>d1nnla_ c.108.1.4 (A:) Phosphoserine phosphatase {Human (Homo sapiens) [TaxId: 9606]} Length = 217 Back     information, alignment and structure
>d1l6ra_ c.108.1.10 (A:) Phosphoglycolate phosphatase, PGPase {Archaeon Thermoplasma acidophilum [TaxId: 2303]} Length = 225 Back     information, alignment and structure
>d2rbka1 c.108.1.10 (A:2-261) Sugar-phosphate phosphatase BT4131 {Bacteroides thetaiotaomicron [TaxId: 818]} Length = 260 Back     information, alignment and structure
>d1nf2a_ c.108.1.10 (A:) Hypothetical protein TM0651 {Thermotoga maritima [TaxId: 2336]} Length = 267 Back     information, alignment and structure
>d1wpga1 b.82.7.1 (A:125-239) Calcium ATPase, transduction domain A {Rabbit (Oryctolagus cuniculus) [TaxId: 9986]} Length = 115 Back     information, alignment and structure
>d1rlma_ c.108.1.10 (A:) Sugar phosphatase SupH (YbiV) {Escherichia coli [TaxId: 562]} Length = 269 Back     information, alignment and structure

Homologous Domains Detected by HHsearch ?

Original result of HHsearch against SCOP70(version1.75) database

ID ?Alignment Graph ?Length ? Definition ? Probability ?
Query924
d1wpga2168 Calcium ATPase, catalytic domain P {Rabbit (Orycto 99.97
d2b8ea1135 Cation-transporting ATPase {Archaeon Archaeoglobus 99.97
d1wpga1115 Calcium ATPase, transduction domain A {Rabbit (Ory 99.86
d1qyia_380 Hypothetical protein MW1667 (SA1546) {Staphylococc 99.73
d2b8ea2113 Cation-transporting ATPase {Archaeon Archaeoglobus 99.51
d2a29a1136 Potassium-transporting ATPase B chain, KdpB {Esche 99.41
d1cpza_68 Copper chaperone {Enterococcus hirae [TaxId: 1354] 99.38
d2aw0a_72 Menkes copper-transporting ATPase {Human (Homo sap 99.36
d1q8la_84 Menkes copper-transporting ATPase {Human (Homo sap 99.35
d1kvja_79 Menkes copper-transporting ATPase {Human (Homo sap 99.34
d1osda_72 Mercuric ion binding protein MerP {Ralstonia metal 99.33
d2qifa169 Copper chaperone {Bacillus subtilis, CopZ [TaxId: 99.32
d1kvja_79 Menkes copper-transporting ATPase {Human (Homo sap 99.31
d2ggpb172 Copper transporter domain ccc2a {Baker's yeast (Sa 99.3
d1cpza_68 Copper chaperone {Enterococcus hirae [TaxId: 1354] 99.3
d1p6ta279 Potential copper-translocating P-type ATPase CopA 99.3
d2aw0a_72 Menkes copper-transporting ATPase {Human (Homo sap 99.29
d2qifa169 Copper chaperone {Bacillus subtilis, CopZ [TaxId: 99.29
d1p6ta172 Potential copper-translocating P-type ATPase CopA 99.28
d2ggpb172 Copper transporter domain ccc2a {Baker's yeast (Sa 99.28
d1osda_72 Mercuric ion binding protein MerP {Ralstonia metal 99.28
d1q8la_84 Menkes copper-transporting ATPase {Human (Homo sap 99.26
d1p6ta172 Potential copper-translocating P-type ATPase CopA 99.25
d1p6ta279 Potential copper-translocating P-type ATPase CopA 99.22
d1k1ea_177 Probable phosphatase YrbI {Haemophilus influenzae, 99.15
d1mwza_73 Metal ion-transporting ATPase ZntA, N-terminal dom 99.14
d1wr8a_230 Phosphoglycolate phosphatase, PGPase {Pyrococcus h 99.1
d1mwza_73 Metal ion-transporting ATPase ZntA, N-terminal dom 99.09
d1sb6a_64 Copper chaperone {Synechocystis sp. pcc 6803, Scat 99.03
d1l6ra_225 Phosphoglycolate phosphatase, PGPase {Archaeon The 99.03
d1sb6a_64 Copper chaperone {Synechocystis sp. pcc 6803, Scat 99.01
d1nnla_217 Phosphoserine phosphatase {Human (Homo sapiens) [T 99.0
d1qupa272 Copper chaperone for superoxide dismutase, N-termi 98.96
d1fe0a_66 ATX1 metallochaperone protein (ATOX1) {Human (Homo 98.91
d2feaa1226 2-hydroxy-3-keto-5-methylthiopentenyl-1-phosphate 98.9
d1cc8a_72 ATX1 metallochaperone protein (ATOX1) {Baker's yea 98.9
d1qupa272 Copper chaperone for superoxide dismutase, N-termi 98.89
d1fe0a_66 ATX1 metallochaperone protein (ATOX1) {Human (Homo 98.88
d1cc8a_72 ATX1 metallochaperone protein (ATOX1) {Baker's yea 98.85
d1rkqa_271 Hypothetical protein YidA {Escherichia coli [TaxId 98.85
d1rlma_269 Sugar phosphatase SupH (YbiV) {Escherichia coli [T 98.84
d1nrwa_285 Hypothetical protein YwpJ {Bacillus subtilis [TaxI 98.83
d1wpga4472 Calcium ATPase, transmembrane domain M {Rabbit (Or 98.8
d1j97a_210 Phosphoserine phosphatase {Archaeon Methanococcus 98.72
d1rkua_206 Homoserine kinase ThrH {Pseudomonas aeruginosa [Ta 98.69
d1nf2a_267 Hypothetical protein TM0651 {Thermotoga maritima [ 98.66
d2b30a1283 PFL1270w orthologue {Plasmodium vivax [TaxId: 5855 98.59
d2rbka1260 Sugar-phosphate phosphatase BT4131 {Bacteroides th 98.56
d1wzca1243 Putative mannosyl-3-phosphoglycerate phosphatase M 98.44
d1s2oa1244 Sucrose-phosphatase Slr0953 {Synechocystis sp. pcc 98.23
d1xvia_232 Putative mannosyl-3-phosphoglycerate phosphatase M 98.07
d2hsza1224 Phosphoglycolate phosphatase Gph {Haemophilus somn 97.76
d2hcfa1228 Hypothetical protein CT1708 {Chlorobium tepidum [T 97.74
d1u02a_229 Trehalose-6-phosphate phosphatase related protein 97.61
d2fuea1244 Phosphomannomutase 1 {Human (Homo sapiens) [TaxId: 97.59
d1swva_257 Phosphonoacetaldehyde hydrolase {Bacillus cereus [ 97.52
d2bdua1291 Cytosolic 5'-nucleotidase III {Mouse (Mus musculus 97.44
d1te2a_218 Phosphatase YniC {Escherichia coli [TaxId: 562]} 97.43
d2ah5a1210 predicted phosphatase SP0104 {Streptococcus pneumo 97.12
d2go7a1204 Hypothetical protein SP2064 {Streptococcus pneumon 97.12
d1q3ia_214 Sodium/potassium-transporting ATPase alpha chain { 97.06
d2gmwa1182 D,D-heptose 1,7-bisphosphate phosphatase GmhB {Esc 96.93
d1x42a1230 Hypothetical protein PH0459 {Archaeon Pyrococcus h 96.84
d2hdoa1207 Phosphoglycolate phosphatase {Lactobacillus planta 96.72
d1zs9a1253 E-1 enzyme {Human(Homo sapiens) [TaxId: 9606]} 96.69
d1u7pa_164 Magnesium-dependent phosphatase-1, Mdp1 {Mouse (Mu 96.51
d2gfha1247 N-acylneuraminate-9-phosphatase NANP {Mouse (Mus m 96.5
d2amya1243 Phosphomannomutase 2 {Human (Homo sapiens) [TaxId: 96.25
d2fi1a1187 Putative hydrolase SP0805 {Streptococcus pneumonia 96.18
d2fdra1222 Hypothetical protein Atu0790 {Agrobacterium tumefa 94.85
d1y8aa1308 Hypothetical protein AF1437 {Archaeon Archaeoglobu 94.81
d1ltqa1149 Polynucleotide kinase, phosphatase domain {Bacteri 94.81
d1zrna_220 L-2-Haloacid dehalogenase, HAD {Pseudomonas sp., s 94.68
d1yv9a1253 Putative hydrolase EF1188 {Enterococcus faecalis [ 94.36
d1wvia_253 Putative phosphatase SMU.1415c {Streptococcus muta 94.15
d1cr6a1222 Epoxide hydrolase, N-terminal domain {Mouse (Mus m 93.93
d1o08a_221 beta-Phosphoglucomutase {Lactococcus lactis [TaxId 93.86
d1vjra_261 Hypothetical protein TM1742 {Thermotoga maritima [ 93.79
d2o2xa1209 Hypothetical protein Mll2559 {Mesorhizobium loti [ 93.67
d2b82a1209 Class B acid phosphatase, AphA {Escherichia coli [ 93.47
d1qq5a_245 L-2-Haloacid dehalogenase, HAD {Xanthobacter autot 92.85
d1zd3a1225 Epoxide hydrolase, N-terminal domain {Human (Homo 90.97
d2c4na1250 NagD {Escherichia coli [TaxId: 562]} 90.79
d1wpga3239 Calcium ATPase {Rabbit (Oryctolagus cuniculus) [Ta 90.39
d2fpwa1161 Histidine biosynthesis bifunctional protein HisB, 88.56
d2b0ca1197 Putative phosphatase YihX {Escherichia coli [TaxId 84.02
>d1wpga2 c.108.1.7 (A:344-360,A:600-750) Calcium ATPase, catalytic domain P {Rabbit (Oryctolagus cuniculus) [TaxId: 9986]} Back     information, alignment and structure
class: Alpha and beta proteins (a/b)
fold: HAD-like
superfamily: HAD-like
family: Meta-cation ATPase, catalytic domain P
domain: Calcium ATPase, catalytic domain P
species: Rabbit (Oryctolagus cuniculus) [TaxId: 9986]

Probab=99.97  E-value=2.6e-31  Score=257.73  Aligned_cols=122  Identities=37%  Similarity=0.583  Sum_probs=117.9

Q ss_pred             EecCCCcHhHHHHHHHHHHCCCeEEEEcCCCHHHHHHHHHHcCCc-------------------------------eEEe
Q 002427          726 GIADPVKREAAVVVEGLLKMGVRPVMVTGDNWRTAHAVAREIGIQ-------------------------------DVMA  774 (924)
Q Consensus       726 ~l~D~lr~~~~~~I~~L~~~gi~v~mlTGD~~~ta~~iA~~~gi~-------------------------------~v~a  774 (924)
                      ..-||+|++++++|+.||++||+++|+|||+..||.++|+++||.                               .+|+
T Consensus        16 ~~~Dp~R~~~~~~I~~l~~~GI~v~miTGD~~~tA~~ia~~~Gi~~~~~~v~~~~~~~~~~~~~~~~~~~~~~~~~~v~a   95 (168)
T d1wpga2          16 NQLDPPRKEVMGSIQLCRDAGIRVIMITGDNKGTAIAICRRIGIFGENEEVADRAYTGREFDDLPLAEQREACRRACCFA   95 (168)
T ss_dssp             CCECCBCTTHHHHHHHHHHTTCEEEEECSSCHHHHHHHHHHTTSSCTTCCCTTTEEEHHHHHHSCHHHHHHHHHHCCEEE
T ss_pred             EecCCCchhHHHHHHHHHHCcCEEEEECCCCHHHHHHHHHHcCCCCCccccccccccccccchhhHHHHhhhhhhhhhhh
Confidence            334999999999999999999999999999999999999999993                               5999


Q ss_pred             ccChhhHHHHHHHHhhCCCEEEEEcCCcCCHHHHhcCCceEEecCChHHHHHhcCEEEecCChhHHHHHHHHH
Q 002427          775 DVMPAGKADAVRSFQKDGSIVAMVGDGINDSPALAAADVGMAIGAGTDIAIEAADYVLMRNSLEDVIIAIDLS  847 (924)
Q Consensus       775 ~~~P~~K~~~V~~lq~~g~~v~~vGDg~nD~~al~~A~vgia~~~~~~~a~~~ad~vl~~~~l~~l~~~i~~~  847 (924)
                      |++|+||..+|+.||++|+.|+|+|||+||+|||++|||||++++|+++|+++||++|++++|+.++.+|++|
T Consensus        96 r~~p~~K~~lv~~l~~~g~~Va~vGDG~nD~~AL~~AdvGIa~~~gt~~a~~aAdivl~~~~l~~v~~~I~~G  168 (168)
T d1wpga2          96 RVEPSHKSKIVEYLQSYDEITAMTGDGVNDAPALKKAEIGIAMGSGTAVAKTASEMVLADDNFSTIVAAVEEG  168 (168)
T ss_dssp             SCCHHHHHHHHHHHHHTTCCEEEEECSGGGHHHHHHSSEEEEETTSCHHHHHTCSEEETTCCTHHHHHHHHHH
T ss_pred             ccchhHHHHHHHHHHhcccceeEEecCCCCHHHHHhCCEEEEeccccHHHHHhCCEEEccCCHHHHHHHHHcC
Confidence            9999999999999999999999999999999999999999999999999999999999999999999999987
>d2b8ea1 c.108.1.7 (A:416-434,A:548-663) Cation-transporting ATPase {Archaeon Archaeoglobus fulgidus [TaxId: 2234]} Back     information, alignment and structure
>d1wpga1 b.82.7.1 (A:125-239) Calcium ATPase, transduction domain A {Rabbit (Oryctolagus cuniculus) [TaxId: 9986]} Back     information, alignment and structure
>d1qyia_ c.108.1.13 (A:) Hypothetical protein MW1667 (SA1546) {Staphylococcus aureus [TaxId: 1280]} Back     information, alignment and structure
>d2b8ea2 d.220.1.1 (A:435-547) Cation-transporting ATPase {Archaeon Archaeoglobus fulgidus [TaxId: 2234]} Back     information, alignment and structure
>d2a29a1 d.220.1.1 (A:316-451) Potassium-transporting ATPase B chain, KdpB {Escherichia coli [TaxId: 562]} Back     information, alignment and structure
>d1cpza_ d.58.17.1 (A:) Copper chaperone {Enterococcus hirae [TaxId: 1354]} Back     information, alignment and structure
>d2aw0a_ d.58.17.1 (A:) Menkes copper-transporting ATPase {Human (Homo sapiens) [TaxId: 9606]} Back     information, alignment and structure
>d1q8la_ d.58.17.1 (A:) Menkes copper-transporting ATPase {Human (Homo sapiens) [TaxId: 9606]} Back     information, alignment and structure
>d1kvja_ d.58.17.1 (A:) Menkes copper-transporting ATPase {Human (Homo sapiens) [TaxId: 9606]} Back     information, alignment and structure
>d1osda_ d.58.17.1 (A:) Mercuric ion binding protein MerP {Ralstonia metallidurans CH34 [TaxId: 266264]} Back     information, alignment and structure
>d2qifa1 d.58.17.1 (A:1-69) Copper chaperone {Bacillus subtilis, CopZ [TaxId: 1423]} Back     information, alignment and structure
>d1kvja_ d.58.17.1 (A:) Menkes copper-transporting ATPase {Human (Homo sapiens) [TaxId: 9606]} Back     information, alignment and structure
>d2ggpb1 d.58.17.1 (B:1-72) Copper transporter domain ccc2a {Baker's yeast (Saccharomyces cerevisiae) [TaxId: 4932]} Back     information, alignment and structure
>d1cpza_ d.58.17.1 (A:) Copper chaperone {Enterococcus hirae [TaxId: 1354]} Back     information, alignment and structure
>d1p6ta2 d.58.17.1 (A:73-151) Potential copper-translocating P-type ATPase CopA (YvgX) {Bacillus subtilis [TaxId: 1423]} Back     information, alignment and structure
>d2aw0a_ d.58.17.1 (A:) Menkes copper-transporting ATPase {Human (Homo sapiens) [TaxId: 9606]} Back     information, alignment and structure
>d2qifa1 d.58.17.1 (A:1-69) Copper chaperone {Bacillus subtilis, CopZ [TaxId: 1423]} Back     information, alignment and structure
>d1p6ta1 d.58.17.1 (A:1-72) Potential copper-translocating P-type ATPase CopA (YvgX) {Bacillus subtilis [TaxId: 1423]} Back     information, alignment and structure
>d2ggpb1 d.58.17.1 (B:1-72) Copper transporter domain ccc2a {Baker's yeast (Saccharomyces cerevisiae) [TaxId: 4932]} Back     information, alignment and structure
>d1osda_ d.58.17.1 (A:) Mercuric ion binding protein MerP {Ralstonia metallidurans CH34 [TaxId: 266264]} Back     information, alignment and structure
>d1q8la_ d.58.17.1 (A:) Menkes copper-transporting ATPase {Human (Homo sapiens) [TaxId: 9606]} Back     information, alignment and structure
>d1p6ta1 d.58.17.1 (A:1-72) Potential copper-translocating P-type ATPase CopA (YvgX) {Bacillus subtilis [TaxId: 1423]} Back     information, alignment and structure
>d1p6ta2 d.58.17.1 (A:73-151) Potential copper-translocating P-type ATPase CopA (YvgX) {Bacillus subtilis [TaxId: 1423]} Back     information, alignment and structure
>d1k1ea_ c.108.1.5 (A:) Probable phosphatase YrbI {Haemophilus influenzae, HI1679 [TaxId: 727]} Back     information, alignment and structure
>d1mwza_ d.58.17.1 (A:) Metal ion-transporting ATPase ZntA, N-terminal domain {Escherichia coli [TaxId: 562]} Back     information, alignment and structure
>d1wr8a_ c.108.1.10 (A:) Phosphoglycolate phosphatase, PGPase {Pyrococcus horikoshii [TaxId: 53953]} Back     information, alignment and structure
>d1mwza_ d.58.17.1 (A:) Metal ion-transporting ATPase ZntA, N-terminal domain {Escherichia coli [TaxId: 562]} Back     information, alignment and structure
>d1sb6a_ d.58.17.1 (A:) Copper chaperone {Synechocystis sp. pcc 6803, Scatx1 [TaxId: 1148]} Back     information, alignment and structure
>d1l6ra_ c.108.1.10 (A:) Phosphoglycolate phosphatase, PGPase {Archaeon Thermoplasma acidophilum [TaxId: 2303]} Back     information, alignment and structure
>d1sb6a_ d.58.17.1 (A:) Copper chaperone {Synechocystis sp. pcc 6803, Scatx1 [TaxId: 1148]} Back     information, alignment and structure
>d1nnla_ c.108.1.4 (A:) Phosphoserine phosphatase {Human (Homo sapiens) [TaxId: 9606]} Back     information, alignment and structure
>d1qupa2 d.58.17.1 (A:2-73) Copper chaperone for superoxide dismutase, N-terminal domain {Baker's yeast (Saccharomyces cerevisiae) [TaxId: 4932]} Back     information, alignment and structure
>d1fe0a_ d.58.17.1 (A:) ATX1 metallochaperone protein (ATOX1) {Human (Homo sapiens), HAH1 [TaxId: 9606]} Back     information, alignment and structure
>d2feaa1 c.108.1.20 (A:2-227) 2-hydroxy-3-keto-5-methylthiopentenyl-1-phosphate phosphatase MtnX {Bacillus subtilis [TaxId: 1423]} Back     information, alignment and structure
>d1cc8a_ d.58.17.1 (A:) ATX1 metallochaperone protein (ATOX1) {Baker's yeast (Saccharomyces cerevisiae) [TaxId: 4932]} Back     information, alignment and structure
>d1qupa2 d.58.17.1 (A:2-73) Copper chaperone for superoxide dismutase, N-terminal domain {Baker's yeast (Saccharomyces cerevisiae) [TaxId: 4932]} Back     information, alignment and structure
>d1fe0a_ d.58.17.1 (A:) ATX1 metallochaperone protein (ATOX1) {Human (Homo sapiens), HAH1 [TaxId: 9606]} Back     information, alignment and structure
>d1cc8a_ d.58.17.1 (A:) ATX1 metallochaperone protein (ATOX1) {Baker's yeast (Saccharomyces cerevisiae) [TaxId: 4932]} Back     information, alignment and structure
>d1rkqa_ c.108.1.10 (A:) Hypothetical protein YidA {Escherichia coli [TaxId: 562]} Back     information, alignment and structure
>d1rlma_ c.108.1.10 (A:) Sugar phosphatase SupH (YbiV) {Escherichia coli [TaxId: 562]} Back     information, alignment and structure
>d1nrwa_ c.108.1.10 (A:) Hypothetical protein YwpJ {Bacillus subtilis [TaxId: 1423]} Back     information, alignment and structure
>d1wpga4 f.33.1.1 (A:1-124,A:240-343,A:751-994) Calcium ATPase, transmembrane domain M {Rabbit (Oryctolagus cuniculus) [TaxId: 9986]} Back     information, alignment and structure
>d1j97a_ c.108.1.4 (A:) Phosphoserine phosphatase {Archaeon Methanococcus jannaschii [TaxId: 2190]} Back     information, alignment and structure
>d1rkua_ c.108.1.11 (A:) Homoserine kinase ThrH {Pseudomonas aeruginosa [TaxId: 287]} Back     information, alignment and structure
>d1nf2a_ c.108.1.10 (A:) Hypothetical protein TM0651 {Thermotoga maritima [TaxId: 2336]} Back     information, alignment and structure
>d2b30a1 c.108.1.10 (A:18-300) PFL1270w orthologue {Plasmodium vivax [TaxId: 5855]} Back     information, alignment and structure
>d2rbka1 c.108.1.10 (A:2-261) Sugar-phosphate phosphatase BT4131 {Bacteroides thetaiotaomicron [TaxId: 818]} Back     information, alignment and structure
>d1wzca1 c.108.1.10 (A:1-243) Putative mannosyl-3-phosphoglycerate phosphatase MPGP (YedP) {Archaeon Pyrococcus horikoshii [TaxId: 53953]} Back     information, alignment and structure
>d1s2oa1 c.108.1.10 (A:1-244) Sucrose-phosphatase Slr0953 {Synechocystis sp. pcc 6803 [TaxId: 1148]} Back     information, alignment and structure
>d1xvia_ c.108.1.10 (A:) Putative mannosyl-3-phosphoglycerate phosphatase MPGP (YedP) {Escherichia coli [TaxId: 562]} Back     information, alignment and structure
>d2hsza1 c.108.1.6 (A:1-224) Phosphoglycolate phosphatase Gph {Haemophilus somnus [TaxId: 731]} Back     information, alignment and structure
>d2hcfa1 c.108.1.6 (A:2-229) Hypothetical protein CT1708 {Chlorobium tepidum [TaxId: 1097]} Back     information, alignment and structure
>d1u02a_ c.108.1.15 (A:) Trehalose-6-phosphate phosphatase related protein {Archaeon Thermoplasma acidophilum [TaxId: 2303]} Back     information, alignment and structure
>d2fuea1 c.108.1.10 (A:13-256) Phosphomannomutase 1 {Human (Homo sapiens) [TaxId: 9606]} Back     information, alignment and structure
>d1swva_ c.108.1.3 (A:) Phosphonoacetaldehyde hydrolase {Bacillus cereus [TaxId: 1396]} Back     information, alignment and structure
>d2bdua1 c.108.1.21 (A:7-297) Cytosolic 5'-nucleotidase III {Mouse (Mus musculus) [TaxId: 10090]} Back     information, alignment and structure
>d1te2a_ c.108.1.6 (A:) Phosphatase YniC {Escherichia coli [TaxId: 562]} Back     information, alignment and structure
>d2ah5a1 c.108.1.6 (A:1-210) predicted phosphatase SP0104 {Streptococcus pneumoniae [TaxId: 1313]} Back     information, alignment and structure
>d2go7a1 c.108.1.6 (A:3-206) Hypothetical protein SP2064 {Streptococcus pneumoniae [TaxId: 1313]} Back     information, alignment and structure
>d1q3ia_ d.220.1.1 (A:) Sodium/potassium-transporting ATPase alpha chain {Pig (Sus scrofa) [TaxId: 9823]} Back     information, alignment and structure
>d2gmwa1 c.108.1.19 (A:24-205) D,D-heptose 1,7-bisphosphate phosphatase GmhB {Escherichia coli [TaxId: 562]} Back     information, alignment and structure
>d1x42a1 c.108.1.1 (A:1-230) Hypothetical protein PH0459 {Archaeon Pyrococcus horikoshii [TaxId: 53953]} Back     information, alignment and structure
>d2hdoa1 c.108.1.6 (A:1-207) Phosphoglycolate phosphatase {Lactobacillus plantarum [TaxId: 1590]} Back     information, alignment and structure
>d1zs9a1 c.108.1.22 (A:4-256) E-1 enzyme {Human(Homo sapiens) [TaxId: 9606]} Back     information, alignment and structure
>d1u7pa_ c.108.1.17 (A:) Magnesium-dependent phosphatase-1, Mdp1 {Mouse (Mus musculus) [TaxId: 10090]} Back     information, alignment and structure
>d2gfha1 c.108.1.6 (A:1-247) N-acylneuraminate-9-phosphatase NANP {Mouse (Mus musculus) [TaxId: 10090]} Back     information, alignment and structure
>d2amya1 c.108.1.10 (A:4-246) Phosphomannomutase 2 {Human (Homo sapiens) [TaxId: 9606]} Back     information, alignment and structure
>d2fi1a1 c.108.1.3 (A:4-190) Putative hydrolase SP0805 {Streptococcus pneumoniae [TaxId: 1313]} Back     information, alignment and structure
>d2fdra1 c.108.1.6 (A:3-224) Hypothetical protein Atu0790 {Agrobacterium tumefaciens [TaxId: 358]} Back     information, alignment and structure
>d1y8aa1 c.108.1.24 (A:1-308) Hypothetical protein AF1437 {Archaeon Archaeoglobus fulgidus [TaxId: 2234]} Back     information, alignment and structure
>d1ltqa1 c.108.1.9 (A:153-301) Polynucleotide kinase, phosphatase domain {Bacteriophage T4 [TaxId: 10665]} Back     information, alignment and structure
>d1zrna_ c.108.1.1 (A:) L-2-Haloacid dehalogenase, HAD {Pseudomonas sp., strain YL [TaxId: 306]} Back     information, alignment and structure
>d1yv9a1 c.108.1.14 (A:4-256) Putative hydrolase EF1188 {Enterococcus faecalis [TaxId: 1351]} Back     information, alignment and structure
>d1wvia_ c.108.1.14 (A:) Putative phosphatase SMU.1415c {Streptococcus mutans [TaxId: 1309]} Back     information, alignment and structure
>d1cr6a1 c.108.1.2 (A:4-225) Epoxide hydrolase, N-terminal domain {Mouse (Mus musculus) [TaxId: 10090]} Back     information, alignment and structure
>d1o08a_ c.108.1.6 (A:) beta-Phosphoglucomutase {Lactococcus lactis [TaxId: 1358]} Back     information, alignment and structure
>d1vjra_ c.108.1.14 (A:) Hypothetical protein TM1742 {Thermotoga maritima [TaxId: 2336]} Back     information, alignment and structure
>d2o2xa1 c.108.1.19 (A:8-216) Hypothetical protein Mll2559 {Mesorhizobium loti [TaxId: 381]} Back     information, alignment and structure
>d2b82a1 c.108.1.12 (A:4-212) Class B acid phosphatase, AphA {Escherichia coli [TaxId: 562]} Back     information, alignment and structure
>d1qq5a_ c.108.1.1 (A:) L-2-Haloacid dehalogenase, HAD {Xanthobacter autotrophicus [TaxId: 280]} Back     information, alignment and structure
>d1zd3a1 c.108.1.2 (A:2-224) Epoxide hydrolase, N-terminal domain {Human (Homo sapiens) [TaxId: 9606]} Back     information, alignment and structure
>d2c4na1 c.108.1.14 (A:1-250) NagD {Escherichia coli [TaxId: 562]} Back     information, alignment and structure
>d1wpga3 d.220.1.1 (A:361-599) Calcium ATPase {Rabbit (Oryctolagus cuniculus) [TaxId: 9986]} Back     information, alignment and structure
>d2fpwa1 c.108.1.19 (A:3-163) Histidine biosynthesis bifunctional protein HisB, phosphatase domain {Escherichia coli [TaxId: 562]} Back     information, alignment and structure
>d2b0ca1 c.108.1.2 (A:8-204) Putative phosphatase YihX {Escherichia coli [TaxId: 562]} Back     information, alignment and structure