Citrus Sinensis ID: 004259
Local Sequence Feature Prediction
| Prediction and (Method) | Result |
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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 |
| Query | 765 | 2.2.26 [Sep-21-2011] | |||||||
| Q9S7J8 | 1001 | Copper-transporting ATPas | yes | no | 0.980 | 0.749 | 0.752 | 0.0 | |
| Q9SH30 | 995 | Putative copper-transport | no | no | 0.903 | 0.694 | 0.446 | 1e-169 | |
| P35670 | 1465 | Copper-transporting ATPas | yes | no | 0.887 | 0.463 | 0.370 | 1e-120 | |
| P70705 | 1492 | Copper-transporting ATPas | yes | no | 0.891 | 0.457 | 0.363 | 1e-119 | |
| Q04656 | 1500 | Copper-transporting ATPas | no | no | 0.884 | 0.451 | 0.364 | 1e-117 | |
| Q64430 | 1491 | Copper-transporting ATPas | yes | no | 0.886 | 0.454 | 0.361 | 1e-117 | |
| Q9XT50 | 1505 | Copper-transporting ATPas | N/A | no | 0.886 | 0.450 | 0.366 | 1e-116 | |
| Q64446 | 1462 | Copper-transporting ATPas | no | no | 0.883 | 0.462 | 0.363 | 1e-115 | |
| Q64535 | 1451 | Copper-transporting ATPas | no | no | 0.896 | 0.472 | 0.353 | 1e-113 | |
| P49015 | 1476 | Copper-transporting ATPas | yes | no | 0.869 | 0.450 | 0.354 | 1e-111 |
| >sp|Q9S7J8|HMA7_ARATH Copper-transporting ATPase RAN1 OS=Arabidopsis thaliana GN=RAN1 PE=1 SV=1 | Back alignment and function desciption |
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Score = 1180 bits (3053), Expect = 0.0, Method: Compositional matrix adjust.
Identities = 578/768 (75%), Positives = 658/768 (85%), Gaps = 18/768 (2%)
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 AEILAESSTSGPKPQGTIVGQYTIGGMTCAACVNSVEGILRGLPGVKRAVVALATSLGEV 170
AEILAE T Q T+VGQ+TIGGMTCAACVNSVEGILR LPGVKRAVVAL+TSLGEV
Sbjct: 121 AEILAEEQT-----QATLVGQFTIGGMTCAACVNSVEGILRDLPGVKRAVVALSTSLGEV 175
Query: 171 EYDPTVISKDDIANAIEDAGFEASFVQSSGQDKILLQVTGVLCELDAHFLEGILSNFKGV 230
EYDP VI+KDDI NAIEDAGFE S VQS+ QDK++L+V G+L ELDA LEGIL+ GV
Sbjct: 176 EYDPNVINKDDIVNAIEDAGFEGSLVQSNQQDKLVLRVDGILNELDAQVLEGILTRLNGV 235
Query: 231 RQFRFDKISGELEVLFDPEALSSRSLVDGIAGRSNGKFQIRVMNPFARMTSRDSEETSNM 290
RQFR D+ISGELEV+FDPE +SSRSLVDGI GKF++RVM+P+ R++S+D+ E SNM
Sbjct: 236 RQFRLDRISGELEVVFDPEVVSSRSLVDGIEEDGFGKFKLRVMSPYERLSSKDTGEASNM 295
Query: 291 FRLFISSLFLSIPVFFIRVICPHIPLVYALLLWRCGPFLMGDWLNWALVSVVQFVIGKRF 350
FR FISSL LSIP+FFI+VICPHI L ALL+WRCGPF+MGDWL WALVSV+QFVIGKRF
Sbjct: 296 FRRFISSLVLSIPLFFIQVICPHIALFDALLVWRCGPFMMGDWLKWALVSVIQFVIGKRF 355
Query: 351 YTAAGRALRNGSTNMDVLVALGTSAAYFYSVGALLYGVVTGFWSPTYFETSAMLITFVLF 410
Y AA RALRNGSTNMDVLVALGTSA+YFYSVGALLYG VTGFWSPTYF+ SAMLITFVL
Sbjct: 356 YVAAWRALRNGSTNMDVLVALGTSASYFYSVGALLYGAVTGFWSPTYFDASAMLITFVLL 415
Query: 411 GKYLEILAKGKTSDAIKKLVELAPATALLVVKDKVGKCIEEREIDALLIQSGDTLKVLPG 470
GKYLE LAKGKTSDA+KKLV+L PATA+L+ + K GK + EREIDALLIQ GDTLKV PG
Sbjct: 416 GKYLESLAKGKTSDAMKKLVQLTPATAILLTEGKGGKLVGEREIDALLIQPGDTLKVHPG 475
Query: 471 TKLPADGIVVWGTSYVNESMVTGEAVPVLKEINSPVIGGTINLHGVLHIQATKVGSDAVL 530
K+PADG+VVWG+SYVNESMVTGE+VPV KE++SPVIGGTIN+HG LH++ATKVGSDAVL
Sbjct: 476 AKIPADGVVVWGSSYVNESMVTGESVPVSKEVDSPVIGGTINMHGALHMKATKVGSDAVL 535
Query: 531 SQIISLVETAQMSKAPIQKFADFVASIFVPIVVTLALFTWLCWYVAGVLGAYPEQWLPEN 590
SQIISLVETAQMSKAPIQKFAD+VASIFVP+V+TLALFT + W + G +GAYP++WLPEN
Sbjct: 536 SQIISLVETAQMSKAPIQKFADYVASIFVPVVITLALFTLVGWSIGGAVGAYPDEWLPEN 595
Query: 591 GTHFVFALMFSISVVVIACPCALGLATPTAVMVATGVGANNGVLIKGGDALERAQKIKYV 650
GTHFVF+LMFSISVVVIACPCALGLATPTAVMVATGVGA NGVLIKGGDALE+A K+KYV
Sbjct: 596 GTHFVFSLMFSISVVVIACPCALGLATPTAVMVATGVGATNGVLIKGGDALEKAHKVKYV 655
Query: 651 IFDKTGTLTQGRATVTTAKVFTKMDRGEFLTLVASAEASSEHPLAKAVVEYARHFHFFDD 710
IFDKTGTLTQG+ATVTT KVF++MDRGEFLTLVASAEASSEHPLAKA+V YARHFHFFD+
Sbjct: 656 IFDKTGTLTQGKATVTTTKVFSEMDRGEFLTLVASAEASSEHPLAKAIVAYARHFHFFDE 715
Query: 711 PSLNPDGQSHSKESTGSGWLLDVSDFSALPGRGIQCFISGKQVLVSFR 758
+ DG++++K+ SGWLLD SDFSALPG+GIQC ++ K +LV R
Sbjct: 716 ST--EDGETNNKDLQNSGWLLDTSDFSALPGKGIQCLVNEKMILVGNR 761
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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 |
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| >sp|P35670|ATP7B_HUMAN Copper-transporting ATPase 2 OS=Homo sapiens GN=ATP7B PE=1 SV=4 | Back alignment and function description |
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| >sp|P70705|ATP7A_RAT Copper-transporting ATPase 1 OS=Rattus norvegicus GN=Atp7a PE=1 SV=1 | Back alignment and function description |
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| >sp|Q04656|ATP7A_HUMAN Copper-transporting ATPase 1 OS=Homo sapiens GN=ATP7A PE=1 SV=3 | Back alignment and function description |
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| >sp|Q64430|ATP7A_MOUSE Copper-transporting ATPase 1 OS=Mus musculus GN=Atp7a PE=1 SV=3 | Back alignment and function description |
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| >sp|Q9XT50|ATP7B_SHEEP Copper-transporting ATPase 2 OS=Ovis aries GN=ATP7B PE=2 SV=1 | Back alignment and function description |
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| >sp|Q64446|ATP7B_MOUSE Copper-transporting ATPase 2 OS=Mus musculus GN=Atp7b PE=1 SV=2 | Back alignment and function description |
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| >sp|Q64535|ATP7B_RAT Copper-transporting ATPase 2 OS=Rattus norvegicus GN=Atp7b PE=2 SV=1 | Back alignment and function description |
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| >sp|P49015|ATP7A_CRIGR Copper-transporting ATPase 1 (Fragment) OS=Cricetulus griseus GN=ATP7A PE=2 SV=1 | Back alignment and function description |
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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 |
| Query | 765 | ||||||
| 359472765 | 1000 | PREDICTED: copper-transporting ATPase RA | 0.986 | 0.755 | 0.787 | 0.0 | |
| 224137820 | 1010 | heavy metal ATPase [Populus trichocarpa] | 0.980 | 0.742 | 0.778 | 0.0 | |
| 297738009 | 952 | unnamed protein product [Vitis vinifera] | 0.930 | 0.747 | 0.816 | 0.0 | |
| 356558246 | 996 | PREDICTED: copper-transporting ATPase RA | 0.975 | 0.748 | 0.779 | 0.0 | |
| 307136407 | 1007 | heavy metal ATPase [Cucumis melo subsp. | 0.986 | 0.749 | 0.754 | 0.0 | |
| 15241582 | 1001 | copper-transporting ATPase RAN1 [Arabido | 0.980 | 0.749 | 0.752 | 0.0 | |
| 14194135 | 1001 | AT5g44790/K23L20_14 [Arabidopsis thalian | 0.980 | 0.749 | 0.752 | 0.0 | |
| 224071055 | 1008 | heavy metal ATPase [Populus trichocarpa] | 0.983 | 0.746 | 0.769 | 0.0 | |
| 449433505 | 1007 | PREDICTED: copper-transporting ATPase RA | 0.986 | 0.749 | 0.750 | 0.0 | |
| 356530268 | 986 | PREDICTED: copper-transporting ATPase RA | 0.975 | 0.756 | 0.766 | 0.0 |
| >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 |
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Score = 1211 bits (3134), Expect = 0.0, Method: Compositional matrix adjust.
Identities = 600/762 (78%), Positives = 662/762 (86%), Gaps = 7/762 (0%)
Query: 2 MALSNRDLQLTELNGGG-----SSDGDDREDEWLLNNYDGKKERIGDGMRRIQVGVTGMT 56
MA S LQLT + GG D D ED LL+ Y + +GMR IQV VTGMT
Sbjct: 1 MAPSFGGLQLTPFSSGGRKTLPDDDAGDLEDVRLLDAYKEDDSGLEEGMRGIQVRVTGMT 60
Query: 57 CAACSNSVEGALMGLKGVAKASVALLQNKADVVFDPDLVKDEDIKNAIEDAGFEAEILAE 116
CAACSNSVEGAL + GV +ASVALLQN+ADVVFDP LV +EDIKNAIEDAGF+AEI++E
Sbjct: 61 CAACSNSVEGALRDVNGVLRASVALLQNRADVVFDPKLVGEEDIKNAIEDAGFDAEIMSE 120
Query: 117 SSTSGPKPQGTIVGQYTIGGMTCAACVNSVEGILRGLPGVKRAVVALATSLGEVEYDPTV 176
S + KP GT++GQ+TIGGMTCA CVNSVEGILR LPGVKRAVVALATSLGEVEYDPT+
Sbjct: 121 PSRT--KPHGTLLGQFTIGGMTCAVCVNSVEGILRKLPGVKRAVVALATSLGEVEYDPTI 178
Query: 177 ISKDDIANAIEDAGFEASFVQSSGQDKILLQVTGVLCELDAHFLEGILSNFKGVRQFRFD 236
ISKDDI NAIEDAGFEASFVQSS QDKI+L VTG+ E+DA LEGIL++ +GVRQF FD
Sbjct: 179 ISKDDIVNAIEDAGFEASFVQSSEQDKIILGVTGISNEMDALILEGILTSIRGVRQFLFD 238
Query: 237 KISGELEVLFDPEALSSRSLVDGIAGRSNGKFQIRVMNPFARMTSRDSEETSNMFRLFIS 296
+ GELEVLFDPE +SSRSLVDGI G SN KF++ V NP+ RMTS+D EE+SNMFRLF S
Sbjct: 239 RTLGELEVLFDPEVISSRSLVDGIEGGSNAKFKLHVKNPYTRMTSKDLEESSNMFRLFTS 298
Query: 297 SLFLSIPVFFIRVICPHIPLVYALLLWRCGPFLMGDWLNWALVSVVQFVIGKRFYTAAGR 356
SLFLSIPVF IRV+CPHIPLV +LLL RCGPFLMGDWL WALVS+VQFVIGKRFY AAGR
Sbjct: 299 SLFLSIPVFLIRVVCPHIPLVDSLLLLRCGPFLMGDWLKWALVSLVQFVIGKRFYIAAGR 358
Query: 357 ALRNGSTNMDVLVALGTSAAYFYSVGALLYGVVTGFWSPTYFETSAMLITFVLFGKYLEI 416
ALRNGS NMDVLVALGTSA+YFYSV ALLYG VTGFWSPTYFE SAMLITFVL GKYLE
Sbjct: 359 ALRNGSANMDVLVALGTSASYFYSVCALLYGAVTGFWSPTYFEASAMLITFVLLGKYLES 418
Query: 417 LAKGKTSDAIKKLVELAPATALLVVKDKVGKCIEEREIDALLIQSGDTLKVLPGTKLPAD 476
LAKGKTSDAIKKLVELAPATALL+VKDK G+ IEE+EIDA+LIQ GD LKVLPGTK+PAD
Sbjct: 419 LAKGKTSDAIKKLVELAPATALLLVKDKGGRFIEEQEIDAMLIQPGDVLKVLPGTKVPAD 478
Query: 477 GIVVWGTSYVNESMVTGEAVPVLKEINSPVIGGTINLHGVLHIQATKVGSDAVLSQIISL 536
GIV+WG+SYVNESMVTGE+ PV KE+NSPVIGGT+NL+G LHIQATKVGS+AVLSQIISL
Sbjct: 479 GIVMWGSSYVNESMVTGESAPVSKEVNSPVIGGTMNLYGALHIQATKVGSNAVLSQIISL 538
Query: 537 VETAQMSKAPIQKFADFVASIFVPIVVTLALFTWLCWYVAGVLGAYPEQWLPENGTHFVF 596
VETAQMSKAPIQKFADFVASIFVP VV ++L T L WYV+G LGAYP+QWLPENG +FVF
Sbjct: 539 VETAQMSKAPIQKFADFVASIFVPTVVAMSLLTLLGWYVSGTLGAYPKQWLPENGNYFVF 598
Query: 597 ALMFSISVVVIACPCALGLATPTAVMVATGVGANNGVLIKGGDALERAQKIKYVIFDKTG 656
ALMF+ISVVVIACPCALGLATPTAVMVATGVGANNGVLIKGGDALERAQK+KYV+FDKTG
Sbjct: 599 ALMFAISVVVIACPCALGLATPTAVMVATGVGANNGVLIKGGDALERAQKVKYVVFDKTG 658
Query: 657 TLTQGRATVTTAKVFTKMDRGEFLTLVASAEASSEHPLAKAVVEYARHFHFFDDPSLNPD 716
TLTQG+ATVTTAKVFT MD GEFLTLVASAEASSEHPLA A+VEYARHFHFF++PS D
Sbjct: 659 TLTQGKATVTTAKVFTGMDHGEFLTLVASAEASSEHPLAVAIVEYARHFHFFEEPSTTKD 718
Query: 717 GQSHSKESTGSGWLLDVSDFSALPGRGIQCFISGKQVLVSFR 758
Q HS+E+ SGWLLDVS+FSALPGRG+QCFI GK+VLV R
Sbjct: 719 AQDHSRETRFSGWLLDVSEFSALPGRGVQCFIKGKRVLVGNR 760
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Source: Vitis vinifera Species: Vitis vinifera Genus: Vitis Family: Vitaceae Order: Vitales Class: Phylum: Streptophyta Superkingdom: Eukaryota |
| >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 |
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| >gi|297738009|emb|CBI27210.3| unnamed protein product [Vitis vinifera] | Back alignment and taxonomy information |
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| >gi|356558246|ref|XP_003547418.1| PREDICTED: copper-transporting ATPase RAN1-like [Glycine max] | Back alignment and taxonomy information |
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| >gi|307136407|gb|ADN34216.1| heavy metal ATPase [Cucumis melo subsp. melo] | Back alignment and taxonomy information |
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| >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 |
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| >gi|14194135|gb|AAK56262.1|AF367273_1 AT5g44790/K23L20_14 [Arabidopsis thaliana] | Back alignment and taxonomy information |
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| >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 |
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| >gi|449433505|ref|XP_004134538.1| PREDICTED: copper-transporting ATPase RAN1-like [Cucumis sativus] | Back alignment and taxonomy information |
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| >gi|356530268|ref|XP_003533704.1| PREDICTED: copper-transporting ATPase RAN1-like [Glycine max] | Back alignment and taxonomy information |
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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 |
| Query | 765 | ||||||
| TAIR|locus:2156354 | 1001 | RAN1 "RESPONSIVE-TO-ANTAGONIST | 0.980 | 0.749 | 0.747 | 5.9e-302 | |
| TAIR|locus:2031361 | 995 | HMA5 "heavy metal atpase 5" [A | 0.904 | 0.695 | 0.448 | 5.6e-155 | |
| DICTYBASE|DDB_G0284141 | 985 | atp7a "copper-transporting ATP | 0.430 | 0.334 | 0.513 | 1.3e-130 | |
| UNIPROTKB|F1M5X3 | 1434 | Atp7b "Copper-transporting ATP | 0.810 | 0.432 | 0.382 | 8.9e-123 | |
| RGD|2180 | 1451 | Atp7b "ATPase, Cu++ transporti | 0.810 | 0.427 | 0.382 | 1.2e-122 | |
| UNIPROTKB|Q9QUG4 | 1452 | Atp7b "Copper-transporting ATP | 0.810 | 0.426 | 0.382 | 1.3e-122 | |
| UNIPROTKB|F1MKI1 | 1505 | ATP7B "Uncharacterized protein | 0.784 | 0.398 | 0.385 | 2e-120 | |
| ZFIN|ZDB-GENE-110407-7 | 1364 | si:dkey-276l13.3 "si:dkey-276l | 0.783 | 0.439 | 0.396 | 4.6e-120 | |
| UNIPROTKB|F1PJE7 | 1508 | ATP7B "Uncharacterized protein | 0.784 | 0.397 | 0.383 | 5.5e-119 | |
| UNIPROTKB|F1PK99 | 1499 | ATP7A "Uncharacterized protein | 0.775 | 0.395 | 0.375 | 1.7e-116 |
| TAIR|locus:2156354 RAN1 "RESPONSIVE-TO-ANTAGONIST 1" [Arabidopsis thaliana (taxid:3702)] | Back alignment and assigned GO terms |
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Score = 2898 (1025.2 bits), Expect = 5.9e-302, P = 5.9e-302
Identities = 574/768 (74%), Positives = 652/768 (84%)
Query: 2 MALSNRDLQLTELNXXXXXXXXXXXXXWLLNNYDG---------KKERIGD--GMRRIQV 50
MA S RDLQLT + LL++Y K E D 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 AEILAESSTSGPKPQGTIVGQYTIGGMTCAACVNSVEGILRGLPGVKRAVVALATSLGEV 170
AEILAE T Q T+VGQ+TIGGMTCAACVNSVEGILR LPGVKRAVVAL+TSLGEV
Sbjct: 121 AEILAEEQT-----QATLVGQFTIGGMTCAACVNSVEGILRDLPGVKRAVVALSTSLGEV 175
Query: 171 EYDPTVISKDDIANAIEDAGFEASFVQSSGQDKILLQVTGVLCELDAHFLEGILSNFKGV 230
EYDP VI+KDDI NAIEDAGFE S VQS+ QDK++L+V G+L ELDA LEGIL+ GV
Sbjct: 176 EYDPNVINKDDIVNAIEDAGFEGSLVQSNQQDKLVLRVDGILNELDAQVLEGILTRLNGV 235
Query: 231 RQFRFDKISGELEVLFDPEALSSRSLVDGIAGRSNGKFQIRVMNPFARMTSRDSEETSNM 290
RQFR D+ISGELEV+FDPE +SSRSLVDGI GKF++RVM+P+ R++S+D+ E SNM
Sbjct: 236 RQFRLDRISGELEVVFDPEVVSSRSLVDGIEEDGFGKFKLRVMSPYERLSSKDTGEASNM 295
Query: 291 FRLFISSLFLSIPVFFIRVICPHIPLVYALLLWRCGPFLMGDWLNWALVSVVQFVIGKRF 350
FR FISSL LSIP+FFI+VICPHI L ALL+WRCGPF+MGDWL WALVSV+QFVIGKRF
Sbjct: 296 FRRFISSLVLSIPLFFIQVICPHIALFDALLVWRCGPFMMGDWLKWALVSVIQFVIGKRF 355
Query: 351 YTAAGRALRNGSTNMDVLVALGTSAAYFYSVGALLYGVVTGFWSPTYFETSAMLITFVLF 410
Y AA RALRNGSTNMDVLVALGTSA+YFYSVGALLYG VTGFWSPTYF+ SAMLITFVL
Sbjct: 356 YVAAWRALRNGSTNMDVLVALGTSASYFYSVGALLYGAVTGFWSPTYFDASAMLITFVLL 415
Query: 411 GKYLEILAKGKTSDAIKKLVELAPATALLVVKDKVGKCIEEREIDALLIQSGDTLKVLPG 470
GKYLE LAKGKTSDA+KKLV+L PATA+L+ + K GK + EREIDALLIQ GDTLKV PG
Sbjct: 416 GKYLESLAKGKTSDAMKKLVQLTPATAILLTEGKGGKLVGEREIDALLIQPGDTLKVHPG 475
Query: 471 TKLPADGIVVWGTSYVNESMVTGEAVPVLKEINSPVIGGTINLHGVLHIQATKVGSDAVL 530
K+PADG+VVWG+SYVNESMVTGE+VPV KE++SPVIGGTIN+HG LH++ATKVGSDAVL
Sbjct: 476 AKIPADGVVVWGSSYVNESMVTGESVPVSKEVDSPVIGGTINMHGALHMKATKVGSDAVL 535
Query: 531 SQIISLVETAQMSKAPIQKFADFVASIFVPIVVTLALFTWLCWYVAGVLGAYPEQWLPEN 590
SQIISLVETAQMSKAPIQKFAD+VASIFVP+V+TLALFT + W + G +GAYP++WLPEN
Sbjct: 536 SQIISLVETAQMSKAPIQKFADYVASIFVPVVITLALFTLVGWSIGGAVGAYPDEWLPEN 595
Query: 591 GTHFVFALMFSISVVVIACPCALGLATPTAVMVATGVGANNGVLIKGGDALERAQKIKYV 650
GTHFVF+LMFSISVVVIACPCALGLATPTAVMVATGVGA NGVLIKGGDALE+A K+KYV
Sbjct: 596 GTHFVFSLMFSISVVVIACPCALGLATPTAVMVATGVGATNGVLIKGGDALEKAHKVKYV 655
Query: 651 IFDKTGTLTQGRATVTTAKVFTKMDRGEFLTLVASAEASSEHPLAKAVVEYARHFHFFDD 710
IFDKTGTLTQG+ATVTT KVF++MDRGEFLTLVASAEASSEHPLAKA+V YARHFHFFD+
Sbjct: 656 IFDKTGTLTQGKATVTTTKVFSEMDRGEFLTLVASAEASSEHPLAKAIVAYARHFHFFDE 715
Query: 711 PSLNPDGQSHSKESTGSGWLLDVSDFSALPGRGIQCFISGKQVLVSFR 758
+ DG++++K+ SGWLLD SDFSALPG+GIQC ++ K +LV R
Sbjct: 716 ST--EDGETNNKDLQNSGWLLDTSDFSALPGKGIQCLVNEKMILVGNR 761
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| TAIR|locus:2031361 HMA5 "heavy metal atpase 5" [Arabidopsis thaliana (taxid:3702)] | Back alignment and assigned GO terms |
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| DICTYBASE|DDB_G0284141 atp7a "copper-transporting ATPase" [Dictyostelium discoideum (taxid:44689)] | Back alignment and assigned GO terms |
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| UNIPROTKB|F1M5X3 Atp7b "Copper-transporting ATPase 2" [Rattus norvegicus (taxid:10116)] | Back alignment and assigned GO terms |
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| RGD|2180 Atp7b "ATPase, Cu++ transporting, beta polypeptide" [Rattus norvegicus (taxid:10116)] | Back alignment and assigned GO terms |
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| UNIPROTKB|Q9QUG4 Atp7b "Copper-transporting ATPase 2" [Rattus norvegicus (taxid:10116)] | Back alignment and assigned GO terms |
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| UNIPROTKB|F1MKI1 ATP7B "Uncharacterized protein" [Bos taurus (taxid:9913)] | Back alignment and assigned GO terms |
|---|
| ZFIN|ZDB-GENE-110407-7 si:dkey-276l13.3 "si:dkey-276l13.3" [Danio rerio (taxid:7955)] | Back alignment and assigned GO terms |
|---|
| UNIPROTKB|F1PJE7 ATP7B "Uncharacterized protein" [Canis lupus familiaris (taxid:9615)] | Back alignment and assigned GO terms |
|---|
| UNIPROTKB|F1PK99 ATP7A "Uncharacterized protein" [Canis lupus familiaris (taxid:9615)] | 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) |
| Q9S7J8 | HMA7_ARATH | 3, ., 6, ., 3, ., 4 | 0.7526 | 0.9803 | 0.7492 | yes | no |
EC Number Prediction by Ezypred Server
Original result from Ezypred Server
Fail to connect to Ezypred Server
EC Number Prediction by EFICAz Software
| Prediction Level | EC number | Confidence of Prediction |
| 3rd Layer | 3.6.3 | 0.963 |
| 3rd Layer | 3.6.3.4 | 0.946 |
Prediction of Functionally Associated Proteins
Functionally Associated Proteins Detected by STRING
Original result from the STRING server
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 | estExt_Genewise1_v1.C_290004 | SubName- Full=Putative uncharacterized protein; (1010 aa) | ||||||
(Populus trichocarpa) | ||||||||
| 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 |
| Query | 765 | |||
| TIGR01511 | 572 | TIGR01511, ATPase-IB1_Cu, copper-(or silver)-trans | 1e-166 | |
| COG2217 | 713 | COG2217, ZntA, Cation transport ATPase [Inorganic | 1e-159 | |
| TIGR01525 | 556 | TIGR01525, ATPase-IB_hvy, heavy metal translocatin | 1e-113 | |
| PRK10671 | 834 | PRK10671, copA, copper exporting ATPase; Provision | 3e-80 | |
| TIGR01512 | 536 | TIGR01512, ATPase-IB2_Cd, heavy metal-(Cd/Co/Hg/Pb | 3e-78 | |
| pfam00122 | 222 | pfam00122, E1-E2_ATPase, E1-E2 ATPase | 6e-59 | |
| TIGR01494 | 543 | TIGR01494, ATPase_P-type, ATPase, P-type (transpor | 4e-55 | |
| PRK11033 | 741 | PRK11033, zntA, zinc/cadmium/mercury/lead-transpor | 3e-47 | |
| COG0474 | 917 | COG0474, MgtA, Cation transport ATPase [Inorganic | 2e-20 | |
| PRK14010 | 673 | PRK14010, PRK14010, potassium-transporting ATPase | 2e-19 | |
| cd00371 | 63 | cd00371, HMA, Heavy-metal-associated domain (HMA) | 9e-18 | |
| COG2216 | 681 | COG2216, KdpB, High-affinity K+ transport system, | 2e-17 | |
| TIGR01497 | 675 | TIGR01497, kdpB, K+-transporting ATPase, B subunit | 2e-17 | |
| cd00371 | 63 | cd00371, HMA, Heavy-metal-associated domain (HMA) | 2e-16 | |
| COG2608 | 71 | COG2608, CopZ, Copper chaperone [Inorganic ion tra | 3e-15 | |
| PRK01122 | 679 | PRK01122, PRK01122, potassium-transporting ATPase | 1e-14 | |
| COG2608 | 71 | COG2608, CopZ, Copper chaperone [Inorganic ion tra | 4e-14 | |
| pfam00403 | 62 | pfam00403, HMA, Heavy-metal-associated domain | 7e-14 | |
| pfam00403 | 62 | pfam00403, HMA, Heavy-metal-associated domain | 2e-13 | |
| TIGR01517 | 944 | TIGR01517, ATPase-IIB_Ca, plasma-membrane calcium- | 1e-12 | |
| COG2217 | 713 | COG2217, ZntA, Cation transport ATPase [Inorganic | 1e-10 | |
| TIGR00003 | 66 | TIGR00003, TIGR00003, copper ion binding protein | 2e-10 | |
| COG2217 | 713 | COG2217, ZntA, Cation transport ATPase [Inorganic | 3e-10 | |
| PRK10671 | 834 | PRK10671, copA, copper exporting ATPase; Provision | 2e-09 | |
| TIGR01657 | 1054 | TIGR01657, P-ATPase-V, P-type ATPase of unknown pu | 7e-09 | |
| TIGR01106 | 997 | TIGR01106, ATPase-IIC_X-K, sodium or proton efflux | 1e-08 | |
| PRK13748 | 561 | PRK13748, PRK13748, putative mercuric reductase; P | 1e-07 | |
| TIGR00003 | 66 | TIGR00003, TIGR00003, copper ion binding protein | 3e-07 | |
| TIGR01647 | 754 | TIGR01647, ATPase-IIIA_H, plasma-membrane proton-e | 5e-07 | |
| TIGR02052 | 92 | TIGR02052, MerP, mercuric transport protein peripl | 2e-06 | |
| TIGR02052 | 92 | TIGR02052, MerP, mercuric transport protein peripl | 3e-06 | |
| PRK10671 | 834 | PRK10671, copA, copper exporting ATPase; Provision | 1e-05 | |
| PRK13748 | 561 | PRK13748, PRK13748, putative mercuric reductase; P | 1e-05 | |
| TIGR01524 | 867 | TIGR01524, ATPase-IIIB_Mg, magnesium-translocating | 2e-05 | |
| PRK11033 | 741 | PRK11033, zntA, zinc/cadmium/mercury/lead-transpor | 1e-04 | |
| TIGR01522 | 884 | TIGR01522, ATPase-IIA2_Ca, golgi membrane calcium- | 3e-04 | |
| PRK11033 | 741 | PRK11033, zntA, zinc/cadmium/mercury/lead-transpor | 5e-04 | |
| PLN02957 | 238 | PLN02957, PLN02957, copper, zinc superoxide dismut | 5e-04 |
| >gnl|CDD|233445 TIGR01511, ATPase-IB1_Cu, copper-(or silver)-translocating P-type ATPase | Back alignment and domain information |
|---|
Score = 491 bits (1265), Expect = e-166
Identities = 201/411 (48%), Positives = 263/411 (63%), Gaps = 41/411 (9%)
Query: 346 IGKRFYTAAGRALRNGSTNMDVLVALGTSAAYFYSVGALLYGVV-TGFWSPTYFETSAML 404
G+ FY +A +ALR+ + NMD L+ALGT+ AY YS+ ALL V TG T+F+ SAML
Sbjct: 1 AGRPFYKSAWKALRHKTPNMDTLIALGTTVAYGYSLVALLANQVLTGLHVHTFFDASAML 60
Query: 405 ITFVLFGKYLEILAKGKTSDAIKKLVELAPATALLVVKDKVGKCIEEREIDALLIQSGDT 464
ITF+L G++LE+LAKG+ SDA+ KL +L P+TA L+ D E E+ L+Q GD
Sbjct: 61 ITFILLGRWLEMLAKGRASDALSKLAKLQPSTATLLTDDG-----EIEEVPVELLQPGDI 115
Query: 465 LKVLPGTKLPADGIVVWGTSYVNESMVTGEAVPVLKEINSPVIGGTINLHGVLHIQATKV 524
++VLPG K+P DG V+ G S V+ES+VTGE++PV K++ PVI GT+N G L ++AT
Sbjct: 116 VRVLPGEKIPVDGTVIEGESEVDESLVTGESLPVPKKVGDPVIAGTVNGTGSLVVRATAT 175
Query: 525 GSDAVLSQIISLVETAQMSKAPIQKFADFVASIFVPIVVTLALFTWLCWYVAGVLGAYPE 584
G D L+QI+ LV AQ SKAPIQ+ AD VA FVP+V+ +AL T++ W + G
Sbjct: 176 GEDTTLAQIVRLVRQAQQSKAPIQRLADKVAGYFVPVVIAIALITFVIWLILG------- 228
Query: 585 QWLPENGTHFVFALMFSISVVVIACPCALGLATPTAVMVATGVGANNGVLIKGGDALERA 644
FVFAL +++V++IACPCALGLATPT + VATG+ A NGVLIK GDALERA
Sbjct: 229 -------ADFVFALEVAVTVLIIACPCALGLATPTVIAVATGLAAKNGVLIKDGDALERA 281
Query: 645 QKIKYVIFDKTGTLTQGRATVTTAKVFTKMDRGEFLTLVASAEASSEHPLAKAVVEYARH 704
I V+FDKTGTLTQG+ TVT VF + DR E L L A+ EA SEHPLAKA+V YA+
Sbjct: 282 ANIDTVVFDKTGTLTQGKPTVTDVHVFGESDRDELLALAAALEAGSEHPLAKAIVSYAKA 341
Query: 705 FHFFDDPSLNPDGQSHSKESTGSGWLLDVSDFSALPGRGIQCFISGKQVLV 755
L VSDF A+PG G++ + G + +
Sbjct: 342 KGIT---------------------LSQVSDFKAIPGIGVEGTVEGHTIQL 371
|
This model describes the P-type ATPase primarily responsible for translocating copper ions accross biological membranes. These transporters are found in prokaryotes and eukaryotes. This model encompasses those species which pump copper ions out of cells or organelles (efflux pumps such as CopA of Escherichia coli ) as well as those which pump the ion into cells or organelles either for the purpose of supporting life in extremely low-copper environments (for example CopA of Enterococcus hirae ) or for the specific delivery of copper to a biological complex for which it is a necessary component (for example FixI of Bradyrhizobium japonicum, or CtaA and PacS of Synechocystis). The substrate specificity of these transporters may, to a varying degree, include silver ions (for example, CopA from Archaeoglobus fulgidus). Copper transporters from this family are well known as the genes which are mutated in two human disorders of copper metabolism, Wilson's and Menkes' diseases. The sequences contributing to the seed of this model are all experimentally characterized. The copper P-type ATPases have been characterized as Type IB based on a phylogenetic analysis which combines the copper-translocating ATPases with the cadmium-translocating species. This model and that describing the cadmium-ATPases (TIGR01512) are well separated, and thus we further type the copper-ATPases as IB1 (and the cadmium-ATPases as IB2). Several sequences which have not been characterized experimentally fall just below the cutoffs for both of these models. A sequence from Enterococcus faecalis scores very high against this model, but yet is annotated as an "H+/K+ exchanging ATPase". BLAST of this sequence does not hit anything else annotated in this way. This error may come from the characterization paper published in 1987. Accession GP|7415611 from Saccharomyces cerevisiae appears to be mis-annotated as a cadmium resistance protein. Accession OMNI|NTL01HS00542 from Halobacterium which scores above trusted for this model is annotated as "molybdenum-binding protein" although no evidence can be found for this classification [Cellular processes, Detoxification, Transport and binding proteins, Cations and iron carrying compounds]. Length = 572 |
| >gnl|CDD|225127 COG2217, ZntA, Cation transport ATPase [Inorganic ion transport and metabolism] | 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|215733 pfam00122, E1-E2_ATPase, E1-E2 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|223550 COG0474, MgtA, Cation transport ATPase [Inorganic ion transport and metabolism] | Back alignment and domain information |
|---|
| >gnl|CDD|184448 PRK14010, PRK14010, potassium-transporting ATPase subunit B; 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|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|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|234905 PRK01122, PRK01122, potassium-transporting ATPase subunit B; 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|215902 pfam00403, HMA, Heavy-metal-associated domain | Back alignment and domain information |
|---|
| >gnl|CDD|215902 pfam00403, HMA, Heavy-metal-associated domain | 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|225127 COG2217, ZntA, Cation transport ATPase [Inorganic ion transport and metabolism] | 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|182635 PRK10671, copA, copper exporting ATPase; Provisional | 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|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|184298 PRK13748, PRK13748, putative mercuric reductase; Provisional | Back alignment and domain information |
|---|
| >gnl|CDD|188014 TIGR00003, TIGR00003, copper ion binding protein | 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|131107 TIGR02052, MerP, mercuric transport protein periplasmic component | 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|130587 TIGR01524, ATPase-IIIB_Mg, magnesium-translocating P-type ATPase | Back alignment and domain information |
|---|
| >gnl|CDD|236827 PRK11033, zntA, zinc/cadmium/mercury/lead-transporting ATPase; Provisional | 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|236827 PRK11033, zntA, zinc/cadmium/mercury/lead-transporting ATPase; Provisional | Back alignment and domain information |
|---|
| >gnl|CDD|215516 PLN02957, PLN02957, copper, zinc superoxide dismutase | Back alignment and domain information |
|---|
Conserved Domains Detected by HHsearch
Original result of HHsearch against CDD database
| ID | Alignment Graph | Length |
Definition |
Probability |
| Query | 765 | |||
| KOG0207 | 951 | consensus Cation transport ATPase [Inorganic ion t | 100.0 | |
| COG2217 | 713 | ZntA Cation transport ATPase [Inorganic ion transp | 100.0 | |
| PRK10671 | 834 | copA copper exporting ATPase; Provisional | 100.0 | |
| PRK11033 | 741 | zntA zinc/cadmium/mercury/lead-transporting ATPase | 100.0 | |
| TIGR01511 | 562 | ATPase-IB1_Cu copper-(or silver)-translocating P-t | 100.0 | |
| TIGR01525 | 556 | ATPase-IB_hvy heavy metal translocating P-type ATP | 100.0 | |
| TIGR01512 | 536 | ATPase-IB2_Cd heavy metal-(Cd/Co/Hg/Pb/Zn)-translo | 100.0 | |
| TIGR01647 | 755 | ATPase-IIIA_H plasma-membrane proton-efflux P-type | 100.0 | |
| TIGR01497 | 675 | kdpB K+-transporting ATPase, B subunit. One sequen | 100.0 | |
| PRK01122 | 679 | potassium-transporting ATPase subunit B; Provision | 100.0 | |
| PRK14010 | 673 | potassium-transporting ATPase subunit B; Provision | 100.0 | |
| TIGR01524 | 867 | ATPase-IIIB_Mg magnesium-translocating P-type ATPa | 100.0 | |
| TIGR01494 | 499 | ATPase_P-type ATPase, P-type (transporting), HAD s | 100.0 | |
| PRK10517 | 902 | magnesium-transporting ATPase MgtA; Provisional | 100.0 | |
| PRK15122 | 903 | magnesium-transporting ATPase; Provisional | 100.0 | |
| TIGR01522 | 884 | ATPase-IIA2_Ca golgi membrane calcium-translocatin | 100.0 | |
| TIGR01517 | 941 | ATPase-IIB_Ca plasma-membrane calcium-translocatin | 100.0 | |
| TIGR01106 | 997 | ATPase-IIC_X-K sodium or proton efflux -- potassiu | 100.0 | |
| TIGR01116 | 917 | ATPase-IIA1_Ca sarco/endoplasmic reticulum calcium | 100.0 | |
| COG0474 | 917 | MgtA Cation transport ATPase [Inorganic ion transp | 100.0 | |
| TIGR01657 | 1054 | P-ATPase-V P-type ATPase of unknown pump specifici | 100.0 | |
| TIGR01523 | 1053 | ATPase-IID_K-Na potassium and/or sodium efflux P-t | 100.0 | |
| KOG0202 | 972 | consensus Ca2+ transporting ATPase [Inorganic ion | 100.0 | |
| KOG0204 | 1034 | consensus Calcium transporting ATPase [Inorganic i | 100.0 | |
| KOG0205 | 942 | consensus Plasma membrane H+-transporting ATPase [ | 100.0 | |
| PF00122 | 230 | E1-E2_ATPase: E1-E2 ATPase p-type cation-transport | 100.0 | |
| KOG0208 | 1140 | consensus Cation transport ATPase [Inorganic ion t | 100.0 | |
| TIGR01652 | 1057 | ATPase-Plipid phospholipid-translocating P-type AT | 100.0 | |
| COG2216 | 681 | KdpB High-affinity K+ transport system, ATPase cha | 100.0 | |
| PLN03190 | 1178 | aminophospholipid translocase; Provisional | 99.97 | |
| KOG0203 | 1019 | consensus Na+/K+ ATPase, alpha subunit [Inorganic | 99.97 | |
| KOG0209 | 1160 | consensus P-type ATPase [Inorganic ion transport a | 99.95 | |
| KOG0210 | 1051 | consensus P-type ATPase [Inorganic ion transport a | 99.92 | |
| KOG0206 | 1151 | consensus P-type ATPase [General function predicti | 99.86 | |
| KOG0207 | 951 | consensus Cation transport ATPase [Inorganic ion t | 99.57 | |
| PF00403 | 62 | HMA: Heavy-metal-associated domain; InterPro: IPR0 | 99.26 | |
| PRK10671 | 834 | copA copper exporting ATPase; Provisional | 99.22 | |
| COG2608 | 71 | CopZ Copper chaperone [Inorganic ion transport and | 99.18 | |
| PF00403 | 62 | HMA: Heavy-metal-associated domain; InterPro: IPR0 | 99.12 | |
| COG2608 | 71 | CopZ Copper chaperone [Inorganic ion transport and | 99.09 | |
| PF00702 | 215 | Hydrolase: haloacid dehalogenase-like hydrolase; I | 98.9 | |
| COG2217 | 713 | ZntA Cation transport ATPase [Inorganic ion transp | 98.13 | |
| TIGR00003 | 68 | copper ion binding protein. This model describes a | 97.61 | |
| TIGR00003 | 68 | copper ion binding protein. This model describes a | 97.5 | |
| PLN02957 | 238 | copper, zinc superoxide dismutase | 97.3 | |
| KOG4656 | 247 | consensus Copper chaperone for superoxide dismutas | 97.18 | |
| KOG1603 | 73 | consensus Copper chaperone [Inorganic ion transpor | 97.06 | |
| KOG4656 | 247 | consensus Copper chaperone for superoxide dismutas | 96.91 | |
| PLN02957 | 238 | copper, zinc superoxide dismutase | 96.71 | |
| PRK11033 | 741 | zntA zinc/cadmium/mercury/lead-transporting ATPase | 96.39 | |
| KOG1603 | 73 | consensus Copper chaperone [Inorganic ion transpor | 96.31 | |
| PF00873 | 1021 | ACR_tran: AcrB/AcrD/AcrF family; InterPro: IPR0010 | 93.75 | |
| TIGR02052 | 92 | MerP mercuric transport protein periplasmic compon | 92.71 | |
| TIGR02052 | 92 | MerP mercuric transport protein periplasmic compon | 90.65 | |
| KOG4383 | 1354 | consensus Uncharacterized conserved protein [Funct | 90.13 | |
| PRK14054 | 172 | methionine sulfoxide reductase A; Provisional | 86.87 | |
| TIGR00915 | 1044 | 2A0602 The (Largely Gram-negative Bacterial) Hydro | 85.27 | |
| PRK10555 | 1037 | aminoglycoside/multidrug efflux system; Provisiona | 84.34 | |
| PRK09577 | 1032 | multidrug efflux protein; Reviewed | 84.22 | |
| cd00371 | 63 | HMA Heavy-metal-associated domain (HMA) is a conse | 84.15 | |
| PRK10503 | 1040 | multidrug efflux system subunit MdtB; Provisional | 83.26 | |
| PRK05528 | 156 | methionine sulfoxide reductase A; Provisional | 82.63 | |
| PRK13748 | 561 | putative mercuric reductase; Provisional | 80.73 | |
| PRK13014 | 186 | methionine sulfoxide reductase A; Provisional | 80.36 |
| >KOG0207 consensus Cation transport ATPase [Inorganic ion transport and metabolism] | Back alignment and domain information |
|---|
Probab=100.00 E-value=5.8e-114 Score=954.06 Aligned_cols=671 Identities=47% Similarity=0.745 Sum_probs=606.8
Q ss_pred CCCCChhhHHHHHHhhhCCCCeeEEEEEeccCEEEEEECCCCCCHHHHHHHhHhcCcchhhhcccCCCCCCCCcceecee
Q 004259 53 TGMTCAACSNSVEGALMGLKGVAKASVALLQNKADVVFDPDLVKDEDIKNAIEDAGFEAEILAESSTSGPKPQGTIVGQY 132 (765)
Q Consensus 53 ~gm~C~~C~~~Ie~~l~~~~Gv~~~~v~~~~~~~~v~~~~~~~~~~~i~~~i~~~Gy~~~~~~~~~~~~~~~~~~~~~~~ 132 (765)
.||+|..|.+.+++++++.+|+.+..+++.++++.+.|+ ...+++.+.+++++.||++.....+..+ ..+..+
T Consensus 1 ~gmtc~ac~~si~~~~~~~~g~~~i~vsl~~~~~~v~~~-~~~~~~~i~~~ied~gf~~~~~~~~~~~------~~~~~l 73 (951)
T KOG0207|consen 1 KGMTCSACSNSIEKAISRKPGVQKIEVSLAQKRANVSYD-NIVSPESIKETIEDMGFEASLLSDSEIT------ASKCYL 73 (951)
T ss_pred CCccHHHHhhhHHHHHhcCCCceeEEEEeccccceEEEe-eccCHHHHHHHhhcccceeeecccCccc------cceeEE
Confidence 489999999999999999999999999999999999999 7789999999999999999776543321 225679
Q ss_pred ecccccchhhHHHHHhhhcCCCCeeeEEeeeccCeEEEEeCCCCCCHHHHHHHHHhcCCceeEeecCC---cceeEEEEe
Q 004259 133 TIGGMTCAACVNSVEGILRGLPGVKRAVVALATSLGEVEYDPTVISKDDIANAIEDAGFEASFVQSSG---QDKILLQVT 209 (765)
Q Consensus 133 ~i~gm~C~~C~~~Ie~~l~~~~GV~~~~vn~~~~~~~v~~~~~~~~~~~i~~~i~~~Gy~~~~~~~~~---~~~~~~~i~ 209 (765)
++.||+|++|+..||+.+++.+|+.++.+.+..+++.+.|||..++++.+.+.++++||.+....+.+ ...+.|.+.
T Consensus 74 ~v~GmtC~scv~~i~~~l~~~~gv~~~~val~~~~~~v~~dp~v~s~~~~~e~ie~~gf~a~~i~~~~~~~~~~i~L~v~ 153 (951)
T KOG0207|consen 74 SVNGMTCASCVATIERNLRKIEGVESAVVALSASKAEVIYDPAVTSPDSIAESIEDLGFSAELIESVNGNSNQKIYLDVL 153 (951)
T ss_pred EecCceeHHHHHHHHHHhhccCCcceEEEEeeccceeEEECCcccCchhHHHHHHhcCccceehhcccCCCCCcEEEEee
Confidence 99999999999999999999999999999999999999999999999999999999999998876532 257899999
Q ss_pred cccchhhhHHHHhhhccCCCceEEEeecCCCeEEEEecCCCCChhhHHHhhhhcCCCcceeEecCccc---cccccchhh
Q 004259 210 GVLCELDAHFLEGILSNFKGVRQFRFDKISGELEVLFDPEALSSRSLVDGIAGRSNGKFQIRVMNPFA---RMTSRDSEE 286 (765)
Q Consensus 210 gm~c~~ca~~ie~~l~~~~GV~~v~vn~~~~~~~V~ydp~~i~~~~i~~~i~~~g~~~~~~~~~~~~~---~~~~~~~~e 286 (765)
||.|.+|+..||+.+.+++||.+++++..++++.|.|||..+++|++.+.++..+ |.+....... ....+...+
T Consensus 154 g~~c~s~~~~ie~~l~~l~gV~~~sv~~~t~~~~V~~~~~~~~pr~i~k~ie~~~---~~~~~~~~~~~~~~~~l~~~~e 230 (951)
T KOG0207|consen 154 GMTCASCVSKIESILERLRGVKSFSVSLATDTAIVVYDPEITGPRDIIKAIEETG---FEASVRPYGDTTFKNSLKHKEE 230 (951)
T ss_pred cccccchhhhhHHHHhhccCeeEEEEeccCCceEEEecccccChHHHHHHHHhhc---ccceeeeccccchhhhhhhhhH
Confidence 9999999999999999999999999999999999999999999999999999998 6554322111 112234567
Q ss_pred HHHHHHHHHHHHHHHHHHHHHHhhcCchhhHHHHhhhccCCcchHHHHHHHHHHHHhhhcCHHHHHHHHHHHHcCCCChh
Q 004259 287 TSNMFRLFISSLFLSIPVFFIRVICPHIPLVYALLLWRCGPFLMGDWLNWALVSVVQFVIGKRFYTAAGRALRNGSTNMD 366 (765)
Q Consensus 287 ~~~~~~~~~~~lllai~v~i~~m~l~~~~~~~~~~~~~~~~~~~~~~~~~~l~~~v~~~~g~~~~~~a~~~l~~~~~~md 366 (765)
+++|++.|.+++.+++|++++.+.++++.++...+.....++++..+++++|++|++|..||+||..||++|+++..|||
T Consensus 231 i~~w~~~fl~s~~~~~~v~~~~~~~~~~~~~~~~~~~~~~~~~~~~~l~~~L~~~vqf~~G~~fy~~A~ksL~~g~~nMd 310 (951)
T KOG0207|consen 231 IRKWKRPFLISLGFSLPVSFAMIICPPLAWILALLVPFLPGLSYGNSLSFVLATPVQFVGGRPFYLAAYKSLKRGSANMD 310 (951)
T ss_pred HHhcchHHHHHHHHHHHHHHHHHHhccchhhhhhhccccccchhhhHHHhhhheeeEEecceeeHHHHHHHHhcCCCCce
Confidence 89999999999999999999888887755433222222456778899999999999999999999999999999999999
Q ss_pred HHHHHHHHHHHHHHHHHHHHhhhcCCCCcchhhhhHHHHHHHHHHHHHHHHHhchHHHHHHHHHhcCCCeEEEEEecCCC
Q 004259 367 VLVALGTSAAYFYSVGALLYGVVTGFWSPTYFETSAMLITFVLFGKYLEILAKGKTSDAIKKLVELAPATALLVVKDKVG 446 (765)
Q Consensus 367 ~l~~l~~~~a~~~s~~~~~~~~~~~~~~~~~~~~~~~li~~~~~~~~le~~~~~k~~~~l~~l~~~~~~~~~v~~~~~~g 446 (765)
+|++|++.++|+||++.++....... +..|||++.|++.|+.+|+|+|.+++.|+..++.+|.++.|.++.++ .+|
T Consensus 311 vLv~L~t~aay~~S~~~~~~~~~~~~-~~tfFdt~~MLi~fi~lgr~LE~~Ak~kts~alskLmsl~p~~a~ii---~~g 386 (951)
T KOG0207|consen 311 VLVVLGTTAAYFYSIFSLLAAVVFDS-PPTFFDTSPMLITFITLGRWLESLAKGKTSEALSKLMSLAPSKATII---EDG 386 (951)
T ss_pred eehhhHHHHHHHHHHHHHHHHHHccC-cchhccccHHHHHHHHHHHHHHHHhhccchHHHHHHhhcCcccceEe---ecC
Confidence 99999999999999999988766644 78899999999999999999999999999999999999999999999 555
Q ss_pred ceeeeEEeeccCcCCCCEEEEcCCCccCccEEEEeccceeeccccCCCcceeccCCCCceeeeeeeecceEEEEEEEeCC
Q 004259 447 KCIEEREIDALLIQSGDTLKVLPGTKLPADGIVVWGTSYVNESMVTGEAVPVLKEINSPVIGGTINLHGVLHIQATKVGS 526 (765)
Q Consensus 447 ~~~~~~~i~~~~l~~GDiv~v~~Ge~iP~Dg~vl~g~~~Vdes~LTGEs~pv~k~~g~~v~aGt~~~~g~~~~~v~~~g~ 526 (765)
. .+++|+.+.+++||+|.|+||++||+||+|++|++.||||++|||+.||.|++|++|.+||+|.+|.+.+++++.|+
T Consensus 387 ~--~e~eI~v~lvq~gdivkV~pG~kiPvDG~Vv~Gss~VDEs~iTGEs~PV~Kk~gs~ViaGsiN~nG~l~VkaT~~g~ 464 (951)
T KOG0207|consen 387 S--EEKEIPVDLVQVGDIVKVKPGEKIPVDGVVVDGSSEVDESLITGESMPVPKKKGSTVIAGSINLNGTLLVKATKVGG 464 (951)
T ss_pred C--cceEeeeeeeccCCEEEECCCCccccccEEEeCceeechhhccCCceecccCCCCeeeeeeecCCceEEEEEEeccc
Confidence 2 27899999999999999999999999999999999999999999999999999999999999999999999999999
Q ss_pred cchHHHHHHHHHHhccCCChhHHHHHHHHHHHHHHHHHHHHHHHHHHHHHhhc-CCCCCcccCCCcchHHHHHHHHhhee
Q 004259 527 DAVLSQIISLVETAQMSKAPIQKFADFVASIFVPIVVTLALFTWLCWYVAGVL-GAYPEQWLPENGTHFVFALMFSISVV 605 (765)
Q Consensus 527 ~t~~~~i~~~~~~~~~~k~~~~~~~~~~~~~~~~~~l~~a~~~~~~~~~~~~~-~~~~~~~~~~~~~~~~~~~~~~i~vl 605 (765)
||.+++|+++++++|.+|+|+|+++|+++.||+|+++++++++|++|++.+.. ..++..|. ..+..+|.++++|+
T Consensus 465 dttla~IvkLVEEAQ~sKapiQq~aDkia~yFvP~Vi~lS~~t~~~w~~~g~~~~~~~~~~~----~~~~~a~~~aisVl 540 (951)
T KOG0207|consen 465 DTTLAQIVKLVEEAQLSKAPIQQLADKIAGYFVPVVIVLSLATFVVWILIGKIVFKYPRSFF----DAFSHAFQLAISVL 540 (951)
T ss_pred cchHHHHHHHHHHHHcccchHHHHHHHhhhcCCchhhHHHHHHHHHHHHHccccccCcchhh----HHHHHHHHhhheEE
Confidence 99999999999999999999999999999999999999999999999998763 33444443 57889999999999
Q ss_pred eecccchhhhhHHHHHHHHHHHHhhcceEEecchHHhhhcCCcEEEecCCCccccCceEEEEEEecCC-CCHHHHHHHHH
Q 004259 606 VIACPCALGLATPTAVMVATGVGANNGVLIKGGDALERAQKIKYVIFDKTGTLTQGRATVTTAKVFTK-MDRGEFLTLVA 684 (765)
Q Consensus 606 v~~~P~al~la~p~~~~~~~~~~~~~gilik~~~~le~lg~v~~i~fDKTGTLT~g~~~v~~~~~~~~-~~~~~~l~~a~ 684 (765)
+++|||+|+||+|++++.+++.++++|+|+|+++.+|.+.++++|+||||||||+|+|.|.++....+ .+..++|.+++
T Consensus 541 viACPCaLgLATPtAvmvatgvgA~nGvLIKGge~LE~~hkv~tVvFDKTGTLT~G~~~V~~~~~~~~~~~~~e~l~~v~ 620 (951)
T KOG0207|consen 541 VIACPCALGLATPTAVMVATGVGATNGVLIKGGEALEKAHKVKTVVFDKTGTLTEGKPTVVDFKSLSNPISLKEALALVA 620 (951)
T ss_pred EEECchhhhcCCceEEEEEechhhhcceEEcCcHHHHHHhcCCEEEEcCCCceecceEEEEEEEecCCcccHHHHHHHHH
Confidence 99999999999999999999999999999999999999999999999999999999999999999877 78899999999
Q ss_pred HHHccCCChHHHHHHHHHHhccCCCCCCCCCCCCCCCcCcCCCCcccCCCceeeecCCe--eEEEEcCeEEEeecccccc
Q 004259 685 SAEASSEHPLAKAVVEYARHFHFFDDPSLNPDGQSHSKESTGSGWLLDVSDFSALPGRG--IQCFISGKQVLVSFRFHRT 762 (765)
Q Consensus 685 ~~e~~s~hPia~Ai~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~G~G--v~~~~~g~~~~vG~~~~~~ 762 (765)
++|+.|+||+++||++||++.. . ......+.++++.||+| +.+.++|+++.+||++||+
T Consensus 621 a~Es~SeHPig~AIv~yak~~~-----------~--------~~~~~~~~~~~~~pg~g~~~~~~~~~~~i~iGN~~~~~ 681 (951)
T KOG0207|consen 621 AMESGSEHPIGKAIVDYAKEKL-----------V--------EPNPEGVLSFEYFPGEGIYVTVTVDGNEVLIGNKEWMS 681 (951)
T ss_pred HHhcCCcCchHHHHHHHHHhcc-----------c--------ccCccccceeecccCCCcccceEEeeeEEeechHHHHH
Confidence 9999999999999999999872 0 01123467899999999 8899999999999999996
|
|
| >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 |
|---|
| >TIGR01525 ATPase-IB_hvy heavy metal 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 |
|---|
| >TIGR01647 ATPase-IIIA_H plasma-membrane proton-efflux P-type ATPase | Back alignment and domain information |
|---|
| >TIGR01497 kdpB K+-transporting ATPase, B subunit | Back alignment and domain information |
|---|
| >PRK01122 potassium-transporting ATPase subunit B; Provisional | Back alignment and domain information |
|---|
| >PRK14010 potassium-transporting ATPase subunit B; Provisional | Back alignment and domain information |
|---|
| >TIGR01524 ATPase-IIIB_Mg magnesium-translocating P-type ATPase | Back alignment and domain information |
|---|
| >TIGR01494 ATPase_P-type ATPase, P-type (transporting), HAD superfamily, subfamily IC | Back alignment and domain information |
|---|
| >PRK10517 magnesium-transporting ATPase MgtA; Provisional | Back alignment and domain information |
|---|
| >PRK15122 magnesium-transporting ATPase; Provisional | Back alignment and domain information |
|---|
| >TIGR01522 ATPase-IIA2_Ca golgi membrane calcium-translocating P-type ATPase | Back alignment and domain information |
|---|
| >TIGR01517 ATPase-IIB_Ca plasma-membrane calcium-translocating P-type ATPase | 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 |
|---|
| >TIGR01116 ATPase-IIA1_Ca sarco/endoplasmic reticulum calcium-translocating P-type ATPase | Back alignment and domain information |
|---|
| >COG0474 MgtA Cation transport ATPase [Inorganic ion transport and metabolism] | Back alignment and domain information |
|---|
| >TIGR01657 P-ATPase-V P-type ATPase of unknown pump specificity (type V) | 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 |
|---|
| >KOG0202 consensus Ca2+ transporting ATPase [Inorganic ion transport and metabolism] | Back alignment and domain information |
|---|
| >KOG0204 consensus Calcium transporting 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 |
|---|
| >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 |
|---|
| >KOG0208 consensus Cation transport ATPase [Inorganic ion transport and metabolism] | Back alignment and domain information |
|---|
| >TIGR01652 ATPase-Plipid phospholipid-translocating P-type ATPase, flippase | 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 |
|---|
| >PLN03190 aminophospholipid translocase; Provisional | Back alignment and domain information |
|---|
| >KOG0203 consensus Na+/K+ ATPase, alpha subunit [Inorganic ion transport and metabolism] | 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 |
|---|
| >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 |
|---|
| >PRK10671 copA copper exporting ATPase; Provisional | Back alignment and domain information |
|---|
| >COG2608 CopZ Copper chaperone [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 |
|---|
| >COG2608 CopZ Copper chaperone [Inorganic ion transport and metabolism] | 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 |
|---|
| >COG2217 ZntA Cation transport ATPase [Inorganic ion transport and metabolism] | Back alignment and domain information |
|---|
| >TIGR00003 copper ion binding protein | Back alignment and domain information |
|---|
| >TIGR00003 copper ion binding protein | Back alignment and domain information |
|---|
| >PLN02957 copper, zinc superoxide dismutase | Back alignment and domain information |
|---|
| >KOG4656 consensus Copper chaperone for superoxide dismutase [Inorganic ion transport and metabolism] | Back alignment and domain information |
|---|
| >KOG1603 consensus Copper chaperone [Inorganic ion transport and metabolism] | Back alignment and domain information |
|---|
| >KOG4656 consensus Copper chaperone for superoxide dismutase [Inorganic ion transport and metabolism] | Back alignment and domain information |
|---|
| >PLN02957 copper, zinc superoxide dismutase | Back alignment and domain information |
|---|
| >PRK11033 zntA zinc/cadmium/mercury/lead-transporting ATPase; Provisional | Back alignment and domain information |
|---|
| >KOG1603 consensus Copper chaperone [Inorganic ion transport and metabolism] | Back alignment and domain information |
|---|
| >PF00873 ACR_tran: AcrB/AcrD/AcrF family; InterPro: IPR001036 The Escherichia coli acrA and acrB genes encode a multi-drug efflux system that is believed to protect the bacterium against hydrophobic inhibitors [] | Back alignment and domain information |
|---|
| >TIGR02052 MerP mercuric transport protein periplasmic component | Back alignment and domain information |
|---|
| >TIGR02052 MerP mercuric transport protein periplasmic component | Back alignment and domain information |
|---|
| >KOG4383 consensus Uncharacterized conserved protein [Function unknown] | Back alignment and domain information |
|---|
| >PRK14054 methionine sulfoxide reductase A; Provisional | Back alignment and domain information |
|---|
| >TIGR00915 2A0602 The (Largely Gram-negative Bacterial) Hydrophobe/Amphiphile Efflux-1 (HAE1) Family | Back alignment and domain information |
|---|
| >PRK10555 aminoglycoside/multidrug efflux system; Provisional | Back alignment and domain information |
|---|
| >PRK09577 multidrug efflux protein; Reviewed | Back alignment and domain information |
|---|
| >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 |
|---|
| >PRK10503 multidrug efflux system subunit MdtB; Provisional | Back alignment and domain information |
|---|
| >PRK05528 methionine sulfoxide reductase A; Provisional | Back alignment and domain information |
|---|
| >PRK13748 putative mercuric reductase; Provisional | Back alignment and domain information |
|---|
| >PRK13014 methionine sulfoxide reductase A; Provisional | 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 | |
| Query | 765 | ||||
| 3j09_A | 723 | High Resolution Helical Reconstruction Of The Bacte | 3e-71 | ||
| 3j08_A | 645 | High Resolution Helical Reconstruction Of The Bacte | 2e-69 | ||
| 3rfu_A | 736 | Crystal Structure Of A Copper-Transporting Pib-Type | 1e-68 | ||
| 2kij_A | 124 | Solution Structure Of The Actuator Domain Of The Co | 1e-23 | ||
| 2ew9_A | 149 | Solution Structure Of Apowln5-6 Length = 149 | 8e-23 | ||
| 2ew9_A | 149 | Solution Structure Of Apowln5-6 Length = 149 | 3e-14 | ||
| 3dxs_X | 74 | Crystal Structure Of A Copper Binding Domain From H | 2e-22 | ||
| 3dxs_X | 74 | Crystal Structure Of A Copper Binding Domain From H | 2e-06 | ||
| 2hc8_A | 113 | Structure Of The A. Fulgidus Copa A-Domain Length = | 6e-20 | ||
| 2rop_A | 202 | Solution Structure Of Domains 3 And 4 Of Human Atp7 | 2e-17 | ||
| 2rop_A | 202 | Solution Structure Of Domains 3 And 4 Of Human Atp7 | 5e-09 | ||
| 2rml_A | 147 | Solution Structure Of The N-Terminal Soluble Domain | 3e-16 | ||
| 1p6t_A | 151 | Structure Characterization Of The Water Soluble Reg | 5e-16 | ||
| 3sky_A | 274 | 2.1a Crystal Structure Of The Phosphate Bound Atp B | 1e-13 | ||
| 3skx_A | 280 | Crystal Structure Of The Atp Binding Domain Of Arch | 1e-13 | ||
| 3a1c_A | 287 | Crystal Structure Of The P- And N-Domains Of Copa, | 8e-13 | ||
| 3a1e_A | 287 | Crystal Structure Of The P- And N-Domains Of His462 | 7e-12 | ||
| 1aw0_A | 72 | Fourth Metal-Binding Domain Of The Menkes Copper- T | 1e-11 | ||
| 2ggp_B | 72 | Solution Structure Of The Atx1-Cu(I)-Ccc2a Complex | 3e-11 | ||
| 2ggp_B | 72 | Solution Structure Of The Atx1-Cu(I)-Ccc2a Complex | 4e-07 | ||
| 1fvs_A | 72 | Solution Structure Of The Yeast Copper Transporter | 3e-11 | ||
| 1fvs_A | 72 | Solution Structure Of The Yeast Copper Transporter | 4e-07 | ||
| 1mhs_A | 920 | Model Of Neurospora Crassa Proton Atpase Length = 9 | 6e-11 | ||
| 1yju_A | 75 | Solution Structure Of The Apo Form Of The Sixth Sol | 2e-10 | ||
| 1yju_A | 75 | Solution Structure Of The Apo Form Of The Sixth Sol | 1e-09 | ||
| 2b8e_A | 273 | Copa Atp Binding Domain Length = 273 | 4e-10 | ||
| 1yjr_A | 75 | Solution Structure Of The Apo Form Of The Sixth Sol | 7e-10 | ||
| 1yjr_A | 75 | Solution Structure Of The Apo Form Of The Sixth Sol | 4e-09 | ||
| 2iye_A | 263 | Structure Of Catalytic Cpx-atpase Domain Copb-b Len | 2e-09 | ||
| 3b8e_A | 998 | Crystal Structure Of The Sodium-Potassium Pump Leng | 5e-09 | ||
| 3ixz_A | 1034 | Pig Gastric H+K+-Atpase Complexed With Aluminium Fl | 8e-09 | ||
| 2yj4_A | 263 | Conformational Changes In The Catalytic Domain Of T | 9e-09 | ||
| 2yj3_A | 263 | Conformational Changes In The Catalytic Domain Of T | 9e-09 | ||
| 3n23_A | 992 | Crystal Structure Of The High Affinity Complex Betw | 5e-08 | ||
| 2zxe_A | 1028 | Crystal Structure Of The Sodium - Potassium Pump In | 5e-08 | ||
| 1s6o_A | 76 | Solution Structure And Backbone Dynamics Of The Apo | 8e-08 | ||
| 1s6o_A | 76 | Solution Structure And Backbone Dynamics Of The Apo | 4e-06 | ||
| 1q8l_A | 84 | Second Metal Binding Domain Of The Menkes Atpase Le | 8e-08 | ||
| 1q8l_A | 84 | Second Metal Binding Domain Of The Menkes Atpase Le | 4e-06 | ||
| 1kvi_A | 79 | Solution Structure Of The Reduced Form Of The First | 8e-07 | ||
| 2k1r_A | 73 | The Solution Nmr Structure Of The Complex Between M | 8e-07 | ||
| 2ldi_A | 71 | Nmr Solution Structure Of Ziaan Sub Mutant Length = | 1e-06 | ||
| 2ldi_A | 71 | Nmr Solution Structure Of Ziaan Sub Mutant Length = | 1e-05 | ||
| 1p8g_A | 73 | The Solution Structure Of Apo Copz From Bacillus Su | 1e-06 | ||
| 1p8g_A | 73 | The Solution Structure Of Apo Copz From Bacillus Su | 2e-04 | ||
| 1y3k_A | 77 | Solution Structure Of The Apo Form Of The Fifth Dom | 1e-06 | ||
| 2qif_A | 69 | Crystal Structure Of A Metallochaperone With A Tetr | 1e-06 | ||
| 2qif_A | 69 | Crystal Structure Of A Metallochaperone With A Tetr | 3e-04 | ||
| 2ofh_X | 111 | Solution Structure Of The N-Terminal Domain Of The | 3e-06 | ||
| 2ofh_X | 111 | Solution Structure Of The N-Terminal Domain Of The | 4e-05 | ||
| 2ofg_X | 111 | Solution Structure Of The N-Terminal Domain Of The | 3e-06 | ||
| 2ofg_X | 111 | Solution Structure Of The N-Terminal Domain Of The | 4e-05 | ||
| 3cjk_B | 75 | Crystal Structure Of The Adduct Hah1-Cd(Ii)-Mnk1 Le | 4e-06 | ||
| 1kqk_A | 80 | Solution Structure Of The N-Terminal Domain Of A Po | 5e-06 | ||
| 2voy_A | 80 | Cryoem Model Of Copa, The Copper Transporting Atpas | 5e-06 | ||
| 2l3m_A | 71 | Solution Structure Of The Putative Copper-Ion-Bindi | 7e-06 | ||
| 2l3m_A | 71 | Solution Structure Of The Putative Copper-Ion-Bindi | 9e-06 | ||
| 1opz_A | 76 | A Core Mutation Affecting The Folding Properties Of | 1e-05 | ||
| 1opz_A | 76 | A Core Mutation Affecting The Folding Properties Of | 3e-05 | ||
| 1afi_A | 72 | Structure Of The Reduced Form Of Merp, The Periplas | 2e-04 | ||
| 2dqs_A | 995 | Crystal Structure Of The Calcium Pump With Amppcp I | 2e-04 | ||
| 1kju_A | 994 | Ca2+-Atpase In The E2 State Length = 994 | 2e-04 | ||
| 2arf_A | 165 | Solution Structure Of The Wilson Atpase N-Domain In | 6e-04 | ||
| 1osd_A | 72 | Crystal Structure Of Oxidized Merp From Ralstonia M | 8e-04 | ||
| 3b8c_A | 885 | Crystal Structure Of A Plasma Membrane Proton Pump | 8e-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 |
|
| >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|2KIJ|A Chain A, Solution Structure Of The Actuator Domain Of The Copper- Transporting Atpase Atp7a Length = 124 | Back alignment and structure |
| >pdb|2EW9|A Chain A, Solution Structure Of Apowln5-6 Length = 149 | Back alignment and structure |
| >pdb|2EW9|A Chain A, Solution Structure Of Apowln5-6 Length = 149 | 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|3DXS|X Chain X, Crystal Structure Of A Copper Binding Domain From Hma7, A P- Type Atpase Length = 74 | Back alignment and structure |
| >pdb|2HC8|A Chain A, Structure Of The A. Fulgidus Copa A-Domain Length = 113 | 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|2ROP|A Chain A, Solution Structure Of Domains 3 And 4 Of Human Atp7b Length = 202 | 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|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|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|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|1AW0|A Chain A, Fourth Metal-Binding Domain Of The Menkes Copper- Transporting Atpase, Nmr, 20 Structures Length = 72 | 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|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|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|1MHS|A Chain A, Model Of Neurospora Crassa Proton Atpase Length = 920 | 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|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|2B8E|A Chain A, Copa Atp Binding Domain Length = 273 | 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|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|2IYE|A Chain A, Structure Of Catalytic Cpx-atpase Domain Copb-b Length = 263 | Back alignment and structure |
| >pdb|3B8E|A Chain A, Crystal Structure Of The Sodium-Potassium Pump Length = 998 | 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|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|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|2ZXE|A Chain A, Crystal Structure Of The Sodium - Potassium Pump In The E2.2k+.Pi State Length = 1028 | 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|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|1Q8L|A Chain A, Second Metal Binding Domain Of The Menkes Atpase Length = 84 | 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|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|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|1P8G|A Chain A, The Solution Structure Of Apo Copz From Bacillus Subtilis Length = 73 | 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|2QIF|A Chain A, Crystal Structure Of A Metallochaperone With A Tetranuclear Cu(I) Cluster Length = 69 | 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|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|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|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|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|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|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 |
| >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|2ARF|A Chain A, Solution Structure Of The Wilson Atpase N-Domain In The Presence Of Atp Length = 165 | Back alignment and structure |
| >pdb|1OSD|A Chain A, Crystal Structure Of Oxidized Merp From Ralstonia Metallidurans Ch34 Length = 72 | Back alignment and structure |
| >pdb|3B8C|A Chain A, Crystal Structure Of A Plasma Membrane Proton Pump Length = 885 | Back alignment and structure |
Structure Templates Detected by RPS-BLAST
Original result of RPS-BLAST against PDB70 database
| >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 |
|---|
Score = 533 bits (1375), Expect = e-180
Identities = 168/486 (34%), Positives = 253/486 (52%), Gaps = 54/486 (11%)
Query: 277 ARMTSRDSEETSNMFRLFISSLFLSIPVFFIRVICPHIPLVYALLLWRCGPFLMGDWLNW 336
++ S E +M R F +L L+IPV + + + + W+
Sbjct: 68 VTVSEVVSPEYLDMRRRFWIALMLTIPVVILEMGGHGLKHFISGNGSS--------WIQL 119
Query: 337 ALVSVVQFVIGKRFYTAAGRALRNGSTNMDVLVALGTSAAYFYSVGALLY-------GVV 389
L + V G F+ ++L+ G NM L+A+G A+ YS+ A+L+
Sbjct: 120 LLATPVVLWGGWPFFKRGWQSLKTGQLNMFTLIAMGIGVAWIYSMVAVLWPGVFPHAFRS 179
Query: 390 TGFWSPTYFETSAMLITFVLFGKYLEILAKGKTSDAIKKLVELAPATALLVVKDKVGKCI 449
YFE +A++ T VL G+ LE+ A+ +T AI+ L++L P +A + +D
Sbjct: 180 QEGVVAVYFEAAAVITTLVLLGQVLELKAREQTGSAIRALLKLVPESAHRIKEDG----- 234
Query: 450 EEREIDALLIQSGDTLKVLPGTKLPADGIVVWGTSYVNESMVTGEAVPVLKEINSPVIGG 509
E E+ + GD L+V PG K+P DG V G S+V+ESMVTGE +PV KE ++ VIG
Sbjct: 235 SEEEVSLDNVAVGDLLRVRPGEKIPVDGEVQEGRSFVDESMVTGEPIPVAKEASAKVIGA 294
Query: 510 TINLHGVLHIQATKVGSDAVLSQIISLVETAQMSKAPIQKFADFVASIFVPIVVTLALFT 569
TIN G ++A VGSD +L++I+ +V AQ S+APIQ+ AD V+ FVP V+ +A+ +
Sbjct: 295 TINQTGSFVMKALHVGSDTMLARIVQMVSDAQRSRAPIQRLADTVSGWFVPAVILVAVLS 354
Query: 570 WLCWYVAGVLGAYPEQWLPENGTHFVFALMFSISVVVIACPCALGLATPTAVMVATGVGA 629
++ W + G P+ + L+ ++SV++IACPCALGLATP ++MV G GA
Sbjct: 355 FIVWALLG----------PQPA--LSYGLIAAVSVLIIACPCALGLATPMSIMVGVGKGA 402
Query: 630 NNGVLIKGGDALERAQKIKYVIFDKTGTLTQGRATVTTAKVFTKMDRGEFLTLVASAEAS 689
+GVLIK +ALER +K+ ++ DKTGTLT+G +T V L L A+ E
Sbjct: 403 QSGVLIKNAEALERMEKVNTLVVDKTGTLTEGHPKLTRI-VTDDFVEDNALALAAALEHQ 461
Query: 690 SEHPLAKAVVEYARHFHFFDDPSLNPDGQSHSKESTGSGWLLDVSDFSALPGRGIQCFIS 749
SEHPLA A+V A+ K + L V F A G+G+ +
Sbjct: 462 SEHPLANAIVHAAK-----------------EKGLS----LGSVEAFEAPTGKGVVGQVD 500
Query: 750 GKQVLV 755
G V +
Sbjct: 501 GHHVAI 506
|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >2crl_A Copper chaperone for superoxide dismutase; SOD1, familial ALS, structural genomics, NPPSFA; NMR {Homo sapiens} Length = 98 | 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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 Length = 222 | Back alignment and structure |
|---|
Structure Templates Detected by HHsearch
Original result of HHsearch against PDB70 database
| ID | Alignment Graph | Length |
Definition |
Probability |
| Query | 765 | |||
| 3j09_A | 723 | COPA, copper-exporting P-type ATPase A; copper tra | 100.0 | |
| 3rfu_A | 736 | Copper efflux ATPase; alpha helical, CPC, CXXC, AT | 100.0 | |
| 3j08_A | 645 | COPA, copper-exporting P-type ATPase A; copper tra | 100.0 | |
| 1mhs_A | 920 | Proton pump, plasma membrane ATPase; ION transport | 100.0 | |
| 2zxe_A | 1028 | Na, K-ATPase alpha subunit; membrane protein, ION | 100.0 | |
| 3b8c_A | 885 | ATPase 2, plasma membrane-type; P-type ATPase, pro | 100.0 | |
| 3ar4_A | 995 | Sarcoplasmic/endoplasmic reticulum calcium ATPase; | 100.0 | |
| 3ixz_A | 1034 | Potassium-transporting ATPase alpha; ION pump, H+, | 100.0 | |
| 2hc8_A | 113 | PACS, cation-transporting ATPase, P-type; copper, | 99.95 | |
| 2kij_A | 124 | Copper-transporting ATPase 1; actuator, menkes dis | 99.94 | |
| 2ew9_A | 149 | Copper-transporting ATPase 2; copper trafficking, | 99.84 | |
| 1p6t_A | 151 | Potential copper-transporting ATPase; COPA, P-type | 99.82 | |
| 2ew9_A | 149 | Copper-transporting ATPase 2; copper trafficking, | 99.81 | |
| 2rop_A | 202 | Copper-transporting ATPase 2; wilson protein, mobi | 99.78 | |
| 1p6t_A | 151 | Potential copper-transporting ATPase; COPA, P-type | 99.77 | |
| 2rop_A | 202 | Copper-transporting ATPase 2; wilson protein, mobi | 99.72 | |
| 2yj3_A | 263 | Copper-transporting ATPase; hydrolase, P-type ATPa | 99.55 | |
| 2kmv_A | 185 | Copper-transporting ATPase 1; menkes, nucleotide b | 99.63 | |
| 2arf_A | 165 | Wilson disease ATPase; P-type ATPase,ATP7B, copper | 99.53 | |
| 3a1c_A | 287 | Probable copper-exporting P-type ATPase A; ATP-bin | 99.51 | |
| 1svj_A | 156 | Potassium-transporting ATPase B chain; alpha-beta | 99.4 | |
| 3dxs_X | 74 | Copper-transporting ATPase RAN1; CXXC motif, ferre | 99.28 | |
| 3skx_A | 280 | Copper-exporting P-type ATPase B; P1B-ATPase, ATP | 99.23 | |
| 4a4j_A | 69 | Pacszia, cation-transporting ATPase PACS; hydrolas | 99.2 | |
| 3dxs_X | 74 | Copper-transporting ATPase RAN1; CXXC motif, ferre | 99.15 | |
| 2ofg_X | 111 | Zinc-transporting ATPase; ferredoxin-like fold, be | 99.14 | |
| 2ofg_X | 111 | Zinc-transporting ATPase; ferredoxin-like fold, be | 99.1 | |
| 3fry_A | 73 | Probable copper-exporting P-type ATPase A; transpo | 99.09 | |
| 3iwl_A | 68 | Copper transport protein ATOX1; beta-alpha-beta-BE | 99.07 | |
| 1osd_A | 72 | MERP, hypothetical protein MERP; mercury resistanc | 99.05 | |
| 4a4j_A | 69 | Pacszia, cation-transporting ATPase PACS; hydrolas | 99.04 | |
| 2l3m_A | 71 | Copper-ION-binding protein; structural genomics, c | 99.04 | |
| 1y3j_A | 77 | Copper-transporting ATPase 1; ferrodoxin-like fold | 99.04 | |
| 3cjk_B | 75 | Copper-transporting ATPase 1; HAH1, ATP7B, menkes | 99.03 | |
| 1kvi_A | 79 | Copper-transporting ATPase 1; menkes, Cu-protein, | 99.02 | |
| 2g9o_A | 90 | Copper-transporting ATPase 1; menkes disease, solu | 99.01 | |
| 1cpz_A | 68 | Protein (COPZ); copper chaperone, metal transport, | 99.01 | |
| 1aw0_A | 72 | Menkes copper-transporting ATPase; copper-binding | 99.0 | |
| 2xmw_A | 71 | PACS-N, cation-transporting ATPase PACS; hydrolase | 99.0 | |
| 1q8l_A | 84 | Copper-transporting ATPase 1; metal binding protei | 99.0 | |
| 3fry_A | 73 | Probable copper-exporting P-type ATPase A; transpo | 98.99 | |
| 2kt2_A | 69 | Mercuric reductase; nmera, MERA, HMA domain, mercu | 98.98 | |
| 1yg0_A | 66 | COP associated protein; open-faced beta-sandwich, | 98.98 | |
| 2qif_A | 69 | Copper chaperone COPZ; tetranuclear Cu(I) cluster; | 98.97 | |
| 3iwl_A | 68 | Copper transport protein ATOX1; beta-alpha-beta-BE | 98.96 | |
| 2ldi_A | 71 | Zinc-transporting ATPase; metal homeostasis, metal | 98.96 | |
| 1mwy_A | 73 | ZNTA; open-faced beta-sandwich fold, beta-alpha-be | 98.95 | |
| 1opz_A | 76 | Potential copper-transporting ATPase; mutation, fo | 98.95 | |
| 1fvq_A | 72 | Copper-transporting ATPase; APO-CCC2A, hydrolase; | 98.95 | |
| 2l3m_A | 71 | Copper-ION-binding protein; structural genomics, c | 98.93 | |
| 1yjr_A | 75 | Copper-transporting ATPase 1; metallochaperone, pr | 98.92 | |
| 1jww_A | 80 | Potential copper-transporting ATPase; beta-alpha-b | 98.9 | |
| 1osd_A | 72 | MERP, hypothetical protein MERP; mercury resistanc | 98.86 | |
| 2roe_A | 66 | Heavy metal binding protein; NMR {Thermus thermoph | 98.86 | |
| 2qif_A | 69 | Copper chaperone COPZ; tetranuclear Cu(I) cluster; | 98.86 | |
| 1y3j_A | 77 | Copper-transporting ATPase 1; ferrodoxin-like fold | 98.86 | |
| 1cc8_A | 73 | Protein (metallochaperone ATX1); copper transport, | 98.85 | |
| 1kvi_A | 79 | Copper-transporting ATPase 1; menkes, Cu-protein, | 98.84 | |
| 1q8l_A | 84 | Copper-transporting ATPase 1; metal binding protei | 98.84 | |
| 2g9o_A | 90 | Copper-transporting ATPase 1; menkes disease, solu | 98.83 | |
| 3cjk_B | 75 | Copper-transporting ATPase 1; HAH1, ATP7B, menkes | 98.83 | |
| 2kkh_A | 95 | Putative heavy metal transporter; zinc transport, | 98.82 | |
| 1mwy_A | 73 | ZNTA; open-faced beta-sandwich fold, beta-alpha-be | 98.82 | |
| 2kyz_A | 67 | Heavy metal binding protein; structural genomics, | 98.82 | |
| 1aw0_A | 72 | Menkes copper-transporting ATPase; copper-binding | 98.81 | |
| 1opz_A | 76 | Potential copper-transporting ATPase; mutation, fo | 98.81 | |
| 2xmw_A | 71 | PACS-N, cation-transporting ATPase PACS; hydrolase | 98.81 | |
| 1yg0_A | 66 | COP associated protein; open-faced beta-sandwich, | 98.8 | |
| 2xmm_A | 64 | SSR2857 protein, ATX1; metal transport, copper hom | 98.79 | |
| 2k2p_A | 85 | Uncharacterized protein ATU1203; putative metal-bi | 98.79 | |
| 1cpz_A | 68 | Protein (COPZ); copper chaperone, metal transport, | 98.78 | |
| 2ldi_A | 71 | Zinc-transporting ATPase; metal homeostasis, metal | 98.77 | |
| 2crl_A | 98 | Copper chaperone for superoxide dismutase; SOD1, f | 98.74 | |
| 1fvq_A | 72 | Copper-transporting ATPase; APO-CCC2A, hydrolase; | 98.73 | |
| 1jww_A | 80 | Potential copper-transporting ATPase; beta-alpha-b | 98.73 | |
| 2kt2_A | 69 | Mercuric reductase; nmera, MERA, HMA domain, mercu | 98.72 | |
| 2kkh_A | 95 | Putative heavy metal transporter; zinc transport, | 98.71 | |
| 1yjr_A | 75 | Copper-transporting ATPase 1; metallochaperone, pr | 98.71 | |
| 1cc8_A | 73 | Protein (metallochaperone ATX1); copper transport, | 98.71 | |
| 2roe_A | 66 | Heavy metal binding protein; NMR {Thermus thermoph | 98.62 | |
| 2xmm_A | 64 | SSR2857 protein, ATX1; metal transport, copper hom | 98.62 | |
| 2k2p_A | 85 | Uncharacterized protein ATU1203; putative metal-bi | 98.61 | |
| 2kyz_A | 67 | Heavy metal binding protein; structural genomics, | 98.61 | |
| 2crl_A | 98 | Copper chaperone for superoxide dismutase; SOD1, f | 98.57 | |
| 2aj0_A | 71 | Probable cadmium-transporting ATPase; ferrodoxin-l | 98.49 | |
| 2aj0_A | 71 | Probable cadmium-transporting ATPase; ferrodoxin-l | 98.38 | |
| 1qup_A | 222 | Superoxide dismutase 1 copper chaperone; two domai | 98.32 | |
| 1jk9_B | 249 | CCS, copper chaperone for superoxide dismutase; pr | 98.21 | |
| 3j09_A | 723 | COPA, copper-exporting P-type ATPase A; copper tra | 98.18 | |
| 1qup_A | 222 | Superoxide dismutase 1 copper chaperone; two domai | 98.04 | |
| 1jk9_B | 249 | CCS, copper chaperone for superoxide dismutase; pr | 98.03 | |
| 4fe3_A | 297 | Cytosolic 5'-nucleotidase 3; substrate complex, HA | 94.64 | |
| 4gwb_A | 168 | Peptide methionine sulfoxide reductase MSRA 3; str | 86.75 | |
| 2v50_A | 1052 | Multidrug resistance protein MEXB; DDM, RND, membr | 84.18 | |
| 1fvg_A | 199 | Peptide methionine sulfoxide reductase; oxidoreduc | 83.08 | |
| 2j89_A | 261 | Methionine sulfoxide reductase A; MSRA, poplar, ox | 80.89 | |
| 3bqh_A | 193 | PILB, peptide methionine sulfoxide reductase MSRA/ | 80.75 | |
| 1nwa_A | 203 | Peptide methionine sulfoxide reductase MSRA; oxido | 80.62 | |
| 1ff3_A | 211 | Peptide methionine sulfoxide reductase; alpha beta | 80.01 |
| >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=1.3e-83 Score=757.00 Aligned_cols=491 Identities=39% Similarity=0.593 Sum_probs=428.7
Q ss_pred eceeecccccchhhHHHHHhhhcCCCCeeeEEeeeccCeEEEEeCCCCCCHHHHHHHHHhcCCceeEeecCCcceeEEEE
Q 004259 129 VGQYTIGGMTCAACVNSVEGILRGLPGVKRAVVALATSLGEVEYDPTVISKDDIANAIEDAGFEASFVQSSGQDKILLQV 208 (765)
Q Consensus 129 ~~~~~i~gm~C~~C~~~Ie~~l~~~~GV~~~~vn~~~~~~~v~~~~~~~~~~~i~~~i~~~Gy~~~~~~~~~~~~~~~~i 208 (765)
+..+.|+||+|++|+++||+.+++++||.++++|+.++++.|.|++...+.+++.++++++||++........
T Consensus 3 ~~~l~V~GM~Ca~Ca~~Ie~~L~~~~GV~~v~Vnl~~~~~~V~~d~~~~~~~~i~~ai~~~Gy~~~~~~~~~~------- 75 (723)
T 3j09_A 3 ERTVRVTGMTCAMCVKSIETAVGSLEGVEEVRVNLATETAFIRFDEKRIDFETIKRVIEDLGYGVVDEQAAVS------- 75 (723)
T ss_dssp CEEEEEETCCSHHHHHHHHHHHHTSTTEEEEEEETTTTEEEEEECTTTCCHHHHHHHHHHHCCEESSCCCCCC-------
T ss_pred eEEEEeCCCCchHHHHHHHHHHhcCCCceEEEEEcCCCEEEEEeCCCcCCHHHHHHHHHhcCCcccccccccc-------
Confidence 4679999999999999999999999999999999999999999999888999999999999998743111000
Q ss_pred ecccchhhhHHHHhhhccCCCceEEEeecCCCeEEEEecCCCCChhhHHHhhhhcCCCcceeEecCccccccccchhhHH
Q 004259 209 TGVLCELDAHFLEGILSNFKGVRQFRFDKISGELEVLFDPEALSSRSLVDGIAGRSNGKFQIRVMNPFARMTSRDSEETS 288 (765)
Q Consensus 209 ~gm~c~~ca~~ie~~l~~~~GV~~v~vn~~~~~~~V~ydp~~i~~~~i~~~i~~~g~~~~~~~~~~~~~~~~~~~~~e~~ 288 (765)
. +. ++.+
T Consensus 76 -------------------------------~------~~------------------------------------~~~~ 82 (723)
T 3j09_A 76 -------------------------------A------EV------------------------------------EHLS 82 (723)
T ss_dssp -------------------------------C------CC------------------------------------CCCC
T ss_pred -------------------------------h------hh------------------------------------HHHH
Confidence 0 00 0001
Q ss_pred HHHHHHHHHHHHHHHHHHHHhhcCchhhHHHHhhhccCCcchHHHHHHHHHHHHhhhcCHHHHHHHHHHHHcCCCChhHH
Q 004259 289 NMFRLFISSLFLSIPVFFIRVICPHIPLVYALLLWRCGPFLMGDWLNWALVSVVQFVIGKRFYTAAGRALRNGSTNMDVL 368 (765)
Q Consensus 289 ~~~~~~~~~lllai~v~i~~m~l~~~~~~~~~~~~~~~~~~~~~~~~~~l~~~v~~~~g~~~~~~a~~~l~~~~~~md~l 368 (765)
+++++++.++++++|++++++. .. ++...|++++|++|+++|+|+|||++||+++++|++|||+|
T Consensus 83 ~~~~~~~~~~~~~~~~~~~~~~-~~--------------~~~~~~~~~~l~~~~~~~~g~~~~~~a~~~l~~~~~~md~l 147 (723)
T 3j09_A 83 RMKRKLYVAAFAGVLLLFLAHF-IS--------------LPYEDFVQLLIALPAIFYSGSSIFKAAFSALRRRTLNMDVM 147 (723)
T ss_dssp CSCCCSSSTTTTHHHHHHHTTS-SC--------------SSSSCCSCCSTHHHHHHHHHHHHHHHTCCTTTTCSTTSCSS
T ss_pred HHHHHHHHHHHHHHHHHHHHHH-hc--------------cchHHHHHHHHHHHHHHHhHHHHHHHHHHHHHcCCCChHHH
Confidence 1122334455667776655431 11 11123667789999999999999999999999999999999
Q ss_pred HHHHHHHHHHHHHHHHHHhhhcCCCCcchhhhhHHHHHHHHHHHHHHHHHhchHHHHHHHHHhcCCCeEEEEEecCCCce
Q 004259 369 VALGTSAAYFYSVGALLYGVVTGFWSPTYFETSAMLITFVLFGKYLEILAKGKTSDAIKKLVELAPATALLVVKDKVGKC 448 (765)
Q Consensus 369 ~~l~~~~a~~~s~~~~~~~~~~~~~~~~~~~~~~~li~~~~~~~~le~~~~~k~~~~l~~l~~~~~~~~~v~~~~~~g~~ 448 (765)
+++|+++||+||+++++.... ....||++++++++++++|+++|.++++|+++.+++|.++.|++++++ |||
T Consensus 148 ~~l~~~~a~~~s~~~~~~~~~---~~~~~~~~~~~i~~~~~ig~~le~~~~~~~~~~i~~l~~l~~~~a~v~---r~g-- 219 (723)
T 3j09_A 148 YSMGVGAAFLASVLSTAGVLP---REYSFYETSVLLLAFLLLGRTLEARAKSRTGEAIKKLVGLQAKTAVVI---RDG-- 219 (723)
T ss_dssp CSCHHHHHHHHHHHHHHTTTT---CCCCCCTTHHHHHHHHHHHHHHHHHHHTTCCCTTHHHHHTSCSEEEEE---ETT--
T ss_pred HHHHHHHHHHHHHHHHHhhcc---cchhHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHhcCCCeeEEE---ECC--
Confidence 999999999999998875321 122389999999999999999999999999999999999999999999 788
Q ss_pred eeeEEeeccCcCCCCEEEEcCCCccCccEEEEeccceeeccccCCCcceeccCCCCceeeeeeeecceEEEEEEEeCCcc
Q 004259 449 IEEREIDALLIQSGDTLKVLPGTKLPADGIVVWGTSYVNESMVTGEAVPVLKEINSPVIGGTINLHGVLHIQATKVGSDA 528 (765)
Q Consensus 449 ~~~~~i~~~~l~~GDiv~v~~Ge~iP~Dg~vl~g~~~Vdes~LTGEs~pv~k~~g~~v~aGt~~~~g~~~~~v~~~g~~t 528 (765)
++++|++++|+|||+|+|++||+|||||+|++|++.||||+|||||.|+.|++||.||+||++.+|.++++|+++|.+|
T Consensus 220 -~~~~i~~~~l~~GDiv~v~~Ge~IPaDg~vl~G~~~VdeS~LTGES~pv~K~~g~~v~~Gt~~~~g~~~~~v~~~g~~T 298 (723)
T 3j09_A 220 -KEIAVPVEEVAVGDIVIVRPGEKIPVDGVVVEGESYVDESMISGEPVPVLKSKGDEVFGATINNTGVLKIRATRVGGET 298 (723)
T ss_dssp -EEEEEEGGGCCTTCEEEECTTCBCCSEEEEEECCEEEECHHHHCCSSCEEECTTCEECTTCEECSSCEEEEEEECGGGS
T ss_pred -EEEEEEHHHCCCCCEEEECCCCEEeeEEEEEECCeEEecccccCCCcceeecCCCeeccceEEecCcEEEEEEEecCcc
Confidence 7899999999999999999999999999999999999999999999999999999999999999999999999999999
Q ss_pred hHHHHHHHHHHhccCCChhHHHHHHHHHHHHHHHHHHHHHHHHHHHHHhhcCCCCCcccCCCcchHHHHHHHHhheeeec
Q 004259 529 VLSQIISLVETAQMSKAPIQKFADFVASIFVPIVVTLALFTWLCWYVAGVLGAYPEQWLPENGTHFVFALMFSISVVVIA 608 (765)
Q Consensus 529 ~~~~i~~~~~~~~~~k~~~~~~~~~~~~~~~~~~l~~a~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~i~vlv~~ 608 (765)
.+++|.+++++++.+|+|+|+++|+++.+|+|++++++++++++|++.. +.++..++.+++++++++
T Consensus 299 ~l~~i~~lv~~a~~~k~~~~~~~d~~~~~~~~~vl~~a~~~~~~~~~~~-------------~~~~~~~~~~~i~vlvia 365 (723)
T 3j09_A 299 LLAQIVKLVEDAMGSKPPIQRLADKVVAYFIPTVLLVAISAFIYWYFIA-------------HAPLLFAFTTLIAVLVVA 365 (723)
T ss_dssp HHHHHHHHHSSSCCSCCHHHHHHHHHHHHHHHHHHHHHHHHHTTSCSST-------------TCTTCCSHHHHHHHHHHH
T ss_pred HHHHHHHHHHHhhccCChHHHHHHHHHHHHHHHHHHHHHHHHHHHHHhc-------------CCcHHHHHHHHHHHHHhh
Confidence 9999999999999999999999999999999999999999888775432 123445678899999999
Q ss_pred ccchhhhhHHHHHHHHHHHHhhcceEEecchHHhhhcCCcEEEecCCCccccCceEEEEEEecCCCCHHHHHHHHHHHHc
Q 004259 609 CPCALGLATPTAVMVATGVGANNGVLIKGGDALERAQKIKYVIFDKTGTLTQGRATVTTAKVFTKMDRGEFLTLVASAEA 688 (765)
Q Consensus 609 ~P~al~la~p~~~~~~~~~~~~~gilik~~~~le~lg~v~~i~fDKTGTLT~g~~~v~~~~~~~~~~~~~~l~~a~~~e~ 688 (765)
|||+|++++|+++..++++++|+|+++|+++++|.+|++|+||||||||||+|+|+|.++.+. +.++++++++++++|.
T Consensus 366 ~P~aL~la~p~a~~~~~~~~a~~gilvk~~~~lE~lg~v~~i~fDKTGTLT~g~~~v~~~~~~-~~~~~~~l~~aa~~e~ 444 (723)
T 3j09_A 366 CPCAFGLATPTALTVGMGKGAELGILIKNADALEVAEKVTAVIFDKTGTLTKGKPEVTDLVPL-NGDERELLRLAAIAER 444 (723)
T ss_dssp SCTTHHHHHHHHHHHHHHHHHTTTCEESSTTHHHHGGGCCEEEEEHHHHTSCSCCEEEEEEES-SSCHHHHHHHHHHHHT
T ss_pred hhHHHHHHHHHHHHHHHHHHHHCCeEEeChHHHHHhhcCCEEEEcCCCccccCceEEEEEEeC-CCCHHHHHHHHHHHhc
Confidence 999999999999999999999999999999999999999999999999999999999999987 4578899999999999
Q ss_pred cCCChHHHHHHHHHHhccCCCCCCCCCCCCCCCcCcCCCCcccCCCceeeecCCeeEEEEcCeEEEeecccccc
Q 004259 689 SSEHPLAKAVVEYARHFHFFDDPSLNPDGQSHSKESTGSGWLLDVSDFSALPGRGIQCFISGKQVLVSFRFHRT 762 (765)
Q Consensus 689 ~s~hPia~Ai~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~G~Gv~~~~~g~~~~vG~~~~~~ 762 (765)
.|+||+++||++++++. +..+.+++++++++|+|+.+ +++.+|+++|++
T Consensus 445 ~s~hP~~~Ai~~~a~~~---------------------~~~~~~~~~~~~~~g~g~~~----~~~~~g~~~~~~ 493 (723)
T 3j09_A 445 RSEHPIAEAIVKKALEH---------------------GIELGEPEKVEVIAGEGVVA----DGILVGNKRLME 493 (723)
T ss_dssp TCCSHHHHHHHHHHHHT---------------------TCCCCSCCCCEEETTTEEEE----TTEEEECHHHHH
T ss_pred cCCCchhHHHHHHHHhc---------------------CCCcCCccceEEecCCceEE----EEEEECCHHHHH
Confidence 99999999999999876 22335667899999999998 789999998874
|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >1cpz_A Protein (COPZ); copper chaperone, metal transport, gene regulation; NMR {Enterococcus hirae} SCOP: d.58.17.1 | 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 |
|---|
| >2xmw_A PACS-N, cation-transporting ATPase PACS; hydrolase, Cu(I)-binding, trafficking; 1.80A {Synechocystis SP} PDB: 2gcf_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 |
|---|
| >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 |
|---|
| >2kt2_A Mercuric reductase; nmera, MERA, HMA domain, mercuric resist metal-binding, oxidoreductase; NMR {Pseudomonas aeruginosa} PDB: 2kt3_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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >2ldi_A Zinc-transporting ATPase; metal homeostasis, metallochaperones, hydrolase; NMR {Synechocystis SP} | 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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >2roe_A Heavy metal binding protein; NMR {Thermus thermophilus} PDB: 2rog_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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >2kkh_A Putative heavy metal transporter; zinc transport, metal binding, metal selectivity, ferredoxin fold, ATP-binding, hydrolase; NMR {Arabidopsis thaliana} | 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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >2xmw_A PACS-N, cation-transporting ATPase PACS; hydrolase, Cu(I)-binding, trafficking; 1.80A {Synechocystis SP} PDB: 2gcf_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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >1cpz_A Protein (COPZ); copper chaperone, metal transport, gene regulation; NMR {Enterococcus hirae} SCOP: d.58.17.1 | Back alignment and structure |
|---|
| >2ldi_A Zinc-transporting ATPase; metal homeostasis, metallochaperones, hydrolase; NMR {Synechocystis SP} | Back alignment and structure |
|---|
| >2crl_A Copper chaperone for superoxide dismutase; SOD1, familial ALS, structural genomics, NPPSFA; NMR {Homo sapiens} | 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 |
|---|
| >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 |
|---|
| >2kt2_A Mercuric reductase; nmera, MERA, HMA domain, mercuric resist metal-binding, oxidoreductase; NMR {Pseudomonas aeruginosa} PDB: 2kt3_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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >2crl_A Copper chaperone for superoxide dismutase; SOD1, familial ALS, structural genomics, NPPSFA; NMR {Homo sapiens} | 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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >2v50_A Multidrug resistance protein MEXB; DDM, RND, membrane, detergent, transport, cell membrane, transmembrane, membrane protein; HET: LMT; 3.00A {Pseudomonas aeruginosa PA01} | 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 |
|---|
| >2j89_A Methionine sulfoxide reductase A; MSRA, poplar, oxidoreductase; 1.7A {Populus trichocarpa} | 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 |
|---|
| >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 |
|---|
| >1ff3_A Peptide methionine sulfoxide reductase; alpha beta roll, PMSR, MSRA, oxidoreductase; 1.90A {Escherichia coli} SCOP: d.58.28.1 PDB: 2gt3_A 2iem_A | 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 |
| 765 | ||||
| d1kvja_ | 79 | d.58.17.1 (A:) Menkes copper-transporting ATPase { | 7e-22 | |
| d1kvja_ | 79 | d.58.17.1 (A:) Menkes copper-transporting ATPase { | 8e-19 | |
| d1kvja_ | 79 | d.58.17.1 (A:) Menkes copper-transporting ATPase { | 1e-04 | |
| d2ggpb1 | 72 | d.58.17.1 (B:1-72) Copper transporter domain ccc2a | 3e-21 | |
| d2ggpb1 | 72 | d.58.17.1 (B:1-72) Copper transporter domain ccc2a | 8e-19 | |
| d1osda_ | 72 | d.58.17.1 (A:) Mercuric ion binding protein MerP { | 1e-20 | |
| d1osda_ | 72 | d.58.17.1 (A:) Mercuric ion binding protein MerP { | 1e-19 | |
| d1p6ta2 | 79 | d.58.17.1 (A:73-151) Potential copper-translocatin | 2e-20 | |
| d1p6ta2 | 79 | d.58.17.1 (A:73-151) Potential copper-translocatin | 2e-19 | |
| d1p6ta2 | 79 | d.58.17.1 (A:73-151) Potential copper-translocatin | 0.002 | |
| d2qifa1 | 69 | d.58.17.1 (A:1-69) Copper chaperone {Bacillus subt | 2e-20 | |
| d2qifa1 | 69 | d.58.17.1 (A:1-69) Copper chaperone {Bacillus subt | 5e-19 | |
| d1cpza_ | 68 | d.58.17.1 (A:) Copper chaperone {Enterococcus hira | 8e-20 | |
| d1cpza_ | 68 | d.58.17.1 (A:) Copper chaperone {Enterococcus hira | 3e-19 | |
| d1q8la_ | 84 | d.58.17.1 (A:) Menkes copper-transporting ATPase { | 1e-19 | |
| d1q8la_ | 84 | d.58.17.1 (A:) Menkes copper-transporting ATPase { | 6e-17 | |
| d1p6ta1 | 72 | d.58.17.1 (A:1-72) Potential copper-translocating | 2e-19 | |
| d1p6ta1 | 72 | d.58.17.1 (A:1-72) Potential copper-translocating | 3e-18 | |
| d1p6ta1 | 72 | d.58.17.1 (A:1-72) Potential copper-translocating | 0.001 | |
| d2aw0a_ | 72 | d.58.17.1 (A:) Menkes copper-transporting ATPase { | 3e-19 | |
| d2aw0a_ | 72 | d.58.17.1 (A:) Menkes copper-transporting ATPase { | 5e-19 | |
| d2aw0a_ | 72 | d.58.17.1 (A:) Menkes copper-transporting ATPase { | 0.002 | |
| d1mwza_ | 73 | d.58.17.1 (A:) Metal ion-transporting ATPase ZntA, | 3e-17 | |
| d1mwza_ | 73 | d.58.17.1 (A:) Metal ion-transporting ATPase ZntA, | 5e-17 | |
| d1sb6a_ | 64 | d.58.17.1 (A:) Copper chaperone {Synechocystis sp. | 1e-13 | |
| d1sb6a_ | 64 | d.58.17.1 (A:) Copper chaperone {Synechocystis sp. | 3e-12 | |
| d1qupa2 | 72 | d.58.17.1 (A:2-73) Copper chaperone for superoxide | 6e-13 | |
| d1qupa2 | 72 | d.58.17.1 (A:2-73) Copper chaperone for superoxide | 1e-12 | |
| d1fe0a_ | 66 | d.58.17.1 (A:) ATX1 metallochaperone protein (ATOX | 6e-12 | |
| d1fe0a_ | 66 | d.58.17.1 (A:) ATX1 metallochaperone protein (ATOX | 3e-11 | |
| d1cc8a_ | 72 | d.58.17.1 (A:) ATX1 metallochaperone protein (ATOX | 7e-12 | |
| d1cc8a_ | 72 | d.58.17.1 (A:) ATX1 metallochaperone protein (ATOX | 1e-10 | |
| d1wpga1 | 115 | b.82.7.1 (A:125-239) Calcium ATPase, transduction | 2e-06 | |
| d2a29a1 | 136 | d.220.1.1 (A:316-451) Potassium-transporting ATPas | 2e-05 | |
| d2b8ea2 | 113 | d.220.1.1 (A:435-547) Cation-transporting ATPase { | 8e-05 |
| >d1kvja_ d.58.17.1 (A:) Menkes copper-transporting ATPase {Human (Homo sapiens) [TaxId: 9606]} Length = 79 | Back information, alignment and structure |
|---|
class: Alpha and beta proteins (a+b) fold: Ferredoxin-like superfamily: HMA, heavy metal-associated domain family: HMA, heavy metal-associated domain domain: Menkes copper-transporting ATPase species: Human (Homo sapiens) [TaxId: 9606]
Score = 88.0 bits (218), Expect = 7e-22
Identities = 23/70 (32%), Positives = 41/70 (58%)
Query: 44 GMRRIQVGVTGMTCAACSNSVEGALMGLKGVAKASVALLQNKADVVFDPDLVKDEDIKNA 103
G+ + + V GMTC +C ++E + + GV V+L + A +++DP L + ++ A
Sbjct: 6 GVNSVTISVEGMTCNSCVWTIEQQIGKVNGVHHIKVSLEEKNATIIYDPKLQTPKTLQEA 65
Query: 104 IEDAGFEAEI 113
I+D GF+A I
Sbjct: 66 IDDMGFDAVI 75
|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >d1fe0a_ d.58.17.1 (A:) ATX1 metallochaperone protein (ATOX1) {Human (Homo sapiens), HAH1 [TaxId: 9606]} Length = 66 | 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 |
|---|
| >d1cc8a_ d.58.17.1 (A:) ATX1 metallochaperone protein (ATOX1) {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 |
|---|
| >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 |
|---|
| >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 |
|---|
Homologous Domains Detected by HHsearch
Original result of HHsearch against SCOP70(version1.75) database
| ID | Alignment Graph | Length |
Definition |
Probability |
| Query | 765 | |||
| d1wpga1 | 115 | Calcium ATPase, transduction domain A {Rabbit (Ory | 99.86 | |
| d1cpza_ | 68 | Copper chaperone {Enterococcus hirae [TaxId: 1354] | 99.5 | |
| d2aw0a_ | 72 | Menkes copper-transporting ATPase {Human (Homo sap | 99.49 | |
| d1osda_ | 72 | Mercuric ion binding protein MerP {Ralstonia metal | 99.47 | |
| d2ggpb1 | 72 | Copper transporter domain ccc2a {Baker's yeast (Sa | 99.47 | |
| d1q8la_ | 84 | Menkes copper-transporting ATPase {Human (Homo sap | 99.46 | |
| d2qifa1 | 69 | Copper chaperone {Bacillus subtilis, CopZ [TaxId: | 99.46 | |
| d1kvja_ | 79 | Menkes copper-transporting ATPase {Human (Homo sap | 99.46 | |
| d1p6ta1 | 72 | Potential copper-translocating P-type ATPase CopA | 99.44 | |
| d1p6ta2 | 79 | Potential copper-translocating P-type ATPase CopA | 99.43 | |
| d2qifa1 | 69 | Copper chaperone {Bacillus subtilis, CopZ [TaxId: | 99.37 | |
| d2aw0a_ | 72 | Menkes copper-transporting ATPase {Human (Homo sap | 99.36 | |
| d1cpza_ | 68 | Copper chaperone {Enterococcus hirae [TaxId: 1354] | 99.35 | |
| d2b8ea2 | 113 | Cation-transporting ATPase {Archaeon Archaeoglobus | 99.35 | |
| d1osda_ | 72 | Mercuric ion binding protein MerP {Ralstonia metal | 99.33 | |
| d1kvja_ | 79 | Menkes copper-transporting ATPase {Human (Homo sap | 99.33 | |
| d2ggpb1 | 72 | Copper transporter domain ccc2a {Baker's yeast (Sa | 99.32 | |
| d1mwza_ | 73 | Metal ion-transporting ATPase ZntA, N-terminal dom | 99.31 | |
| d1p6ta1 | 72 | Potential copper-translocating P-type ATPase CopA | 99.3 | |
| d1q8la_ | 84 | Menkes copper-transporting ATPase {Human (Homo sap | 99.3 | |
| d1sb6a_ | 64 | Copper chaperone {Synechocystis sp. pcc 6803, Scat | 99.27 | |
| d1p6ta2 | 79 | Potential copper-translocating P-type ATPase CopA | 99.27 | |
| d1qupa2 | 72 | Copper chaperone for superoxide dismutase, N-termi | 99.17 | |
| d1fe0a_ | 66 | ATX1 metallochaperone protein (ATOX1) {Human (Homo | 99.16 | |
| d1mwza_ | 73 | Metal ion-transporting ATPase ZntA, N-terminal dom | 99.14 | |
| d1sb6a_ | 64 | Copper chaperone {Synechocystis sp. pcc 6803, Scat | 99.13 | |
| d1cc8a_ | 72 | ATX1 metallochaperone protein (ATOX1) {Baker's yea | 99.13 | |
| d1qupa2 | 72 | Copper chaperone for superoxide dismutase, N-termi | 99.03 | |
| d1fe0a_ | 66 | ATX1 metallochaperone protein (ATOX1) {Human (Homo | 98.99 | |
| d1cc8a_ | 72 | ATX1 metallochaperone protein (ATOX1) {Baker's yea | 98.98 | |
| d2a29a1 | 136 | Potassium-transporting ATPase B chain, KdpB {Esche | 98.89 | |
| d1wpga4 | 472 | Calcium ATPase, transmembrane domain M {Rabbit (Or | 98.63 | |
| d1jdqa_ | 98 | Hypothetical protein TM0983 {Thermotoga maritima [ | 81.72 | |
| d1nwaa_ | 168 | Peptide methionine sulfoxide reductase {Mycobacter | 81.6 |
| >d1wpga1 b.82.7.1 (A:125-239) Calcium ATPase, transduction domain A {Rabbit (Oryctolagus cuniculus) [TaxId: 9986]} | Back information, alignment and structure |
|---|
class: All beta proteins fold: Double-stranded beta-helix superfamily: Calcium ATPase, transduction domain A family: Calcium ATPase, transduction domain A domain: Calcium ATPase, transduction domain A species: Rabbit (Oryctolagus cuniculus) [TaxId: 9986]
Probab=99.86 E-value=2.1e-22 Score=175.97 Aligned_cols=98 Identities=24% Similarity=0.288 Sum_probs=85.8
Q ss_pred eEEEEEecCCCceeeeEEeeccCcCCCCEEEEcCCCccCccEEEEecc---ceeeccccCCCcceeccCC----------
Q 004259 436 TALLVVKDKVGKCIEEREIDALLIQSGDTLKVLPGTKLPADGIVVWGT---SYVNESMVTGEAVPVLKEI---------- 502 (765)
Q Consensus 436 ~~~v~~~~~~g~~~~~~~i~~~~l~~GDiv~v~~Ge~iP~Dg~vl~g~---~~Vdes~LTGEs~pv~k~~---------- 502 (765)
.++|+ |+|+. ..++|++++|+|||+|.|++|++|||||+|++++ ..||||+|||||.|+.|.+
T Consensus 2 ~~kV~---R~g~~-~v~~I~~~eLv~GDiv~l~~G~~vPaD~~ll~~~~~~l~vdes~lTGEs~pv~K~~~~~~~~~~~~ 77 (115)
T d1wpga1 2 MGKVY---RADRK-SVQRIKARDIVPGDIVEVAVGDKVPADIRILSIKSTTLRVDQSILTGESVSVIKHTEPVPDPRAVN 77 (115)
T ss_dssp EEEEE---BSSCS-SCEEEEGGGCCTTCEEEEETTCBCCSEEEEEEECSSCCEEECHHHHSCCSCEECCCSCCCCTTCCG
T ss_pred ceEEE---ECCCc-eEEEEeHHHCCCCCEEEECCCCEEeeceEEEEeeccceEEEEeecccceEEEEeeccccccccccc
Confidence 57788 66631 2468999999999999999999999999999755 3599999999999999954
Q ss_pred ---CCceeeeeeeecceEEEEEEEeCCcchHHHHHHHH
Q 004259 503 ---NSPVIGGTINLHGVLHIQATKVGSDAVLSQIISLV 537 (765)
Q Consensus 503 ---g~~v~aGt~~~~g~~~~~v~~~g~~t~~~~i~~~~ 537 (765)
.+.+|+||.+.+|++.++|++||.+|.+|+|.+.+
T Consensus 78 ~~~~n~lf~GT~V~~G~~~~~V~~tG~~T~~G~i~~~i 115 (115)
T d1wpga1 78 QDKKNMLFSGTNIAAGKALGIVATTGVSTEIGKIRDQM 115 (115)
T ss_dssp GGCTTEECTTCEEEECEEEEEEEECGGGSHHHHHHHHH
T ss_pred ccccceEEeccEEEeeeEEEEEEEEccccHHHHHHHhC
Confidence 35699999999999999999999999999998753
|
| >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 |
|---|
| >d1osda_ d.58.17.1 (A:) Mercuric ion binding protein MerP {Ralstonia metallidurans CH34 [TaxId: 266264]} | 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 |
|---|
| >d1q8la_ 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 |
|---|
| >d1kvja_ 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 |
|---|
| >d2qifa1 d.58.17.1 (A:1-69) Copper chaperone {Bacillus subtilis, CopZ [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 |
|---|
| >d1cpza_ d.58.17.1 (A:) Copper chaperone {Enterococcus hirae [TaxId: 1354]} | 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 |
|---|
| >d1osda_ d.58.17.1 (A:) Mercuric ion binding protein MerP {Ralstonia metallidurans CH34 [TaxId: 266264]} | 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 |
|---|
| >d1mwza_ d.58.17.1 (A:) Metal ion-transporting ATPase ZntA, N-terminal domain {Escherichia coli [TaxId: 562]} | 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 |
|---|
| >d1q8la_ d.58.17.1 (A:) Menkes copper-transporting ATPase {Human (Homo sapiens) [TaxId: 9606]} | 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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >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 |
|---|
| >d2a29a1 d.220.1.1 (A:316-451) Potassium-transporting ATPase B chain, KdpB {Escherichia coli [TaxId: 562]} | 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 |
|---|
| >d1jdqa_ d.68.3.3 (A:) Hypothetical protein TM0983 {Thermotoga maritima [TaxId: 2336]} | Back information, alignment and structure |
|---|
| >d1nwaa_ d.58.28.1 (A:) Peptide methionine sulfoxide reductase {Mycobacterium tuberculosis [TaxId: 1773]} | Back information, alignment and structure |
|---|