Psyllid ID: psy6911

Local Sequence Feature Prediction

Prediction and (Method)	Result

Residue Number Marker

Protein Sequence

Secondary Structure (PSIPRED)

Secondary Structure Prediction (SSPRO)

Coil and Loop (DISEMBL)

Flexible Loop (DISEMBL)

Low Complexity Region (SEG)

Disordered region (IsUnstruct)

Disordered Region (DISOPRED)

Disordered Region (DISEMBL)

Disordered Region (DISPRO)

Transmembrane Helix (TMHMM)

Transmembrane Helix (HMMTOP)

Transmembrane Helix (MEMSAT)

TM Helix, Signal Peptide (MEMSAT_SVM)

TM Helix, Signal Peptide (Phobius)

Signal Peptide (SignalP HMM Mode)

Signal Peptide (SignalP NN Mode)

Coiled Coils (COILS)

Positional Conservation

--------10--------20--------30--------40--------50--------60--------70--------80--------90-------100-------110-------120-------130-------140-------150-------160-------170-------180-------190-------200-------210-------220-------230-------240-------250-------260---

MLQPKRNKFHVKCFVTFKCVVKKRVLKLSSKGFLHIEGFLTHVVPTAPANVPEMNHINDRYWCTDADDDIKACGITCKALEDDDLTDDIACARRIYRQHKRQGGNGKISNLVQISQLNKYSTNGQYKPKPLPKKMIKSIAILFCVTNSFFSLARCKTFRPCELAKVLLDNDISKDDIATWLCIARYESTFNSSAVGHMSGDGSLDHGIFQINDRYWCTDADDDIKACGITCKALEDDDLTDDIACARRIYRQHKRQGGNGKIS

cccccccccccccccccEEEEEEccccccccccccccccccccccccccccccEEEcccccccccccccccccccccccccccccHHHHHHHHHHHHHHccccccHHHHHHHHcccccccccccccccccccHHHHHHHHHHHHHHHHHccccccEEEcHHHHHHHHHHccccccccccEEEEEEEEcccccccccccccccccEEEEEEEccccccccccccccccccccHHHccccHHHHHHHHHHHHHHHcccccccccc

cHHHHHccccHHHHHcHEEEEEHcccccccccccccccccccccccccccccEEEEEcccEEEcccccccccccccHHHHHccccHHHHHHHHHHHHHcccccccHHHHHHHHHcccccHHHHHHcccccccHHHHHHHHHHHHHHHHHHHHHHcccccHHHHHHHHHHcccccccHHHHHHHHHHHHccEcccEEEEccccEEEEccccEEcccccEcccccEccccEEHHHHcccccHHHHHHHHHHHHHHHccEEEEEcc

mlqpkrnkfhvKCFVTFKCVVKKRVLKLSSKGFLHIEGFLThvvptapanvpemnhindrywctdadddikacgitckaledddltddIACARRIYRQHkrqggngkisnLVQISQlnkystngqykpkplpkkMIKSIAILFCVTnsffslarcktfrpcelakvlldndiskddIATWLCIARYEstfnssavghmsgdgsldhgifqindrywctdadddikacgitckaledddltddIACARRIYRQHkrqggngkis

mlqpkrnkfhvkcfvtfkcvvkKRVLKLSSKGFLHIEGFLTHVVPTAPANVPEMNHINDRYWCTDADDDIKACGITCkaledddltdDIACARRIYRqhkrqggngkisnlvQISQLNKYSTNGQYKPKPLPKKMIKSIAILFCVTNSFFSLARCKTFRPCELAKvlldndiskdDIATWLCIARYESTFNSSAVGHMSGDGSLDHGIFQINDRYWCTDADDDIKACGITCkaledddltddIACARRIYrqhkrqggngkis

MLQPKRNkfhvkcfvtfkcvvkkrvlklsskGFLHIEGFLTHVVPTAPANVPEMNHINDRYWCTDADDDIKACGITCKALEDDDLTDDIACARRIYRQHKRQGGNGKISNLVQISQLNKYSTNGQYKPKPLPKKMIKSIAILFCVTNSFFSLARCKTFRPCELAKVLLDNDISKDDIATWLCIARYESTFNSSAVGHMSGDGSLDHGIFQINDRYWCTDADDDIKACGITCKALEDDDLTDDIACARRIYRQHKRQGGNGKIS

*******KFHVKCFVTFKCVVKKRVLKLSSKGFLHIEGFLTHVVPTAPANVPEMNHINDRYWCTDADDDIKACGITCKALEDDDLTDDIACARRIYRQHKRQGGNGKISNLVQISQLNKYS*********LPKKMIKSIAILFCVTNSFFSLARCKTFRPCELAKVLLDNDISKDDIATWLCIARYESTFNSSAVGHMSGDGSLDHGIFQINDRYWCTDADDDIKACGITCKALEDDDLTDDIACARRIYR************

********FHVKCFVTFKCVVKKRVLKLSSKGFLHIEGFLTHVVPTAPANVPEMNHINDRYWCTDADDDIKACGITCKALEDDDLTDDIACARRIYRQHKRQGGNGKISNLVQISQLNKYSTNGQYKPKPLPKKMIKSIAILFCVTNSFFSLARCKTFRPCELAKVLLDNDISKDDIATWLCIARYESTFNS**********SLDHGIFQINDRYWCTDADDDIKACGITCKALEDDDLTDDIACARRIYRQHKRQGGNGKIS

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no confident homologs detected

Close Homologs for Annotation Transfer

Close Homologs in SWISS-PROT Database Detected by BLAST

Original result of BLAST against SWISS-PROT Database

ID	Alignment graph	Length	Definition	RBH(Q2H)	RBH(H2Q)	Q cover	H cover	Identity	E-value
Query		263	2.2.26 [Sep-21-2011]
Q17005		140	Lysozyme c-1 OS=Anopheles	no	N/A	0.425	0.8	0.450	5e-20
P29615		141	Lysozyme P OS=Drosophila	no	N/A	0.372	0.695	0.43	2e-19
Q05820		148	Putative lysozyme C-2 OS=	yes	N/A	0.365	0.648	0.435	1e-18
P08905		148	Lysozyme C-2 OS=Mus muscu	yes	N/A	0.376	0.668	0.432	2e-18
P79180		148	Lysozyme C OS=Hylobates l	N/A	N/A	0.433	0.770	0.404	2e-18
P79179		148	Lysozyme C OS=Gorilla gor	N/A	N/A	0.433	0.770	0.396	3e-18
P12069		148	Lysozyme C-3 OS=Sus scrof	yes	N/A	0.365	0.648	0.435	3e-18
P17897		148	Lysozyme C-1 OS=Mus muscu	no	N/A	0.376	0.668	0.442	3e-18
Q27996		147	Lysozyme C, tracheal isoz	yes	N/A	0.372	0.666	0.407	4e-18
P61628		148	Lysozyme C OS=Pan troglod	yes	N/A	0.365	0.648	0.435	5e-18

>sp\|Q17005\|LYSC1_ANOGA Lysozyme c-1 OS=Anopheles gambiae GN=AGAP007347 PE=2 SV=2	Back alignment and function desciption

 Score = 98.2 bits (243), Expect = 5e-20,   Method: Compositional matrix adjust.
 Identities = 55/122 (45%), Positives = 77/122 (63%), Gaps = 10/122 (8%)

Query: 139 IAILFCVTNSFFSLARCKTFRPCELAKVLLDNDISKDDIATWLCIARYESTFNSSAVGHM 198
           +AI+ C      ++A  KTF  CELAK L +N I+K  +  W+C+ + ES F++SA  + 
Sbjct: 9   LAIVACC-----AVAEAKTFGKCELAKALANNGIAKASLPDWVCLVQNESAFSTSAT-NK 62

Query: 199 SGDGSLDHGIFQINDRYWCTDADDDIKACGITCKALEDDDLTDDIACARRIYRQHKRQGG 258
           + +GS D+GIFQIN++YWC D+      C I CK L +DD+TDDI CA+ I   HKR G 
Sbjct: 63  NKNGSTDYGIFQINNKYWC-DSGYGSNDCKIACKNLLNDDITDDIKCAKLI---HKRHGF 118

Query: 259 NG 260
           N 
Sbjct: 119 NA 120

Lysozymes have primarily a bacteriolytic function; those in tissues and body fluids are associated with the monocyte-macrophage system and enhance the activity of immunoagents.
Anopheles gambiae (taxid: 7165)
EC: 3EC: .EC: 2EC: .EC: 1EC: .EC: 1EC: 7

>sp\|P29615\|LYSP_DROME Lysozyme P OS=Drosophila melanogaster GN=LysP PE=2 SV=1	Back alignment and function description

>sp\|Q05820\|LYSC2_RAT Putative lysozyme C-2 OS=Rattus norvegicus GN=Lyz2 PE=5 SV=1	Back alignment and function description

>sp\|P08905\|LYZ2_MOUSE Lysozyme C-2 OS=Mus musculus GN=Lyz2 PE=1 SV=2	Back alignment and function description

>sp\|P79180\|LYSC_HYLLA Lysozyme C OS=Hylobates lar GN=LYZ PE=2 SV=1	Back alignment and function description

>sp\|P79179\|LYSC_GORGO Lysozyme C OS=Gorilla gorilla gorilla GN=LYZ PE=2 SV=1	Back alignment and function description

>sp\|P12069\|LYSC3_PIG Lysozyme C-3 OS=Sus scrofa PE=1 SV=2	Back alignment and function description

>sp\|P17897\|LYZ1_MOUSE Lysozyme C-1 OS=Mus musculus GN=Lyz1 PE=1 SV=1	Back alignment and function description

>sp\|Q27996\|LYSCT_BOVIN Lysozyme C, tracheal isozyme OS=Bos taurus PE=2 SV=1	Back alignment and function description

>sp\|P61628\|LYSC_PANTR Lysozyme C OS=Pan troglodytes GN=LYZ PE=2 SV=1	Back alignment and function description

Close Homologs in the Non-Redundant Database Detected by BLAST

Original result of BLAST against Nonredundant Database

GI	Alignment Graph	Length	Definition	Q cover	H cover	Identity	E-value
Query		263
118786908		847	AGAP005717-PA [Anopheles gambiae str. PE	0.870	0.270	0.330	5e-36
195168317		1039	GL17828 [Drosophila persimilis] gi\|19410	0.927	0.234	0.348	3e-35
386770748		1360	CG8492 [Drosophila melanogaster] gi\|3832	0.923	0.178	0.347	6e-35
198462714		1221	GA28499 [Drosophila pseudoobscura pseudo	0.927	0.199	0.344	8e-35
194865397		1066	GG14940 [Drosophila erecta] gi\|190653192	0.923	0.227	0.351	6e-34
344217789		619	MIP30171p1 [Drosophila melanogaster]	0.923	0.392	0.347	8e-34
260447050		590	lysozyme precursor [Tribolium castaneum]	0.752	0.335	0.370	1e-33
195492651		967	GE20392 [Drosophila yakuba] gi\|194180184	0.923	0.251	0.347	2e-33
256861419		590	lysozyme [Tribolium castaneum]	0.752	0.335	0.370	2e-33
312384210		965	hypothetical protein AND_02410 [Anophele	0.752	0.205	0.388	3e-33

>gi\|118786908\|ref\|XP_315732.3\| AGAP005717-PA [Anopheles gambiae str. PEST] gi\|62911114\|gb\|AAY21238.1\| lysozyme c-6 [Anopheles gambiae] gi\|116126548\|gb\|EAA11630.3\| AGAP005717-PA [Anopheles gambiae str. PEST]	Back alignment and taxonomy information

 Score =  157 bits (397), Expect = 5e-36,   Method: Composition-based stats.
 Identities = 93/281 (33%), Positives = 144/281 (51%), Gaps = 52/281 (18%)

Query: 6   RNKFHVKCFVTFKCVV-KKRVLKLSSKGFLHIEGFLTHVVPTAPANVPEMNHINDRYWCT 64
           R++  ++   T+ C+   +     S++G L+ +G   H           +  I+D YWC+
Sbjct: 192 RHRMPIEQIATWVCIAYHESRFNTSAEGRLNADGSGDH----------GLFQISDIYWCS 241

Query: 65  DADDDI-KACGITCKALEDDDLTDDIACARRIYRQHKRQGGNG-------------KISN 110
             D    KAC +TC A+ DDD+ DD+ C R IY +H+R  GNG             + ++
Sbjct: 242 QDDRRPGKACRVTCAAMRDDDIADDVRCVRTIYDEHQRISGNGFHAWTVYRPYCEGREAS 301

Query: 111 LVQISQLNKYSTNGQYKPKP----------LPKKMIKSIAILFCVTNSFFSLARCKTFRP 160
            V      +     Q KP+P          +PKK +  +                K +  
Sbjct: 302 FVHNCFEGETHPTTQNKPRPGIVAPTTIPTVPKKSLAEVG---------------KVYDR 346

Query: 161 CELAKVLLDN-DISKDDIATWLCIARYESTFNSSAVGHMSGDGSLDHGIFQINDRYWCTD 219
           CELA  LL    + K+ +ATW+CIA +ES FN+SA G ++ DGS DHG+FQI+D YWC+ 
Sbjct: 347 CELANDLLHKFHLPKEQVATWVCIAYHESRFNTSAEGRLNADGSGDHGLFQISDIYWCSP 406

Query: 220 ADDDIKACGITCKALEDDDLTDDIACARRIYRQHKRQGGNG 260
             +   ACG++C AL+D D++DD+ C + IY +H+R  G+G
Sbjct: 407 PGNGW-ACGVSCDALKDSDISDDVQCVKTIYEEHQRLSGDG 446

Source: Anopheles gambiae str. PEST

Species: Anopheles gambiae

Genus: Anopheles

Family: Culicidae

Order: Diptera

Class: Insecta

Phylum: Arthropoda

Superkingdom: Eukaryota

>gi\|195168317\|ref\|XP_002024978.1\| GL17828 [Drosophila persimilis] gi\|194108408\|gb\|EDW30451.1\| GL17828 [Drosophila persimilis]	Back alignment and taxonomy information

>gi\|386770748\|ref\|NP_648151.2\| CG8492 [Drosophila melanogaster] gi\|383291801\|gb\|AAF50522.3\| CG8492 [Drosophila melanogaster]	Back alignment and taxonomy information

>gi\|198462714\|ref\|XP_002135357.1\| GA28499 [Drosophila pseudoobscura pseudoobscura] gi\|198150947\|gb\|EDY73984.1\| GA28499 [Drosophila pseudoobscura pseudoobscura]	Back alignment and taxonomy information

>gi\|194865397\|ref\|XP_001971409.1\| GG14940 [Drosophila erecta] gi\|190653192\|gb\|EDV50435.1\| GG14940 [Drosophila erecta]	Back alignment and taxonomy information

>gi\|344217789\|gb\|AEM98448.1\| MIP30171p1 [Drosophila melanogaster]	Back alignment and taxonomy information

>gi\|260447050\|ref\|NP_001159495.1\| lysozyme precursor [Tribolium castaneum]	Back alignment and taxonomy information

>gi\|195492651\|ref\|XP_002094083.1\| GE20392 [Drosophila yakuba] gi\|194180184\|gb\|EDW93795.1\| GE20392 [Drosophila yakuba]	Back alignment and taxonomy information

>gi\|256861419\|gb\|ACV32412.1\| lysozyme [Tribolium castaneum]	Back alignment and taxonomy information

>gi\|312384210\|gb\|EFR28988.1\| hypothetical protein AND_02410 [Anopheles darlingi]	Back alignment and taxonomy information

Prediction of Gene Ontology (GO) Terms

Close Homologs with Gene Ontology terms Detected by BLAST

Original result of BLAST against Gene Ontology (AMIGO)

ID	Alignment graph	Length	Definition	Q cover	H cover	Identity	E-value
Query		263
FB\|FBgn0035813		972	CG8492 [Drosophila melanogaste	0.771	0.208	0.394	3.6e-35
FB\|FBgn0004429		141	LysP "Lysozyme P" [Drosophila	0.425	0.794	0.385	8e-21
RGD\|1593616		148	Lyc2 "lysozyme C type 2" [Ratt	0.372	0.662	0.427	4.4e-20
UNIPROTKB\|Q05820		148	Lyz2 "Putative lysozyme C-2" [	0.372	0.662	0.427	4.4e-20
UNIPROTKB\|P12069		148	P12069 "Lysozyme C-3" [Sus scr	0.372	0.662	0.427	5.7e-20
MGI\|MGI:96897		148	Lyz2 "lysozyme 2" [Mus musculu	0.376	0.668	0.432	5.7e-20
MGI\|MGI:96902		148	Lyz1 "lysozyme 1" [Mus musculu	0.376	0.668	0.442	5.7e-20
UNIPROTKB\|P12068		146	P12068 "Lysozyme C-2" [Sus scr	0.365	0.657	0.436	7.2e-20
UNIPROTKB\|F1M8E9		148	Lyz2 "Putative lysozyme C-2" [	0.372	0.662	0.446	1.2e-19
UNIPROTKB\|P61626		148	LYZ "Lysozyme C" [Homo sapiens	0.365	0.648	0.435	1.9e-19

FB\|FBgn0035813 CG8492 [Drosophila melanogaster (taxid:7227)]	Back alignment and assigned GO terms

 Score = 391 (142.7 bits), Expect = 3.6e-35, P = 3.6e-35
 Identities = 82/208 (39%), Positives = 113/208 (54%)

Query:    57 INDRYWCTDADDDIKACGITCKALEDDDLTDDIACARRIYRQHKRQGGNGKISNLV---Q 113
             I+D YWCT  D   K C I C  L D D+TDD+ C R I+ +H R  G+G  +  V    
Sbjct:   495 ISDLYWCTHNDGGGKGCHIDCNRLLDSDITDDVKCVRTIHEEHTRISGDGFTAWTVYNGH 554

Query:   114 ISQLNKYSTNGQYKPKPLPKKMIKSIAILFCVTNSFFSLARCKTFRPCELAKVLLD-NDI 172
               Q  +      +  K LP ++ K       V  +     + K +  CELAK L   +  
Sbjct:   555 CRQKTRADVANCFDGKDLPAEVAKPSKGNELVKKTS-PTPKAKIYNRCELAKELYHRHKF 613

Query:   173 SKDDIATWLCIARYESTFNSSAVGHMSGDGSLDHGIFQINDRYWCTDADDDIKACGITCK 232
                +I TW+CIA +ES+FN++AVG ++ DGS DHG+FQI+D YWCT      KAC I C 
Sbjct:   614 PMREIPTWVCIAEHESSFNTAAVGKLNADGSEDHGLFQISDIYWCTHDQTSGKACHIECD 673

Query:   233 ALEDDDLTDDIACARRIYRQHKRQGGNG 260
              L D D++DD+ C R I+ +H R  G+G
Sbjct:   674 RLLDSDISDDVQCIRTIHEEHTRLSGDG 701

GO:0003796 "lysozyme activity" evidence=ISS;NAS

GO:0019730 "antimicrobial humoral response" evidence=NAS

FB\|FBgn0004429 LysP "Lysozyme P" [Drosophila melanogaster (taxid:7227)]	Back alignment and assigned GO terms

RGD\|1593616 Lyc2 "lysozyme C type 2" [Rattus norvegicus (taxid:10116)]	Back alignment and assigned GO terms

UNIPROTKB\|Q05820 Lyz2 "Putative lysozyme C-2" [Rattus norvegicus (taxid:10116)]	Back alignment and assigned GO terms

UNIPROTKB\|P12069 P12069 "Lysozyme C-3" [Sus scrofa (taxid:9823)]	Back alignment and assigned GO terms

MGI\|MGI:96897 Lyz2 "lysozyme 2" [Mus musculus (taxid:10090)]	Back alignment and assigned GO terms

MGI\|MGI:96902 Lyz1 "lysozyme 1" [Mus musculus (taxid:10090)]	Back alignment and assigned GO terms

UNIPROTKB\|P12068 P12068 "Lysozyme C-2" [Sus scrofa (taxid:9823)]	Back alignment and assigned GO terms

UNIPROTKB\|F1M8E9 Lyz2 "Putative lysozyme C-2" [Rattus norvegicus (taxid:10116)]	Back alignment and assigned GO terms

UNIPROTKB\|P61626 LYZ "Lysozyme C" [Homo sapiens (taxid:9606)]	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

No confident hit for EC number transfering in SWISSPROT detected by BLAST

EC Number Prediction by EFICAz Software

Prediction Level	EC number	Confidence of Prediction
3rd Layer	3.2.1	LOW CONFIDENCE prediction!
3rd Layer	3.2.1.17	LOW CONFIDENCE prediction!

Prediction of Functionally Associated Proteins

Conserved Domains and Related Protein Families

Conserved Domains Detected by RPS-BLAST

Original result of RPS-BLAST against CDD database

ID	Alignment Graph	Length	Definition	E-value
Query		263
cd00119		123	cd00119, LYZ1, C-type lysozyme (1, 4-beta-N-acetyl	3e-36
smart00263		127	smart00263, LYZ1, Alpha-lactalbumin / lysozyme C	1e-30
pfam00062		125	pfam00062, Lys, C-type lysozyme/alpha-lactalbumin	2e-27
cd00119		123	cd00119, LYZ1, C-type lysozyme (1, 4-beta-N-acetyl	2e-14
smart00263		127	smart00263, LYZ1, Alpha-lactalbumin / lysozyme C	5e-13
pfam00062		125	pfam00062, Lys, C-type lysozyme/alpha-lactalbumin	3e-11

>gnl\|CDD\|238066 cd00119, LYZ1, C-type lysozyme (1, 4-beta-N-acetylmuramidase, LYZ) and alpha-lactalbumin (lactose synthase B protein, LA)	Back alignment and domain information

 Score =  124 bits (314), Expect = 3e-36
 Identities = 46/101 (45%), Positives = 64/101 (63%), Gaps = 3/101 (2%)

Query: 156 KTFRPCELAKVLLDNDI-SKDDIATWLCIARYESTFNSSAVGHMSGDGSLDHGIFQINDR 214
           K F  CELAK L    +     +A W+C+A +ES FN+ AV + + DGS D+G+FQIN +
Sbjct: 1   KIFTRCELAKELKRLGLYPGISLANWVCLAEHESGFNTQAVNN-NNDGSTDYGLFQINSK 59

Query: 215 YWCTDADDDI-KACGITCKALEDDDLTDDIACARRIYRQHK 254
           YWC D        C I+C  L DDD+TDDI CA++I ++H+
Sbjct: 60  YWCNDGKTPSGNICHISCSKLLDDDITDDIKCAKKIVKEHQ 100

They have a close evolutionary relationship and similar tertiary structure, however, functionally they are quite different. Lysozymes have primarily bacteriolytic function; hydrolysis of peptidoglycan of prokaryotic cell walls and transglycosylation. LA is a calcium-binding metalloprotein that is expressed exclusively in the mammary gland during lactation. LA is the regulatory subunit of the enzyme lactose synthase. The association of LA with the catalytic component of lactose synthase, galactosyltransferase, alters the acceptor substrate specificity of this glycosyltransferase, facilitating biosynthesis of lactose. Length = 123

>gnl\|CDD\|197612 smart00263, LYZ1, Alpha-lactalbumin / lysozyme C	Back alignment and domain information

>gnl\|CDD\|200968 pfam00062, Lys, C-type lysozyme/alpha-lactalbumin family	Back alignment and domain information

>gnl\|CDD\|238066 cd00119, LYZ1, C-type lysozyme (1, 4-beta-N-acetylmuramidase, LYZ) and alpha-lactalbumin (lactose synthase B protein, LA)	Back alignment and domain information

>gnl\|CDD\|197612 smart00263, LYZ1, Alpha-lactalbumin / lysozyme C	Back alignment and domain information

>gnl\|CDD\|200968 pfam00062, Lys, C-type lysozyme/alpha-lactalbumin family	Back alignment and domain information

Conserved Domains Detected by HHsearch

Original result of HHsearch against CDD database

ID	Alignment Graph	Length	Definition	Probability
Query		263
PF00062		125	Lys: C-type lysozyme/alpha-lactalbumin family; Int	100.0
cd00119		123	LYZ1 C-type lysozyme (1, 4-beta-N-acetylmuramidase	100.0
smart00263		127	LYZ1 Alpha-lactalbumin / lysozyme C.	100.0
PF00062		125	Lys: C-type lysozyme/alpha-lactalbumin family; Int	100.0
smart00263		127	LYZ1 Alpha-lactalbumin / lysozyme C.	100.0
cd00119		123	LYZ1 C-type lysozyme (1, 4-beta-N-acetylmuramidase	100.0
PRK13722		169	lytic transglycosylase; Provisional	98.55
PRK15328		160	invasion protein IagB; Provisional	98.5
PRK13888		206	conjugal transfer protein TrbN; Provisional	98.2
PRK13864		245	type IV secretion system lytic transglycosylase Vi	97.71
PF01464		121	SLT: Transglycosylase SLT domain; InterPro: IPR008	97.44
PRK15328		160	invasion protein IagB; Provisional	96.96
cd00254		113	LT_GEWL Lytic Transglycosylase (LT) and Goose Egg	96.96
cd01021		166	GEWL Goose Egg White Lysozyme domain. Eukaryotic "	96.52
PRK13722		169	lytic transglycosylase; Provisional	96.46
PF01464		121	SLT: Transglycosylase SLT domain; InterPro: IPR008	95.97
PRK13888		206	conjugal transfer protein TrbN; Provisional	95.17
PRK15470		203	emtA lytic murein endotransglycosylase E; Provisio	95.1
cd00254		113	LT_GEWL Lytic Transglycosylase (LT) and Goose Egg	94.98
PRK11671		359	mltC murein transglycosylase C; Provisional	93.55
PF06737		77	Transglycosylas: Transglycosylase-like domain; Int	93.08
PF06737		77	Transglycosylas: Transglycosylase-like domain; Int	91.78
PRK13864		245	type IV secretion system lytic transglycosylase Vi	89.76
cd01021		166	GEWL Goose Egg White Lysozyme domain. Eukaryotic "	89.51
PRK10783		456	mltD membrane-bound lytic murein transglycosylase	89.45
PRK11619		644	lytic murein transglycosylase; Provisional	86.83
PRK10859		482	membrane-bound lytic transglycosylase F; Provision	82.75

>PF00062 Lys: C-type lysozyme/alpha-lactalbumin family; InterPro: IPR001916 O-Glycosyl hydrolases 3	Back alignment and domain information

Probab=100.00  E-value=1.5e-44  Score=298.57  Aligned_cols=102  Identities=49%  Similarity=0.905  Sum_probs=92.5

Q ss_pred             ccccchHHHHHHHhC---CCCCCCcccceeeeeeccCCccccccccCCCCCceeeeeeeccccccCCCC-C-CCCcCCCC
Q psy6911         156 KTFRPCELAKVLLDN---DISKDDIATWLCIARYESTFNSSAVGHMSGDGSLDHGIFQINDRYWCTDAD-D-DIKACGIT  230 (263)
Q Consensus       156 kv~~rCeLa~~L~~~---g~~~~~l~~WvCia~~ES~~~T~ai~~~n~~Gs~dyGLFQIns~~WC~~~~-~-~~n~C~i~  230 (263)
                      |||+|||||++|+++   ||++++|++|||||+|||+|||+|+++ +.|||+||||||||++|||++++ | ++|.|+|+
T Consensus         1 Kv~~rCeLa~~L~~~g~~g~~~~~l~~WvCla~~eS~f~T~a~~~-~~~gS~dyGIFQIns~~WC~~~~~~~~~n~C~i~   79 (125)
T PF00062_consen    1 KVFTRCELARELKNAGLDGYPGYSLANWVCLAYHESGFNTSAVNY-NNDGSTDYGIFQINSRYWCSDGKTPGSKNICNIS   79 (125)
T ss_dssp             -BC-HHHHHHHHHHTTGTTBTCBGHHHHHHHHHHHHTTBTT-EEE-ETTSEEEETTTTEETTTTSBCSSSTTSSTTTSSB
T ss_pred             CcccHhHHHHHHHHcCCCCcchhhhhheeeeEecccCceeecccc-CCCCccccceeecCchhhccCCCCCCCCCccCCc
Confidence            799999999999964   566999999999999999999999999 56999999999999999999998 5 89999999


Q ss_pred             cccccCCChHHHHHHHHHHHHhhcccCCCCCCC
Q psy6911         231 CKALEDDDLTDDIACARRIYRQHKRQGGNGKIS  263 (263)
Q Consensus       231 C~dLl~ddI~~di~CAk~I~~~h~~~~~~G~~a  263 (263)
                      |++||+|||++||.|||+|+++     ++||+|
T Consensus        80 C~~ll~ddI~ddi~Cak~I~~~-----~~G~~a  107 (125)
T PF00062_consen   80 CSDLLDDDITDDIRCAKKIYRE-----PQGFNA  107 (125)
T ss_dssp             GGGGGSSSTHHHHHHHHHHHTH-----HTGGGG
T ss_pred             cccccccchHHHHHHHHHHHcC-----cccchh
Confidence            9999999999999999999966     489875

2.1. from EC are a widespread group of enzymes that hydrolyse the glycosidic bond between two or more carbohydrates, or between a carbohydrate and a non-carbohydrate moiety. A classification system for glycosyl hydrolases, based on sequence similarity, has led to the definition of 85 different families [, ]. This classification is available on the CAZy (CArbohydrate-Active EnZymes) web site. Glycoside hydrolase family 22 GH22 from CAZY comprises enzymes with two known activities; lysozyme type C (3.2.1.17 from EC) and alpha-lactalbumins. Asp and/or the carbonyl oxygen of the C-2 acetamido group of the substrate acts as the catalytic nucleophile/base. Alpha-lactalbumin [, ] is a milk protein that acts as the regulatory subunit of lactose synthetase, acting to promote the conversion of galactosyltransferase to lactose synthase, which is essential for milk production. In the mammary gland, alpha-lactalbumin changes the substrate specificity of galactosyltransferase from N-acetylglucosamine to glucose. Lysozymes (3.2.1.17 from EC) act as bacteriolytic enzymes by hydrolyzing the beta(1->4) bonds between N-acetylglucosamine and N-acetylmuramic acid in the peptidoglycan of prokaryotic cell walls. It has also been recruited for a digestive role in certain ruminants and colobine monkeys []. There are at least five different classes of lysozymes []: C (chicken type), G (goose type), phage-type (T4), fungi (Chalaropsis), and bacterial (Bacillus subtilis). There are few similarities in the sequences of the different types of lysozymes. Lysozyme type C and alpha-lactalbumin are similar both in terms of primary sequence and structure, and probably evolved from a common ancestral protein []. Around 35 to 40% of the residues are conserved in both proteins as well as the positions of the four disulphide bonds. There is, however, no similarity in function. Another significant difference between the two enzymes is that all lactalbumins have the ability to bind calcium [], while this property is restricted to only a few lysozymes []. The binding site was deduced using high resolution X-ray structure analysis and was shown to consist of three aspartic acid residues. It was first suggested that calcium bound to lactalbumin stabilised the structure, but recently it has been claimed that calcium controls the release of lactalbumin from the golgi membrane and that the pattern of ion binding may also affect the catalytic properties of the lactose synthetase complex.; PDB: 1HFX_A 1HMK_A 1HFY_B 1FKQ_A 1FKV_A 3B0K_B 1HML_A 1B9O_A 1A4V_A 3B0O_A ....

>cd00119 LYZ1 C-type lysozyme (1, 4-beta-N-acetylmuramidase, LYZ) and alpha-lactalbumin (lactose synthase B protein, LA)	Back alignment and domain information

>smart00263 LYZ1 Alpha-lactalbumin / lysozyme C	Back alignment and domain information

>PF00062 Lys: C-type lysozyme/alpha-lactalbumin family; InterPro: IPR001916 O-Glycosyl hydrolases 3	Back alignment and domain information

>smart00263 LYZ1 Alpha-lactalbumin / lysozyme C	Back alignment and domain information

>cd00119 LYZ1 C-type lysozyme (1, 4-beta-N-acetylmuramidase, LYZ) and alpha-lactalbumin (lactose synthase B protein, LA)	Back alignment and domain information

>PRK13722 lytic transglycosylase; Provisional	Back alignment and domain information

>PRK15328 invasion protein IagB; Provisional	Back alignment and domain information

>PRK13888 conjugal transfer protein TrbN; Provisional	Back alignment and domain information

>PRK13864 type IV secretion system lytic transglycosylase VirB1; Provisional	Back alignment and domain information

>PF01464 SLT: Transglycosylase SLT domain; InterPro: IPR008258 Bacterial lytic transglycosylases degrade murein via cleavage of the beta-1,4-glycosidic bond between N-acetylmuramic acid and N-acetylglucosamine, with the concomitant formation of a 1,6-anhydrobond in the muramic acid residue	Back alignment and domain information

>PRK15328 invasion protein IagB; Provisional	Back alignment and domain information

>cd00254 LT_GEWL Lytic Transglycosylase (LT) and Goose Egg White Lysozyme (GEWL) domain	Back alignment and domain information

>cd01021 GEWL Goose Egg White Lysozyme domain	Back alignment and domain information

>PRK13722 lytic transglycosylase; Provisional	Back alignment and domain information

>PF01464 SLT: Transglycosylase SLT domain; InterPro: IPR008258 Bacterial lytic transglycosylases degrade murein via cleavage of the beta-1,4-glycosidic bond between N-acetylmuramic acid and N-acetylglucosamine, with the concomitant formation of a 1,6-anhydrobond in the muramic acid residue	Back alignment and domain information

>PRK13888 conjugal transfer protein TrbN; Provisional	Back alignment and domain information

>PRK15470 emtA lytic murein endotransglycosylase E; Provisional	Back alignment and domain information

>cd00254 LT_GEWL Lytic Transglycosylase (LT) and Goose Egg White Lysozyme (GEWL) domain	Back alignment and domain information

>PRK11671 mltC murein transglycosylase C; Provisional	Back alignment and domain information

>PF06737 Transglycosylas: Transglycosylase-like domain; InterPro: IPR010618 This family of proteins is very likely to act as transglycosylase enzymes related to IPR001916 from INTERPRO and IPR008258 from INTERPRO	Back alignment and domain information

>PF06737 Transglycosylas: Transglycosylase-like domain; InterPro: IPR010618 This family of proteins is very likely to act as transglycosylase enzymes related to IPR001916 from INTERPRO and IPR008258 from INTERPRO	Back alignment and domain information

>PRK13864 type IV secretion system lytic transglycosylase VirB1; Provisional	Back alignment and domain information

>cd01021 GEWL Goose Egg White Lysozyme domain	Back alignment and domain information

>PRK10783 mltD membrane-bound lytic murein transglycosylase D; Provisional	Back alignment and domain information

>PRK11619 lytic murein transglycosylase; Provisional	Back alignment and domain information

>PRK10859 membrane-bound lytic transglycosylase F; 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		263
2lhm_A		130	Crystal Structures Of The Apo-And Holomutant Human		5e-20
1b7p_A		130	Verification Of Spmp Using Mutant Human Lysozymes L		7e-20
1di3_A		130	Role Of Amino Acid Residues At Turns In The Conform		8e-20
1i20_A		130	Mutant Human Lysozyme (A92d) Length = 130		2e-19
1i22_A		130	Mutant Human Lysozyme (A83kQ86DA92D) Length = 130		2e-19
1ckd_A		130	T43v Mutant Human Lysozyme Length = 130		2e-19
1cj7_A		130	T11v Mutant Human Lysozyme Length = 130		2e-19
1i1z_A		130	Mutant Human Lysozyme (Q86d) Length = 130		3e-19
1ip3_A		130	G68a Human Lysozyme Length = 130		3e-19
1ge2_A		130	Crystal Structure Of Mutant Human Lysozyme Substitu		3e-19
1wqo_A		130	Contribution Of Hydrogen Bonds To The Conformationa		4e-19
1d6q_A		130	Human Lysozyme E102 Mutant Labelled With 2',3'-Epox		4e-19
1ckg_A		130	T52v Mutant Human Lysozyme Length = 130		4e-19
1w08_A		130	Structure Of T70n Human Lysozyme Length = 130		4e-19
1c7p_A		134	Crystal Structure Of Mutant Human Lysozyme With Fou		5e-19
1gf3_A		130	Buried Polar Mutant Human Lysozyme Length = 130		5e-19
1gf8_A		130	Crystal Structure Of Mutant Human Lysozyme Substitu		5e-19
1ip1_A		130	G37a Human Lysozyme Length = 130		6e-19
1gb6_A		130	Crystal Structure Of Mutant Human Lysozyme Substitu		6e-19
1eq5_A		130	Crystal Structures Of Salt Bridge Mutants Of Human		6e-19
1eqe_A		130	Crystal Structures Of Salt Bridge Mutants Of Human		6e-19
1lhi_A		130	Role Of Proline Residues In Human Lysozyme Stabilit		7e-19
1b7o_A		130	Verification Of Spmp Using Mutant Human Lysozymes L		7e-19
1jkd_A		130	Human Lysozyme Mutant With Trp 109 Replaced By Ala		7e-19
2heb_A		130	Contribution Of Water Molecules In The Interior Of		8e-19
1yam_A		130	Contribution Of Hydrophobic Residues To The Stabili		8e-19
1yan_A		130	Contribution Of Hydrophobic Residues To The Stabili		8e-19
2hea_A		130	Contribution Of Water Molecules In The Interior Of		8e-19
1gbo_A		130	Crystal Structure Of Mutant Human Lysozyme Substitu		8e-19
1ge4_A		130	Crystal Structure Of Mutant Human Lysozyme Substitu		8e-19
1lhj_A		130	Role Of Proline Residues In Human Lysozyme Stabilit		8e-19
1cj6_A		130	T11a Mutant Human Lysozyme Length = 130		8e-19
1jkc_A		130	Human Lysozyme Mutant With Trp 109 Replaced By Phe		8e-19
1ckh_A		130	T70v Mutant Human Lysozyme Length = 130		8e-19
1ckc_A		130	T43a Mutant Human Lysozyme Length = 130		8e-19
1c46_A		131	Mutant Human Lysozyme With Foreign N-Terminal Resid		8e-19
1ge3_A		130	Crystal Structure Of Mutant Human Lysozyme Substitu		8e-19
1inu_A		130	Crystal Structure Of Mutant Human Lysozyme Substitu		8e-19
1ouf_A		130	Contribution Of Hydrophobic Residues To The Stabili		8e-19
1oud_A		130	Contribution Of Hydrophobic Residues To The Stabili		8e-19
1ouc_A		130	Contribution Of Hydrophobic Residues To The Stabili		8e-19
1cj8_A		130	T40a Mutant Human Lysozyme Length = 130		8e-19
1oue_A		130	Contribution Of Hydrophobic Residues To The Stabili		8e-19
1ckf_A		130	T52a Mutant Human Lysozyme Length = 130		8e-19
1lzs_A		130	Structural Changes Of The Active Site Cleft And Dif		8e-19
1gfv_A		130	Crystal Structure Of Mutant Human Lysozyme Substitu		8e-19
1gby_A		130	Crystal Structure Of Mutant Human Lysozyme Substitu		8e-19
1gbx_A		130	Crystal Structure Of Mutant Human Lysozyme Substitu		8e-19
1ip6_A		130	G127a Human Lysozyme Length = 130		8e-19
1ip5_A		130	G105a Human Lysozyme Length = 130		8e-19
1ip7_A		130	G129a Human Lysozyme Length = 130		8e-19
1oug_A		130	Contribution Of Hydrophobic Residues To The Stabili		8e-19
1gft_A		130	Crystal Structure Of Mutant Human Lysozyme Substitu		8e-19
1ip4_A		130	G72a Human Lysozyme Length = 130		8e-19
1gbw_A		130	Crystal Structure Of Mutant Human Lysozyme Substitu		9e-19
133l_A		130	Role Of Arg 115 In The Catalytic Action Of Human Ly		9e-19
134l_A		130	Role Of Arg 115 In The Catalytic Action Of Human Ly		9e-19
1lhh_A		130	Role Of Proline Residues In Human Lysozyme Stabilit		9e-19
1b5z_A		130	Contribution Of Hydrogen Bonds To The Conformationa		9e-19
1yaq_A		130	Contribution Of Hydrophobic Residues To The Stabili		9e-19
1gbz_A		130	Crystal Structure Of Mutant Human Lysozyme Substitu		9e-19
1wqm_A		130	Contribution Of Hydrogen Bonds To The Conformationa		9e-19
1gdx_A		130	Crystal Structure Of Mutant Human Lysozyme Substitu		9e-19
1gfe_A		130	Crystal Structure Of Mutant Human Lysozyme Substitu		9e-19
1oub_A		130	Contribution Of Hydrophobic Residues To The Stabili		1e-18
1gb2_A		130	Crystal Structure Of Mutant Human Lysozyme Substitu		1e-18
1gf7_A		130	Buried Polar Mutant Human Lysozyme Length = 130		1e-18
1b7q_A		130	Verification Of Spmp Using Mutant Human Lysozymes L		1e-18
1yao_A		130	Contribution Of Hydrophobic Residues To The Stabili		1e-18
1wqn_A		130	Contribution Of Hydrogen Bonds To The Conformationa		1e-18
1yap_A		130	Contribution Of Hydrophobic Residues To The Stabili		1e-18
1gb7_A		130	Crystal Structure Of Mutant Human Lysozyme Substitu		1e-18
1gfu_A		130	Crystal Structure Of Mutant Human Lysozyme Substitu		1e-18
1gaz_A		130	Crystal Structure Of Mutant Human Lysozyme Substitu		1e-18
1gay_A		130	Crystal Structure Of Mutant Human Lysozyme Substitu		1e-18
1b5x_A		130	Contribution Of Hydrogen Bonds To The Conformationa		1e-18
1b5u_A		130	Contribution Of Hydrogen Bonds To The Conformationa		1e-18
1b5w_A		130	Contribution Of Hydrogen Bonds To The Conformationa		1e-18
1gfg_A		130	Crystal Structure Of Mutant Human Lysozyme Substitu		1e-18
1gb0_A		130	Crystal Structure Of Mutant Human Lysozyme Substitu		1e-18
1gb8_A		130	Crystal Structure Of Mutant Human Lysozyme Substitu		1e-18
1gdw_A		130	Crystal Structure Of Mutant Human Lysozyme Substitu		1e-18
1gf9_A		130	Crystal Structure Of Mutant Human Lysozyme Substitu		1e-18
2mee_A		130	Contribution Of Hydrophobic Effect To The Conformat		1e-18
2meb_A		130	Changes In Conformational Stability Of A Series Of		1e-18
1laa_A		130	X-Ray Structure Of Glu 53 Human Lysozyme Length = 1		2e-18
1gb3_A		130	Crystal Structure Of Mutant Human Lysozyme Substitu		2e-18
1ioc_A		134	Crystal Structure Of Mutant Human Lysozyme, Eaea-I5		2e-18
1lhl_A		130	Role Of Proline Residues In Human Lysozyme Stabilit		2e-18
2mef_A		130	Contribution Of Hydrophobic Effect To The Conformat		2e-18
2mec_A		130	Changes In Conformational Stability Of A Series Of		2e-18
1b5y_A		130	Contribution Of Hydrogen Bonds To The Conformationa		2e-18
1b5v_A		130	Contribution Of Hydrogen Bonds To The Conformationa		2e-18
1cj9_A		130	T40v Mutant Human Lysozyme Length = 130		2e-18
2hef_A		130	Contribution Of Water Molecules In The Interior Of		2e-18
1ivm_A		130	Solution Structure Of Mouse Lysozyme M Length = 130		2e-18
1eq4_A		130	Crystal Structures Of Salt Bridge Mutants Of Human		2e-18
1gf0_A		130	Buried Polar Mutant Human Lysozyme Length = 130		2e-18
1gez_A		130	Buried Polar Mutant Human Lysozyme Length = 130		2e-18
1gf5_A		130	Buried Polar Mutant Human Lysozyme Length = 130		2e-18
1gb9_A		130	Crystal Structure Of Mutant Human Lysozyme Substitu		2e-18
1lz5_A		134	Structural And Functional Analyses Of The Arg-Gly-A		2e-18
1gfa_A		130	Crystal Structure Of Mutant Human Lysozyme Substitu		2e-18
1wqq_A		130	Contribution Of Hydrogen Bonds To The Conformationa		2e-18
1wqp_A		130	Contribution Of Hydrogen Bonds To The Conformationa		2e-18
1gf6_A		130	Buried Polar Mutant Human Lysozyme Length = 130		2e-18
1gf4_A		130	Buried Polar Mutant Human Lysozyme Length = 130		2e-18
1tdy_A		130	Dissection Of The Functional Role Of Structural Ele		2e-18
1di5_A		129	Role Of Amino Acid Residues At Turns In The Conform		2e-18
2mea_A		130	Changes In Conformational Stability Of A Series Of		2e-18
2med_A		130	Contribution Of Hydrophobic Effect To The Conformat		2e-18
1tcy_A		130	Dissection Of The Functional Role Of Structural Ele		2e-18
1gfh_A		130	Crystal Structure Of Mutant Human Lysozyme Substitu		2e-18
1oui_A		130	Contribution Of Hydrophobic Residues To The Stabili		2e-18
1ouh_A		130	Contribution Of Hydrophobic Residues To The Stabili		2e-18
1ouj_A		130	Contribution Of Hydrophobic Residues To The Stabili		2e-18
1lmt_A		136	Structure Of A Conformationally Constrained Arg-Gly		3e-18
1c43_A		130	Mutant Human Lysozyme With Foreign N-Terminal Resid		3e-18
1b7m_A		130	Verification Of Spmp Using Mutant Human Lysozymes L		3e-18
2meh_A		130	Contribution Of Hydrophobic Effect To The Conformat		3e-18
1c45_A		130	Mutant Human Lysozyme With Foreign N-Terminal Resid		3e-18
1loz_A		130	Amyloidogenic Variant (I56t) Variant Of Human Lysoz		3e-18
2mei_A		130	Contribution Of Hydrophobic Effect To The Conformat		3e-18
1b7s_A		130	Verification Of Spmp Using Mutant Human Lysozymes L		3e-18
2hec_A		130	Contribution Of Water Molecules In The Interior Of		3e-18
3ln2_A		130	Crystal Structure Of A Charge Engineered Human Lyso		3e-18
2hed_A		130	Contribution Of Water Molecules In The Interior Of		3e-18
1bb4_A		130	Human Lysozyme Double Mutant A96l, W109h Length = 1		3e-18
1lyy_A		130	Amyloidogenic Variant (Asp67his) Of Human Lysozyme		3e-18
1gev_A		130	Buried Polar Mutant Human Lysozyme Length = 130		3e-18
1bb3_A		130	Human Lysozyme Mutant A96l Length = 130		3e-18
1b7l_A		130	Verification Of Spmp Using Mutant Human Lysozymes L		3e-18
1lz6_A		138	Structural And Functional Analyses Of The Arg-Gly-A		4e-18
1lhk_A		130	Role Of Proline Residues In Human Lysozyme Stabilit		4e-18
1jka_A		130	Human Lysozyme Mutant With Glu 35 Replaced By Asp L		4e-18
1jkb_A		130	Human Lysozyme Mutant With Glu 35 Replaced By Ala L		4e-18
1ip2_A		130	G48a Human Lysozyme Length = 130		4e-18
1gfr_A		130	Crystal Structure Of Mutant Human Lysozyme Substitu		4e-18
1ge0_A		130	Crystal Structure Of Mutant Human Lysozyme Substitu		4e-18
1gb5_A		130	Crystal Structure Of Mutant Human Lysozyme Substitu		4e-18
1ge1_A		130	Crystal Structure Of Mutant Human Lysozyme Substitu		4e-18
2meg_A		130	Changes In Conformational Stability Of A Series Of		4e-18
1gfk_A		130	Crystal Structure Of Mutant Human Lysozyme Substitu		4e-18
1b7r_A		130	Verification Of Spmp Using Mutant Human Lysozymes L		5e-18
2hee_A		130	Contribution Of Water Molecules In The Interior Of		6e-18
1gfj_A		130	Crystal Structure Of Mutant Human Lysozyme Substitu		6e-18
1d6p_A		130	Human Lysozyme L63 Mutant Labelled With 2',3'-Epoxy		7e-18
1b7n_A		130	Verification Of Spmp Using Mutant Human Lysozymes L		7e-18
208l_A		130	Mutant Human Lysozyme C77a Length = 130		7e-18
1tay_A		130	Dissection Of The Functional Role Of Structural Ele		8e-18
1el1_A		130	X-Ray Crystal Structure Analysis Of Canine Milk Lys		4e-17
1qqy_A		130	X-Ray Crystal Structure Analysis Of Canine Milk Lys		4e-17
2cwi_A		129	X-Ray Crystal Structure Analysis Of Recombinant Wil		4e-17
2bqb_A		130	Contribution Of Hydrophobic Effect To The Conformat		5e-17
2bqc_A		130	Contribution Of Hydrophobic Effect To The Conformat		5e-17
2bqk_A		130	Contribution Of Hydrophobic Effect To The Conformat		5e-17
2bqi_A		130	Contribution Of Hydrophobic Effect To The Conformat		5e-17
2bqh_A		130	Contribution Of Hydrophobic Effect To The Conformat		5e-17
2bqj_A		130	Contribution Of Hydrophobic Effect To The Conformat		5e-17
1lhm_A		130	The Crystal Structure Of A Mutant Lysozyme C77(Slas		5e-17
2bql_A		130	Contribution Of Hydrophobic Effect To The Conformat		5e-17
2eql_A		129	Crystallographic Studies Of A Calcium Binding Lysoz		6e-17
2fbd_A		122	The Crystallographic Structure Of The Digestive Lys		7e-17
2bqd_A		130	Contribution Of Hydrophobic Effect To The Conformat		7e-17
2bqe_A		130	Contribution Of Hydrophobic Effect To The Conformat		7e-17
1di4_A		128	Role Of Amino Acid Residues At Turns In The Conform		1e-16
2z2e_A		129	Crystal Structure Of Canine Milk Lysozyme Stabilize		1e-16
2bqm_A		130	Contribution Of Hydrophobic Effect To The Conformat		2e-16
1ix0_A		130	I59a-3ss Human Lysozyme Length = 130		2e-16
3cb7_A		126	The Crystallographic Structure Of The Digestive Lys		2e-16
1qsw_A		130	Crystal Structure Analysis Of A Human Lysozyme Muta		4e-16
2rsc_A		120	Solution Structure Of The Bombyx Mori Lysozyme Leng		8e-15
1bb6_A		129	Lysozyme Complex With 4-Methyl-Umbelliferyl Chitotr		8e-15
1gd6_A		119	Structure Of The Bombyx Mori Lysozyme Length = 119		9e-15
2z2f_A		129	X-Ray Crystal Structure Of Bovine Stomach Lysozyme		1e-14
2bqn_A		130	Contribution Of Hydrophobic Effect To The Conformat		2e-14
2gv0_A		131	The Structure Of The Orthorhombic Form Of Soft-Shel		2e-14
1ior_A		129	Stabilization Of Hen Egg White Lysozyme By A Cavity		6e-14
1iiz_A		120	Crystal Structure Of The Induced Antibacterial Prot		9e-14
2bqo_A		130	Contribution Of Hydrophobic Effect To The Conformat		1e-13
2bqg_A		130	Contribution Of Hydrophobic Effect To The Conformat		1e-13
1ioq_A		129	Stabilization Of Hen Egg White Lysozyme By A Cavity		2e-13
1lzd_A		129	Dissection Of Protein-Carbohydrate Interactions In		2e-13
2goi_A		138	Crystal Structure Of Mouse Sperm C-Type Lysozyme-Li		2e-13
2bqf_A		130	Contribution Of Hydrophobic Effect To The Conformat		2e-13
1flu_A		129	Hen Egg White Lysozyme Mutant With Alanine Substitu		2e-13
1her_A		129	Structural And Thermodynamic Analysis Of Compensati		2e-13
1iot_A		129	Stabilization Of Hen Egg White Lysozyme By A Cavity		3e-13
1uia_A		127	Analysis Of The Stabilization Of Hen Lysozyme With		3e-13
1heq_A		129	Structural And Thermodynamic Analysis Of Compensati		3e-13
1kxy_A		129	Analysis Of The Stabilization Of Hen Lysozyme With		3e-13
1bql_Y		129	Structure Of An Anti-Hel Fab Fragment Complexed Wit		3e-13
1uif_A		129	Analysis Of The Stabilization Of Hen Lysozyme With		3e-13
1fbi_X		129	Crystal Structure Of A Cross-Reaction Complex Betwe		3e-13
1dzb_X		129	Crystal Structure Of Phage Library-Derived Single-C		4e-13
1lsg_A		144	Three-Dimensional Structure Of The Platelet Integri		4e-13
3qy4_A		129	Crystallization And In Situ Data Collection Of Lyso		4e-13
1hep_A		129	Structural And Thermodynamic Analysis Of Compensati		4e-13
2iff_Y		129	Structure Of An Antibody-Lysozyme Complex: Effect O		4e-13
1at6_A		129	Hen Egg White Lysozyme With A Isoaspartate Residue		4e-13
1at5_A		129	Hen Egg White Lysozyme With A Succinimide Residue L		4e-13
1lzg_A		129	Dissection Of Protein-Carbohydrate Interactions In		4e-13
1flw_A		129	Hen Egg White Lysozyme Mutant With Alanine Substitu		5e-13
1hhl_A		129	The Three-Dimensional Structure Of Pheasant And Gui		5e-13
1uie_A		129	Analysis Of The Stabilization Of Hen Lysozyme With		5e-13
1uid_A		129	Analysis Of The Stabilization Of Hen Lysozyme With		5e-13
1uic_A		129	Analysis Of The Stabilization Of Hen Lysozyme With		5e-13
1fdl_Y		129	Crystallographic Refinement Of The Three-Dimensiona		5e-13
1v7s_A		129	Triclinic Hen Lysozyme Crystallized At 313k From A		5e-13
1fly_A		129	Hen Egg White Lysozyme Mutant With Alanine Substitu		5e-13
1flq_A		129	Hen Egg White Lysozyme Mutant With Alanine Substitu		5e-13
1a2y_C		129	Hen Egg White Lysozyme, D18a Mutant, In Complex Wit		5e-13
3b6l_A		147	Crystal Structure Of Lysozyme Folded In Sds And 2-M		5e-13
1lsn_A		129	Thermal Stability Determinants Of Chicken Egg-White		6e-13
1hem_A		129	Structural And Thermodynamic Analysis Of Compensati		6e-13
1heo_A		129	Structural And Thermodynamic Analysis Of Compensati		6e-13
1kxx_A		129	Analysis Of The Stabilization Of Hen Lysozyme With		7e-13
1ios_A		129	Stabilization Of Hen Egg White Lysozyme By A Cavity		8e-13
1hen_A		129	Structural And Thermodynamic Analysis Of Compensati		8e-13
1lsm_A		129	Thermal Stability Determinants Of Chicken Egg-White		9e-13
1ir9_A		129	Im Mutant Of Lysozyme Length = 129		1e-12
1ir8_A		129	Im Mutant Of Lysozyme Length = 129		1e-12
1ir7_A		129	Im Mutant Of Lysozyme Length = 129		1e-12
2ihl_A		129	Lysozyme (e.c.3.2.1.17) (japanese Quail) Length = 1		1e-12
1h6m_A		129	Covalent Glycosyl-Enzyme Intermediate Of Hen Egg Wh		1e-12
3ojp_A		129	D52n Mutant Of Hen Egg White Lysozyme (Hewl) Length		1e-12
1kxw_A		129	Analysis Of The Stabilization Of Hen Lysozyme With		1e-12
1nby_C		129	Crystal Structure Of Hyhel-63 Complexed With Hel Mu		1e-12
1nbz_C		129	Crystal Structure Of Hyhel-63 Complexed With Hel Mu		1e-12
1ghl_A		130	The Three-Dimensional Structure Of Pheasant And Gui		2e-12
1lsy_A		147	Crystal Structure Of The Mutant D52s Hen Egg White		2e-12
1io5_A		129	Hydrogen And Hydration Of Hen Egg-White Lysozyme De		2e-12
3ok0_A		129	E35a Mutant Of Hen Egg White Lysozyme (Hewl) Length		2e-12
1jhl_A		129	Three-Dimensional Structure Of A Heteroclitic Antig		3e-12
1fn5_A		129	Hen Egg White Lysozyme Mutant With Alanine Substitu		3e-12
3a3q_A		129	Structure Of N59d Hen Egg-White Lysozyme In Complex		3e-12
1ndg_C		129	Crystal Structure Of Fab Fragment Of Antibody Hyhel		3e-12
132l_A		129	Structural Consequences Of Reductive Methylation Of		1e-11
1lz2_A		129	Crystallographic Study Of Turkey Egg-White Lysozyme		2e-11
1fkv_A		124	Recombinant Goat Alpha-Lactalbumin T29i Length = 12		2e-10
1fkq_A		124	Recombinant Goat Alpha-Lactalbumin T29v Length = 12		3e-10
1jug_A		125	Lysozyme From Echidna Milk (Tachyglossus Aculeatus)		8e-10
3b0k_A		123	Crystal Structure Of Alpha-Lactalbumin Length = 123		9e-10
1hmk_A		124	Recombinant Goat Alpha-Lactalbumin Length = 124		9e-10
1hfy_A		123	Alpha-Lactalbumin Length = 123		1e-09
1hfz_A		124	Alpha-Lactalbumin Length = 124		3e-09
1f6r_A		123	Crystal Structure Of Apo-Bovine Alpha-Lactalbumin L		5e-09
3zvq_A		70	Crystal Structure Of Proteolyzed Lysozyme Length =		6e-09
1alc_A		123	Refined Structure Of Baboon Alpha-Lactalbumin At 1.		2e-08
1b9o_A		123	Human Alpha-Lactalbumin, Low Temperature Form Lengt		2e-08
1hml_A		142	Alpha_lactalbumin Possesses A Distinct Zinc Binding		2e-08
1a4v_A		123	Alpha-Lactalbumin Length = 123		5e-08
3b0i_A		124	Crystal Structure Of Recombinant Human Alpha Lactal		6e-08
3b0o_A		123	Crystal Structure Of Alpha-Lactalbumin Length = 123		1e-07
1nf5_A		123	Crystal Structure Of Lactose Synthase, Complex With		4e-07

>pdb|2LHM|A Chain A, Crystal Structures Of The Apo-And Holomutant Human Lysozymes With An Introduced Ca2+ Binding Site Length = 130