Protein

Protein accession
A0A2D0ZM66 [UniProt]
Representative
1gLXn
Source
UniProt (cluster: phalp2_17997)
Protein name
Tape measure protein
Lysin probability
100%
PhaLP type
VAL
Probability: 99% (predicted by ML model)
Protein sequence
MAKLRAQLASLNTAMASRTQLPVVMNGPLRDMDQLTKRIQQGKISSKEFNDTLFKRNKLMEYQNRLQKANLANARQIGTSGRFAGQLNIPQLNAQSAAMKRTAADWATMSAAAKSYGRSVQDAGKNMAFMGRQSLLSITAPIVAIGAATAMAFYDVDKGLTNIVKVYGDSRDKIQASANDIRDASMSLAKDLVNGLGTSVNDTLKLAGAFAALGESGTNLDNMTTQAARLMRLGDVTTESATKMISTLRTVFSLSGSGLSEAINYANEMENSTTLTMQDFSDALPKIGPIVKAWNGDIKDAGTILEAFTRSGINAVEGANALKSGFAKLSRTTPQLRNMFDEMTGGKDLDAIVKQYQGDVPKILAEIGKIQDAQNWDRYKRGKFASQLWGAQQLARGMALTENLANPGAQRAQDIAAKSREELAAIAQREIDAIMNSASAKFDVALQNMKLFAAQIGEKVLPLITSMIQGFMKVGEFIHKAYQNFREFTGPIGDLLAFVGKLTAGLLVMMGPIMLMIAAAKMIKGTLIRGWGAVVGDRMTKRAGGNASTFSTAEQKASQLSSTKITQAHQAQNRSYASLQSAVNRLTSTYNAQATAAQRAATSNLAASNTNAAAAQRLNAITAQGAQQRAQAAQAAVLATKQTTSATRAQTRAISGQTLAVSSNNAATRSSFTLRQQAMRTDANTGMNTSPPKNTLLSSNGGRWEQNTRSGDIARLNSDGSRSPVSAASQARIRQEFANQRLAQLNSVTQAAGLNARAANAQSSAVGSSALNANTSATASRVAAATSTSAAALAPVNPLIRQATISQRAFTAASNQTAQSLARGVAGSYSSIVARQQNVVGLQNRINAAVSKGNAATRLQALTAAQSAQMQNNTLLAQNAGRNAMNSMFVSQGRQLTPQQQRKNAMQARMQNLMATQGNRAGAPSSLIGTQAPANTAAMARNMTVTADRAGDVGQKLGGALVVTGLLGSMFAKNNQALQNTLATVSTIGMSLMLLAAAAPGLLAKIGTAFTTQFGKMTKSVGGGTGKMTGMFKSMGAGLIKALPWAAVAAAGVAAAYVIYRAFTANSRKLTEENDKITKSIEGWQKLLDLAPTAFGQIEGKNGDVIDTATSLIDAAKKDDKLGAVIDKLARNSADTQELKNILEREAVKMGARGADSATIEKGLNTVMAAANLPPQVIDELKIQFKNVTVTGINGASLSDGVKSQLDDVLGSRDGNTASGVQQTFNGASPTDLSQLAKARINDLMEQLDNEAATQDPKVRADVFNAWTKGLEAQLDKSLAGLSEDARKKIDSLGGVVKLDWGDLVDMEGDGLITDAQRDDLMYQKKVLEDMISRITAAGNADDKGTAAMLTDISSAMIVRAQQTGTVIMSMMSAQDKFQMKVFSMGDAWKNLSDDEKGTIINHYRMAAGLKALTDQQRDAAIAAGNLGPEIYDVGKEADIAAAKVAEMDAEFGEGRTADWKITLTVDGMDFGSVEDQVQDMKDARKKIGDQIAEDMQVDAENQHAASERSRKAAQQEETDALSEAQKSESKALSKAQDAEKKAFDKGWDQRIENENKGYEDRIKAIEDTQEAEDDLERTRKRNSDRESRRLKYLQSLMQGQIDYAAAMAGGNLDEAARISLNASETTQNYAQETTDAEAGYKKEDDDRARSKVIDQIKEEQDARMKSLELQREAESEAMQERLEMQTEELQKKQEAQSKYLSQKQANEDVANELAYQSTQRKLQRELDALRQIIPVTNAEQMAQVNAMEAVYQKYGINLTVSAEGWATTIEKGLVDHVDIARQKTANEAAWNDFGNKIANAAANGGFDMSIDDFMKFISTGELPANYKAAQSAKDNNMFGARHGGGPIGNIGGGYDKFNSRGGRSMSSGIARDEAPILAQKGEFMMQKKAVNTYGSDVMHAINNGTFNPGNTGGAEVTNMNAIGGFGIGNIGAFIAAGMMRAVISRAVEATGNAMMNAVSGGGDIGAINISQKAGRYGNTVLNETQLKTAALIAEASREVGASKRDLTIALMTAFQESSMGTAGMYTEVDHDSLGPFQQRAAWGPRADRTDIKKSTKMFYHGGQQGQRGLFDFPNRNSMSLGQAAQAVQVSGNPGAYDQWRDEAEAIIAAGVGTDISRKDLGNNLKFGGWTTKGIDAYAAKWASSAVGSGGPMNVQPGEYQNPVPGSPVTSGYGMRWGALHDGIDFGAPIGTPIYATKAGTVTFASNYDDGGFGYHTVVDHGGGITSGYAHQSRLGVSAGQQVAKGQNIGWVGNTGQSTGPHLHFQLGRGSSGGKYSYSTDPAQFGIPGLRVGGIVGYDNTIANLHKDEAVLTAPLSKSLQNGINNLEAGNTGEISLNLTVEGSVYGVDHLNAILEGFKKEIKQELIEEQRMKQRRVTGK
Physico‐chemical
properties
protein length:2380 AA
molecular weight:253308,9 Da
isoelectric point:8,98
hydropathy:-0,38
Representative Protein Details
Accession
1gLXn
Protein name
1gLXn
Sequence length
2159 AA
Molecular weight
231605,39280 Da
Isoelectric point
5,37205
Sequence
VAIARTNLHIGVNVDGAAKAAAELSTLEKRMASLNKLGNGAGALGAMGMGVQGFNVKVDSQIRSMDELAKKIQKGTISQREYKRAIAGTNSMLEYQRRVSNLTIGDLKTLKNGQILVEFQQGLRGTSAQMVDNATKLRTLGATYDAFGQSIANTGKNMAFMGRQMLLSLTAPIALAAGGSAAVFYQYDKQLTNLVKLMGDSRDEFSASSAAIREDAMELSKTLNETMGVSVKDSLDLQGTFAALGKSGKELENATKSASRAMVLGDIGSDQAIKMGNTMQAVFQASEEKVNEYIDLINEFENSTVLATEDVADALPKIAPIVKSMGGDVEDALVLLESLKRGGIDAVEGANAVKSITGSIFRPTKKLQLMYQEMVPGDSLAELIKRNGNKIIDIVKDLGDITKDWQPDKKLKLFYQLAGKEQAARLIQLSDNLAIGNEKVTETLAKSAAERRAIAEKEINDIMASASKQFDVQLQRAMLFLSEVGGKVLPIITKGFSMLLTAIEEVTESFGNFLDFLGPIGDLIGFITKGAIGLAAALGPVILALASLSLAKGMAYKGIGKAMGFVGGKMGGKFLTAEQKAQQIAQEQMDAAQKESIATTKALEVAIMKLTGSYDKMTVAATGAANATKRVALSAKDSAALAANPALMPFRDTSLTGVTGTLRSDEARLRKAISDDQINRLNSQVSLIGAPTPQRKVGGATHEVGDSITRAAAAQEKAAASAQKWATGLGAVAGSAGLLTSVLGGTNAMIQTISTALFALSTLALFPAAGGFVKKMFNPILKGGRLAFEAIGMIGTNVFMNDVPNAAAKGTSKIGRLFAGIGPKIAGAAKAFGPWGIAIAGVAAAVYGLNKLIMRGAEQHLDMMNKINSSAKEYADILGYTYKEIGQTVNEAGELEETVESLAKKFKDNEIISGGVLEALKNASGDVESMSLILTQESVKILARGGTEADVKKMVEAALQAAGADSVDMGVLKARFSDIDVINADLLGQQMMDQLREGFGGQSENATFMDVMKDRLNPFNGVKYESGVGDSAFSSNDLSRDAEAKAKQMGQTFVNAFAAADDETKFKLASQWGNTMREAMKEAVDSGDEGAIETAKKFQQAVIDSMAEEHPKLEMFDKEEYQNIAQDFDTVMASINKSTISGAQATTDYNAAIGRLKKSNIDLTQAEKVRLLNIYRIRAGMDELSEKNAAVVLATENDEGFIDSVGRAGFAVDNMALIAEDATGAVEGLDDAMGEGQEVDWALNFTINAGALGMNGDPSEMIDLTLQGYKDAMSKAQSDVFDTAARIGQEQFDARMKELENQRDAALDALDKESKALDERFEAEEKAMSKAQDAEKKSFDDGWEARMEAEKAAYDARVKAIEDVQEKEDELERQRQRNTEREAARLRYLSGLMNNNIDMNAAIASGDLDQAAKLAINQAQSATDFQTETADREAGWRKEDDDRARGNAIDLIRQEEEERMKMLERQKEQERLAMEQRHEIQREEFQRRRDLERADLEAKRAALQQEWQMKLDNERSMYEINKRRMEDELNTLRATLPRTNEEMMKQKGQIEAIYAQYGVQLQQTGDEWASIVGNRLTVRVKEAQAAMSNDRDWELFGTRVSEGVSRGAFNMSSGEFNHFLRTGEMPGTPPARHNGGPISGGRSGDKYDSRGGIPRSAPMQRGERMVLAQDGEFMINKKAHSQLGTGFLNDLNNGVYTRHDGGPIGDEVSSRHDGGPIGLGVMGAAMQAAMIGGLVSRAGLAMGNAMMSAVQSGLTSGGFIGEGAAKAAQDFARGETGKPYQYAGVGNPSWDCSGFMGGIWAILTGKDPRNRWFSTETFNGAPDGTLGFKRGLAPDFPNGFSIGLMHGGGGPNSHMAGTLLGLPVEAGGNGVGMGAGYAGANDPQFTDHWHLPGVGGKRPEAAAGGGDKRSWVGWSTPGIEKYGQIAMDRFGYRPGAGAAMGEMLSGNSEFYAKEIVDEAKRRRLSKNAAIIALMTASQESSMLMHANHAVPESLRFPHDRIGSDHDSIGLFQQRPSMGWGSVAQLMNPRASAGIFYNALTKFNYEAMPKGAAAQHVQRSGHPSLYDDDEGRATSWANRYFDMGGLAIGKGLLPKGIVDPERVLSPRQTVAFEKMVPIMDAFANKGIVSYDDIVTSLRNDNGVLNASARGSVLATPAEGN
Other Proteins in cluster: phalp2_17997
Total (incl. this protein): 5 Avg length: 2304,8 Avg pI: 7,93
Protein ID Length (AA) pI
1gLXn 2159 5,37205
1hMm0 2294 8,44712
jjX 2380 8,98156
A0A7D5JKG1 2311 7,88012
Similar Clusters (pHMM search)
# Cluster # Members Identity (%) Alignment Length E-value
1 phalp2_28949
5HdfQ
 15 26,1% 2221 7.696E-193
2 phalp2_27591
5H5Bp
 75 27,7% 1722 8.563E-164
3 phalp2_29546
3MaS5
 4 22,3% 1780 1.621E-83
4 phalp2_27059
2gb3f
 1 23,2% 1803 4.955E-75
5 phalp2_31584
4kSP6
 1 20,9% 1776 3.294E-71
6 phalp2_17840
fY7Z
 1 21,5% 1663 1.303E-70
7 phalp2_36118
6K8Bb
 6 22,0% 1628 6.309E-56

Domains

Domains [InterPro]

No domain annotations available.

Taxonomy

  Name Taxonomy ID Lineage
Phage Rhodococcus phage Trina
[NCBI] 		2027905 Trinavirus > Trinavirus trina
Host No host information

Coding sequence (CDS)

Coding sequence (CDS)
CDS Source ID
[NCBI]
CDS Source
MF668286 [NCBI]
CDS location
range 43600 -> 50742
strand +
CDS
ATGGCGAAGCTAAGAGCACAGCTTGCTTCGCTTAATACTGCTATGGCGTCACGTACTCAATTGCCCGTTGTAATGAACGGTCCTTTGAGAGATATGGATCAACTCACTAAGAGAATCCAGCAAGGTAAAATCTCATCGAAGGAGTTCAACGATACTCTGTTTAAGCGTAACAAGCTTATGGAGTACCAGAACCGTCTTCAGAAGGCGAACCTTGCAAACGCTAGGCAAATTGGTACATCTGGTAGATTCGCGGGTCAGCTAAATATTCCTCAGCTTAACGCCCAATCTGCTGCTATGAAGAGAACGGCAGCAGATTGGGCTACCATGTCGGCGGCAGCTAAGTCGTATGGTCGCTCGGTGCAAGACGCCGGTAAGAACATGGCCTTTATGGGTCGTCAGTCGTTGCTATCAATTACAGCTCCCATTGTAGCTATCGGCGCGGCAACTGCTATGGCCTTTTATGATGTTGACAAGGGTCTAACAAACATCGTTAAGGTTTACGGTGACAGCCGAGATAAGATTCAGGCATCAGCGAATGATATTCGTGATGCAAGTATGTCCTTGGCTAAAGACCTGGTAAATGGTCTAGGTACATCTGTTAACGATACTTTGAAGTTGGCAGGCGCTTTCGCAGCTTTGGGTGAGTCTGGTACAAACCTAGACAACATGACAACTCAGGCAGCAAGACTTATGCGCCTTGGTGACGTAACTACTGAATCAGCTACAAAGATGATCAGTACACTTCGTACAGTTTTCAGTCTCTCAGGCAGCGGCCTGTCAGAGGCTATTAACTATGCCAACGAAATGGAAAACAGTACAACTCTTACAATGCAAGATTTCTCGGATGCATTGCCTAAGATTGGTCCTATTGTTAAGGCATGGAACGGTGACATTAAAGACGCCGGTACAATTCTAGAAGCTTTTACACGTTCTGGTATTAATGCTGTCGAAGGTGCTAACGCACTTAAGTCAGGTTTCGCTAAGCTATCTCGTACAACACCACAGCTTCGTAACATGTTTGACGAAATGACTGGTGGTAAAGACCTAGATGCAATTGTTAAGCAGTATCAGGGTGACGTACCGAAGATTCTAGCTGAAATTGGTAAAATCCAGGATGCACAGAACTGGGACCGCTACAAGCGTGGTAAGTTTGCTTCTCAGCTATGGGGCGCACAACAGCTTGCTCGTGGTATGGCACTTACAGAAAACCTAGCAAATCCGGGTGCCCAGAGAGCACAGGATATCGCTGCCAAGAGTAGAGAAGAACTTGCTGCCATTGCTCAGCGAGAAATCGACGCTATTATGAACAGCGCAAGTGCTAAGTTTGACGTAGCCTTGCAGAACATGAAGCTATTCGCCGCACAGATCGGTGAAAAGGTTCTACCGCTTATTACTAGCATGATTCAGGGATTTATGAAGGTCGGTGAATTTATTCACAAGGCTTATCAGAACTTCCGTGAGTTCACAGGACCAATCGGTGACCTTCTCGCATTCGTTGGTAAGCTAACTGCTGGACTTCTAGTAATGATGGGTCCAATTATGCTTATGATCGCCGCTGCTAAGATGATTAAGGGTACTCTGATTCGAGGTTGGGGCGCTGTAGTTGGCGATAGAATGACTAAGCGTGCTGGTGGTAATGCAAGTACATTTAGTACCGCAGAACAAAAGGCAAGTCAATTAAGTTCAACTAAGATTACTCAGGCTCATCAGGCTCAGAATCGTTCATACGCTAGCTTGCAGAGTGCTGTAAACAGACTTACATCTACATACAATGCACAGGCGACTGCTGCTCAGAGAGCTGCAACGTCTAACTTGGCAGCTTCTAATACAAATGCCGCCGCTGCACAAAGATTAAATGCAATTACTGCACAGGGTGCACAGCAAAGAGCACAAGCTGCTCAGGCTGCTGTATTGGCGACAAAGCAAACAACTAGTGCAACCAGAGCACAGACAAGAGCTATCTCGGGTCAGACTTTGGCGGTAAGCAGTAATAACGCTGCCACACGTAGTAGTTTCACTTTGCGTCAACAAGCTATGCGTACCGATGCTAATACAGGCATGAATACTTCTCCTCCAAAGAACACTTTGTTAAGTTCTAATGGTGGACGATGGGAACAGAACACACGTTCTGGCGATATCGCACGTCTAAACAGCGATGGTTCTCGTAGCCCGGTAAGTGCTGCAAGTCAGGCTAGAATTCGTCAGGAATTCGCTAATCAGAGACTAGCTCAGCTAAACTCAGTAACTCAAGCTGCTGGGTTGAATGCGCGTGCCGCAAATGCACAATCAAGTGCAGTTGGTTCTAGCGCTCTAAATGCTAATACTAGCGCTACTGCTAGTCGTGTCGCTGCTGCAACTAGCACTTCTGCTGCTGCACTTGCGCCGGTAAACCCACTGATCCGTCAGGCTACAATCTCTCAGCGTGCCTTTACTGCTGCTTCTAACCAAACAGCACAGTCACTAGCAAGAGGCGTAGCGGGTAGTTACAGCTCCATTGTTGCTCGTCAGCAAAATGTAGTTGGATTGCAGAATAGAATTAATGCTGCTGTGTCTAAGGGTAATGCTGCAACTCGTTTGCAGGCTCTAACTGCTGCTCAGTCAGCACAGATGCAGAACAATACTTTGCTAGCGCAGAACGCTGGACGTAATGCAATGAATTCAATGTTTGTTTCTCAGGGTCGTCAATTGACTCCACAGCAACAGCGTAAGAATGCAATGCAGGCTAGAATGCAAAACTTAATGGCAACTCAGGGCAATCGCGCTGGTGCACCATCAAGTTTGATTGGTACTCAGGCTCCCGCTAATACTGCTGCAATGGCTCGTAACATGACTGTTACAGCCGATAGAGCAGGCGATGTTGGTCAAAAGCTAGGTGGCGCTCTAGTAGTAACAGGTCTGCTAGGTTCTATGTTCGCTAAGAATAACCAGGCTTTGCAGAATACTCTAGCAACTGTAAGTACAATTGGTATGAGTTTGATGTTGCTTGCGGCTGCTGCACCTGGCTTGTTAGCTAAAATCGGAACTGCGTTTACTACTCAGTTCGGCAAGATGACTAAATCTGTCGGCGGTGGAACAGGAAAGATGACTGGCATGTTTAAGAGCATGGGCGCTGGCTTGATAAAGGCTTTGCCTTGGGCTGCCGTTGCCGCTGCTGGTGTAGCTGCTGCTTATGTTATCTATCGTGCCTTTACAGCTAATTCACGTAAGCTTACAGAAGAAAACGATAAAATCACTAAGTCAATCGAAGGTTGGCAGAAGCTTCTAGACTTGGCTCCTACTGCTTTCGGTCAGATTGAAGGTAAGAATGGTGATGTTATTGATACTGCTACAAGCCTTATTGATGCCGCTAAGAAGGATGATAAGCTAGGTGCAGTTATTGACAAGCTTGCTCGTAATAGTGCAGACACACAGGAACTAAAGAATATCCTAGAACGCGAAGCCGTAAAGATGGGCGCTCGTGGTGCTGACAGCGCGACAATTGAAAAGGGTCTTAACACAGTTATGGCCGCTGCGAACTTGCCGCCACAGGTTATTGATGAACTAAAGATTCAGTTTAAGAATGTTACTGTGACTGGTATCAACGGTGCCAGCTTGTCAGATGGTGTTAAGTCTCAGCTAGACGATGTTCTAGGTAGTCGTGATGGAAACACAGCATCAGGCGTTCAGCAGACATTTAATGGCGCAAGTCCTACCGATTTGTCTCAGCTTGCGAAGGCTCGTATTAATGACTTGATGGAACAGCTAGATAATGAAGCTGCAACTCAAGACCCTAAGGTTCGAGCAGACGTATTTAATGCCTGGACAAAGGGACTTGAAGCTCAACTAGATAAGAGTCTAGCAGGTCTAAGTGAAGATGCTCGAAAGAAGATTGATTCACTTGGTGGAGTTGTTAAGCTAGATTGGGGAGACCTAGTTGATATGGAGGGCGACGGTTTAATTACTGACGCTCAGCGCGATGACTTGATGTATCAGAAGAAGGTTCTCGAGGATATGATTAGTCGTATCACTGCGGCCGGAAATGCTGATGATAAGGGTACAGCCGCCATGCTTACTGATATTAGCAGTGCAATGATTGTTCGTGCACAGCAAACAGGTACAGTAATTATGTCCATGATGAGTGCTCAAGATAAGTTCCAGATGAAGGTATTCAGCATGGGCGATGCTTGGAAGAACCTTAGTGACGATGAAAAGGGAACTATCATCAATCACTACCGTATGGCTGCGGGTCTAAAGGCTCTGACAGATCAGCAACGTGATGCCGCCATTGCTGCGGGCAACCTTGGTCCAGAGATTTATGACGTTGGTAAGGAAGCTGATATTGCTGCTGCGAAGGTAGCAGAAATGGACGCTGAATTCGGCGAAGGTAGAACTGCTGACTGGAAGATTACTCTAACAGTTGACGGTATGGACTTTGGTAGCGTTGAAGATCAAGTGCAGGATATGAAGGATGCGCGTAAGAAGATCGGTGATCAAATTGCAGAAGATATGCAGGTTGACGCAGAAAACCAACACGCTGCTTCGGAACGTTCTCGCAAGGCTGCACAGCAAGAGGAGACAGACGCACTAAGCGAAGCTCAGAAGTCTGAATCAAAGGCTTTGTCAAAGGCTCAGGATGCTGAAAAGAAGGCATTCGATAAGGGCTGGGATCAGCGTATTGAAAATGAGAACAAGGGTTACGAAGATCGCATTAAGGCGATTGAAGATACTCAGGAAGCGGAAGATGATCTAGAGCGCACACGTAAGCGTAATAGTGATCGCGAATCTCGTCGCCTTAAGTACCTACAGAGCTTGATGCAGGGACAGATCGATTATGCTGCGGCTATGGCTGGCGGTAATCTTGACGAAGCTGCACGTATTAGTCTAAATGCTTCTGAAACTACTCAGAACTACGCACAGGAAACAACTGATGCGGAAGCTGGTTATAAGAAGGAAGACGACGACCGCGCTAGAAGCAAGGTTATCGATCAGATTAAGGAAGAACAAGACGCTCGCATGAAGTCTCTCGAACTACAGAGAGAGGCCGAAAGCGAGGCAATGCAAGAACGTCTTGAAATGCAGACAGAGGAATTGCAGAAGAAGCAAGAAGCTCAGTCTAAGTATCTTTCTCAGAAGCAGGCTAATGAAGATGTTGCCAACGAATTAGCTTATCAGTCAACTCAGCGTAAGCTACAGCGTGAACTTGACGCATTGCGTCAGATCATCCCTGTGACTAATGCCGAGCAAATGGCTCAGGTTAATGCGATGGAAGCTGTATACCAGAAGTACGGTATTAACTTAACTGTAAGTGCCGAGGGTTGGGCTACAACAATTGAAAAGGGTCTAGTTGATCACGTAGATATTGCTCGTCAGAAGACAGCTAACGAAGCTGCTTGGAACGACTTTGGTAACAAGATTGCCAATGCCGCTGCCAACGGTGGATTTGATATGTCCATTGACGACTTTATGAAGTTCATCAGCACAGGTGAGCTACCAGCTAACTACAAGGCTGCGCAGAGTGCTAAGGACAATAACATGTTCGGCGCACGACACGGCGGTGGTCCTATTGGAAACATCGGCGGTGGCTACGATAAGTTTAATAGTCGTGGTGGTCGTTCAATGAGTTCTGGTATTGCACGAGACGAAGCACCAATTCTCGCTCAAAAGGGTGAGTTTATGATGCAGAAGAAGGCCGTAAACACTTACGGTTCTGACGTTATGCACGCTATCAACAATGGTACTTTCAACCCAGGTAATACAGGTGGCGCAGAAGTAACTAACATGAACGCTATCGGTGGTTTCGGTATCGGAAACATTGGTGCCTTTATTGCTGCTGGTATGATGCGTGCAGTTATCAGTCGTGCAGTTGAAGCTACTGGTAATGCTATGATGAATGCAGTTAGCGGCGGTGGAGACATTGGTGCTATCAACATTAGTCAGAAGGCAGGACGCTACGGTAATACTGTACTGAACGAAACTCAGCTAAAGACTGCTGCTCTAATTGCAGAAGCTTCGAGAGAAGTAGGCGCAAGTAAGCGTGATCTAACAATCGCACTTATGACAGCTTTCCAGGAATCAAGTATGGGTACCGCTGGTATGTATACAGAAGTTGACCATGACTCTCTTGGTCCATTCCAGCAGAGAGCTGCTTGGGGTCCACGTGCAGATAGAACAGATATTAAGAAGTCTACAAAGATGTTCTATCATGGTGGTCAGCAAGGTCAGCGAGGTTTGTTCGACTTCCCTAACCGTAACTCAATGAGTCTAGGTCAGGCTGCTCAGGCAGTTCAGGTATCTGGTAACCCAGGTGCTTACGATCAGTGGAGAGACGAAGCCGAAGCTATTATCGCAGCGGGTGTTGGTACTGATATCAGTCGCAAGGACTTGGGCAATAACCTTAAGTTCGGTGGTTGGACAACAAAGGGTATCGATGCTTATGCAGCAAAGTGGGCAAGTAGCGCTGTAGGTTCTGGTGGACCTATGAACGTTCAGCCTGGCGAATACCAGAACCCTGTTCCTGGTTCTCCTGTAACTTCTGGTTATGGTATGCGTTGGGGAGCACTGCACGATGGTATCGACTTCGGTGCACCGATTGGTACTCCGATTTACGCTACTAAGGCAGGTACAGTTACATTTGCTTCTAACTATGACGATGGTGGCTTTGGTTATCACACAGTTGTTGACCACGGTGGCGGTATTACTTCTGGTTATGCCCACCAGTCTCGTCTAGGTGTTTCTGCTGGACAGCAAGTTGCTAAGGGTCAGAACATTGGTTGGGTTGGTAATACAGGTCAGTCAACTGGTCCCCACCTTCACTTCCAGCTAGGTAGGGGTTCAAGTGGTGGTAAGTATTCTTACTCAACCGACCCTGCACAGTTTGGTATTCCAGGTTTGCGCGTGGGTGGCATTGTAGGTTATGATAATACTATTGCCAACTTGCACAAGGATGAGGCTGTATTGACAGCGCCTTTGAGCAAGAGTCTACAAAATGGTATTAATAACCTAGAAGCCGGTAACACAGGAGAGATTAGTCTAAATCTTACTGTAGAAGGTTCTGTGTATGGTGTAGATCACCTGAACGCAATTCTAGAGGGATTCAAGAAGGAGATTAAGCAGGAATTGATTGAAGAGCAGAGAATGAAGCAACGTAGGGTTACTGGTAAGTAA

Gene Ontology

Description Category Evidence (source)
GO:0004222 metalloendopeptidase activity molecular function None (UniProt)
GO:0016020 membrane cellular component None (UniProt)
GO:0031640 killing of cells of another organism biological process None (UniProt)
GO:0042742 defense response to bacterium biological process None (UniProt)

Enzymatic activity

No enzymatic activity data available.

Tertiary structure

PDB ID
upi000c0c3331_model
Method AlphaFold3 (non-commercial)
Resolution -
Chain position -
Model Confidence
Very high
pLDDT > 90
High
90 > pLDDT > 70
Low
70 > pLDDT > 50
Very low
pLDDT < 50
The structures below correspond to the cluster representative (1gLXn) rather than this protein.
PDB ID
1gLXn
Method AlphaFoldv2
Resolution 53.09
Chain position -
Model Confidence
Very high
pLDDT > 90
High
90 > pLDDT > 70
Low
70 > pLDDT > 50
Very low
pLDDT < 50