Protein

Protein accession
A0A0N9S894 [UniProt]
Representative
7mGay
Source
UniProt (cluster: phalp2_38204)
Protein name
Glycyl-glycine endopeptidase ALE-1
Lysin probability
100%
PhaLP type
VAL
Probability: 99% (predicted by ML model)
Protein sequence
MASDFNIGILSTLEIDSSSSRKKINDTLKNIEANINSIKADLEVSDTKKSENNAIKSANNVIRNINSNGNLKKLNVELDVNLTKSRQNIQRALSTLSKDFKNKKIDIEVNAKANKNSIGQVKNSISKGASQPLEIKESPSSRSTSRDIKEQQSLMTGLANSYKNLDDLTRALNTSTFEGLRKTVKEIKNADNSLKSYQVTLERVNQEGKKLGSQRFDYTPSANGLKLNKTQLTDQTDKARKEENAAINKLLENEVSKYDRLLNKGKIDIKQHQTLLQTLRQITNEKSKANQFNRTDFNRVAKAAADEAKEYQYQNDMLRKKLALTSQIERIENRMAATIDKQQTNALKNQLNSLGNNRTPFGKEAAFHMNQIQDKVRQISAEAERATRTQLSFVDQFREAMTKFPVWMGATTLFFGAINGAKEMLDVITEIDGKMITLAKVTGDDNALQQTFIDANNAASQFGQTLGSVLDVYAEFARQGVKGNELSQFSNAALIAANVGEIDAKQASEYLTSMSAQWETTGNQAMRQVDSLNEVSNKYATTVEKLAQGQAKAGSTAKSMGLTFDETNGIIGALTAKTKQSGDEIGNFMKATLPKLYSGKGKSTIEGLGISMKDENGQLKSAISLLEEVSQKTKNLEKDQKAAVINGLGGTYHYQRMQVLLDDLSKTDGLYKQIKESSESSAGSALQENAKYMESIEAKVNQAKTAFEQFALAVGETFAKSGMLDGIRMVTQLLTGLTHGITELGTTAPIFGMVGGAASLMSKNVRSGFEGARSSVANYITEVNKLAKVNNAAGQVVGLQKVQTGTASQLQFNKNGEYDKAASQAKAAEQATYQFSKAQKDVSASAMIASGAINKTTVATTASTVATRAATLAVNGLKLAFRGLLAATGVGLAITGVSFVLEKVVGSFNAASQAAEQYKQKQEQTKQAIASMSNGEINSLISSYDKLQQKMNSGSAFNTAEAEKYKEVTSQLANIFPDLVTGENRYGKEMAGNKEVMKQKIELIKQEMELERQKNAIKQKEEQDAYIKEQDSLAKKNRGQKWYQLGQTPELKLQEQARPTTVSDNSNINKINATIQKVKSQAQAEKALEQVDKQLAQSQTKNRQNEVQHLQKVRQALQDYITKTGQANQATRAAVLTAQQQFTNQIATMKKLGTTGQQVMTTISNSVAKTAKSGKAAQATFKSFETSLVKSSSFKSKMASYEASVKKFKNAANQSAKIAALKDVERDYSKVAKGIMQAAKAANMSKSQMKDLKKSLQQNIQAETGFRASVSKAGKVTIDQSKKIKQNTAETRRNSSAKLQNADASDQASEENKELADSMRAGIESSQLLGKAMGELQSQGTLSTETLIELTEKYGDEILAVAGDQEALSNFIMQKQNEETDNYNKNLKTKLENSSSYYKAVAGADSALSNYLMENYGIDTKNYKSLTEVKAKITDLYYNGSAEEQAKVVDAIAKAYHIDLSNYGSLNEKKEALENQLMKILGSKWKKYIGSVAKDMKSLGVDAGEVGADGFDDSKMFNPGALIGANNFQNVSNLSNISNVFNSLNGAFNEAKNEAAGVSRGLDDAASGLKDVGDSAGSAGSGLGKTAKGADKASDSLDGTNKELEKTKEKAEEAGVTVKQLYKQFTVTTYVADKLSMALDKINNKLEKQKLLTEKYATWSSSYRNSLKAENKLLDEKTAKIKKQIESMKEQIAQGKVIEYGLVGKDINVPYYEYTANNLDDGETGRISRYTGNSTQAKVWNFFKSKGLSDHAVAGIMGNMERESRFKPGAQEQGGTGIGLVQLSFGRANNLRNYAARRGKSWKDLNTQLDFIWKELNTTEVNALRGLKSATSVIGAANSFQRLYERAGVVAQGERNAAAKKYYRQFKGTNGSSGFLSGGVVAGTNGKPLTSDRNAYILDRQFGRYNGGGVHHGRDITSATINGSPIKAARSGIVTFKGWTGGGNTLSIFDGKNTYTYMHMKNPARVVKGQRVKAGQIVGNVGTTHDRRLGGFSTGPHLHVQVNLGKTPSGTFMNTFNGAHRAVDPVKYGYTRVSGGGSLNLGSLTSGHSAMSGSISAAMAEDLNEAEQERLNKIEQAINAHNKAEEMKQKVDELRKTLMDKQLEEVQTAKEKSENLYNIQKSHVEEYDHWRTLQEARSAKLEYELNKIEFEKGRNTKEWRNKNKQLQASRQLEVNFEDSKIQYINKALKKNANKIFGKNTVNRDEFETMKRDAQQNIRDLKAGIQTASGEIATSMIDQILDEYEDRVGKVSAKIEKMGKQKEKLDLADNKQALKSSSLSRQQAKDSKSLASYINFYIKQLERQLKLTGKNHELQQKVKEQIKEMKVAYDDATLAAHQYITEAAEVDTERQLQLNANRLRDAQNELSKADYKAGFISQEYQIDLYRKNQEAKFKGYLKEKEALEQNKSELQDMYEIYKSVPTQAQKIKEALIETKNAIRDNNKGLYDLKYDMANSVINQIKDIYSKQLEVATKAYDDEYKAYEKMINKKLKLIDDEQTQESFNKDVRDRTEAMDKIRDEIAQRSGDDSLANQKKLKDLREQLKQQEEDYTMFINNKNRDDRRKALQDELNDKNEQIQEQKEDLNKAFQDLIGDTRRFNAIQESLMEGQIDKYKSLIADLTKYVNDNMKEIGRSTSEGILDGLAASFKGLSSLSKELQKQEKNNLNPVPNSKLKPTKVDEATIAAIKKVNGLSPTTILQGLDIKPVNLPKDVKPSKTVTNNNKTTAKALVNIENFNGTKAEADKLANNLATAMRKQGVL
Physico‐chemical
properties
protein length:2757 AA
molecular weight:304293,8 Da
isoelectric point:9,33
hydropathy:-0,71
Representative Protein Details
Accession
7mGay
Protein name
7mGay
Sequence length
1693 AA
Molecular weight
184501,56560 Da
Isoelectric point
9,33298
Sequence
VASDFNIGILSTLEIDSSSSRKKINDTLKNIEANINSIKADLEVSDTKKSENNAIKSANNVIRNINSNGNLKKLNVELDVNLTKSRQNIQRALSTLSKDFKNKKIDVEVNAKANKNSIGQVKNSISKGASQPLEIKESPSSRSTSRDIKEQQSLMTGLANSYKNLDDLTRALNTSTFEGLRKTVKEIKNADNSLKSYQVTLERVNQEGKKLGSQRFDYTPSANGLKLNKTQLTDQTDKARKEENAAINKLLENEVSKYDRLLNKGKIDIKQHQTLLQTLRQITNEKSKANQFNRTDFNRVAKAAADEAKEYQYQNDMLRKKLALTSQIERIENRMAATIDKQQTNALKNQLNSLGNNRTPFGKEAAFHMNQIQDKVRQISAEAERATRTQLSFVDQFREAMTKFPVWMGATTLFFGAINGAKEMLDVITEIDGKMITLAKVTGDDNALQQTFIDANNAASQFGQTLGSVLDVYAEFARQGVKGNELSQFSNAALIAANVGEIDAKQASEYLTSMSAQWETTGNQAMRQVDSLNEVSNKYATTVEKLAQGQAKAGSTAKSMGLTFDETNGIIGALTAKTKQSGDEIGNFMKATLPKLYSGKGKSTIEGLGISMKDENGQLKSAISLLEEVSQKTKNLEKDQKAAVINGLGGTYHYQRMQVLLDDLSKTDGLYKQIKESSESSAGSALQENAKYMESIEAKVNQAKTAFEQFALAVGETFAKSGMLDGIRMVTQLLTGLTHGITELGTTAPIFGMVGGAASLMSKNVRSGFEGARSSVANYITEVNKLAKVNNAAGQVVGLQKVQTGTASQLQFNKNGEYDKAASQAKAAEQATYQFSKAQKDVSASAMIASGAINKTTVATTASTVATRAATLAVNGLKLAFRGLLAATGVGLAITGVSFVLEKVVGSFNAASQAAEQYKQKQEQTKQAIASMSNGEINSLISSYDKLQQKMNSGSAFNTAEAEKYKEVTSQLANIFPDLVTGENRYGKEMAGNKEVMKQKIELIKQEMELERQKNAIKQKEEQDAYIKEQDSLAKKNRGQKWYQLGQTPELKLQEQARPTTVSDNSNINKINATIQKVKSQAQAEKALEQVDKQLAQSQTKNRQNEVQHLQKVRQALQDYITKTGQANQATRAAVLTAQQQFTNQIATMKKLGTTGQQVMNTISNSVAKTAKSGKAAQATFKSFETSLVKSSSFKSKMASYEASVKKFKNAANQSAKIAALKDVERDYSKVAKGIMQAAKAANMSKSQMKDLKKSLQQNIQAETGFRASVSKAGKVTIDQSKKIKQNTAETRRNSSAKLQNADASDQASEENKELADSMRAGIESSQLLGKAMGELQSQGTLSTETLIELTEKYGDEILAVAGDQEALSNFIMQKQNEETDNYNKNLKTKLENSSSYYKAVAGADSALSNYLMENYGIDTKNYKSLTEVKAKITDLYYNGSAEEQAKVVDAIAKAYHIDLSNYGSLNEKKEALENQLMKILGSKWKKYIGSVAKDMKSLGVDAGEVGADGFDDSKMFNPGALIGANNFQNVSNLSNISNVFNSLNGAFNEAKNEAAGVSRGLVDAASGLKDVGDSAGSAGSGLGKTAKGADKASDSLDGTNKELEKTKEKAEEAGVTVKQLYKQFTVTTYVADKLSMALDKINNKLEKQKLLTEKYATWSSSYRNSLKAENKLLDEKTAKIKKQIESMKEQIA
Other Proteins in cluster: phalp2_38204
Total (incl. this protein): 3 Avg length: 2204,7 Avg pI: 9,36
Protein ID Length (AA) pI
7mGay 1693 9,33298
A0A873WCU9 2164 9,43142
Similar Clusters

No similar clusters were found for representative 7mGay.

Domains

Domains [InterPro]

No domain annotations available.

Taxonomy

  Name Taxonomy ID Lineage
Phage Staphylococcus phage SPbeta-like
[NCBI] 		1732063 No lineage information
Host No host information

Coding sequence (CDS)

Coding sequence (CDS)
CDS Source ID
[NCBI]
CDS Source
KT429160 [NCBI]
CDS location
range 45695 -> 53968
strand +
CDS
GTGGCAAGTGATTTTAATATAGGTATATTATCTACCTTAGAGATAGACTCTAGCTCCTCAAGAAAGAAGATTAACGACACACTTAAAAATATTGAAGCAAATATTAATAGCATTAAAGCAGACTTAGAAGTTTCAGATACAAAGAAATCAGAAAATAATGCTATAAAAAGTGCAAACAACGTAATCAGAAACATCAATTCAAACGGTAATTTAAAGAAATTAAATGTTGAACTAGATGTAAACTTAACAAAAAGTAGACAAAACATTCAAAGAGCATTATCTACTCTATCAAAAGATTTTAAGAATAAGAAAATTGATATTGAAGTTAATGCTAAAGCTAATAAAAATTCAATCGGACAAGTTAAGAATTCTATTTCTAAAGGTGCAAGTCAGCCACTAGAAATTAAAGAGTCCCCTAGTAGTAGAAGCACTAGTAGAGATATTAAAGAACAGCAGTCTTTAATGACAGGTTTAGCAAATTCTTATAAGAACTTAGATGATTTAACAAGAGCTTTAAATACAAGTACATTTGAAGGGCTTAGAAAAACTGTAAAAGAAATTAAGAACGCAGATAATTCTCTTAAAAGTTATCAAGTTACTTTAGAACGTGTTAACCAAGAAGGTAAAAAATTAGGCTCTCAAAGATTTGATTATACCCCTTCTGCAAATGGTTTGAAGTTAAACAAAACTCAATTAACTGATCAAACAGATAAAGCTCGTAAAGAAGAAAATGCTGCTATTAATAAATTATTAGAAAATGAAGTTTCTAAGTATGATCGTTTATTGAATAAAGGTAAAATTGATATTAAACAACATCAAACTTTACTTCAAACTCTTAGACAAATTACTAATGAGAAATCAAAAGCTAACCAATTTAATAGAACTGATTTCAATAGAGTAGCAAAAGCTGCTGCTGATGAAGCAAAAGAATATCAATATCAAAATGATATGCTTCGAAAGAAATTAGCTTTAACTTCTCAAATTGAGCGTATTGAAAACAGAATGGCTGCTACAATTGATAAGCAACAAACAAATGCTTTGAAAAATCAATTGAATTCTTTAGGTAATAATAGAACACCATTCGGTAAAGAAGCAGCTTTCCATATGAACCAAATTCAAGACAAGGTTCGTCAAATCTCTGCTGAAGCTGAAAGAGCAACTAGAACTCAGTTAAGTTTTGTTGATCAATTCAGAGAAGCAATGACAAAATTCCCAGTTTGGATGGGTGCTACTACCCTATTCTTCGGTGCCATAAATGGTGCTAAAGAAATGCTTGATGTAATTACTGAAATTGATGGAAAAATGATTACTCTTGCAAAAGTTACTGGTGATGACAATGCACTTCAACAAACATTTATTGACGCAAATAATGCTGCTTCTCAATTCGGACAGACATTAGGAAGCGTATTAGATGTATATGCAGAATTCGCTAGACAAGGTGTTAAAGGTAATGAGTTATCTCAATTCTCAAATGCAGCATTAATTGCTGCTAACGTTGGTGAGATTGACGCTAAACAAGCTTCTGAATATTTAACTTCTATGTCTGCTCAGTGGGAAACGACTGGAAACCAAGCTATGAGACAAGTTGACTCACTCAACGAAGTTTCCAATAAATATGCTACAACTGTTGAAAAGTTAGCACAAGGTCAAGCAAAAGCTGGCTCTACTGCTAAATCAATGGGACTTACTTTTGATGAAACTAATGGTATTATTGGTGCATTAACAGCTAAGACTAAGCAATCTGGGGACGAAATTGGTAACTTTATGAAAGCCACTTTACCTAAACTTTATAGTGGTAAAGGTAAATCAACTATTGAAGGCTTAGGCATTAGTATGAAAGATGAAAATGGACAATTAAAATCTGCCATTTCTCTTTTAGAAGAAGTTTCTCAGAAAACTAAAAACTTAGAAAAAGACCAAAAAGCCGCTGTTATAAATGGCTTGGGTGGAACATACCACTACCAACGTATGCAAGTATTATTAGATGATTTATCTAAAACAGATGGCTTATATAAACAAATTAAAGAAAGTTCCGAAAGTTCAGCTGGCTCTGCATTACAAGAGAATGCAAAATACATGGAGTCAATTGAAGCTAAAGTTAACCAAGCAAAAACAGCATTCGAACAATTCGCATTAGCTGTTGGTGAAACATTTGCTAAATCAGGAATGCTTGATGGTATCAGAATGGTTACTCAACTTTTAACTGGTTTAACTCATGGAATTACTGAATTAGGCACAACTGCTCCGATTTTCGGCATGGTTGGTGGTGCTGCCTCATTAATGAGTAAGAATGTTAGAAGTGGTTTTGAAGGTGCTAGAAGTAGTGTTGCTAATTATATTACTGAGGTAAATAAATTAGCTAAAGTTAACAATGCTGCTGGTCAAGTTGTTGGACTTCAAAAAGTTCAAACTGGTACAGCTTCACAACTTCAGTTTAATAAAAATGGTGAATATGATAAAGCTGCTTCACAAGCAAAGGCTGCTGAACAAGCAACTTACCAATTCTCTAAAGCTCAAAAAGATGTATCAGCTAGTGCTATGATCGCTTCAGGTGCAATCAACAAAACAACTGTGGCTACCACAGCAAGCACTGTTGCCACTCGTGCTGCTACACTTGCAGTTAATGGTTTAAAATTAGCCTTTAGAGGCTTGTTGGCTGCTACTGGTGTCGGGTTAGCAATAACTGGTGTTTCTTTTGTACTGGAAAAAGTTGTAGGTAGTTTTAATGCTGCAAGTCAAGCTGCTGAACAATATAAACAAAAACAAGAGCAAACGAAGCAAGCAATAGCTTCTATGAGTAATGGTGAAATTAATTCACTTATTAGTAGTTACGATAAACTACAACAAAAAATGAATTCTGGTAGTGCATTTAATACAGCGGAAGCTGAGAAATATAAAGAAGTAACAAGTCAATTAGCTAATATATTCCCCGATTTAGTTACTGGTGAAAACCGTTATGGTAAGGAAATGGCCGGTAATAAAGAAGTAATGAAACAGAAAATTGAGTTAATCAAGCAAGAAATGGAGCTTGAAAGACAAAAGAATGCTATCAAACAAAAAGAAGAGCAAGACGCTTACATCAAAGAACAAGATAGCTTAGCTAAGAAAAACAGAGGTCAAAAATGGTATCAACTTGGTCAAACACCAGAGTTGAAACTTCAGGAACAAGCACGTCCTACTACTGTTTCTGATAATAGTAACATTAACAAAATTAATGCCACTATCCAAAAAGTGAAGAGTCAAGCCCAAGCTGAAAAAGCATTAGAACAAGTTGATAAGCAACTTGCTCAATCTCAAACTAAGAATAGACAAAATGAAGTTCAGCACTTACAAAAAGTTAGACAAGCTTTACAAGATTATATTACTAAAACTGGTCAAGCAAATCAGGCAACAAGAGCTGCGGTATTAACTGCACAGCAACAATTCACTAACCAGATAGCAACAATGAAAAAGCTTGGTACTACTGGTCAACAAGTGATGACTACTATTTCTAACTCAGTTGCGAAAACAGCAAAGTCTGGTAAAGCTGCTCAAGCAACCTTCAAGTCGTTTGAAACCTCATTAGTTAAAAGCTCTTCATTCAAAAGCAAGATGGCTAGTTATGAAGCTTCTGTTAAGAAATTTAAAAATGCTGCTAACCAATCTGCTAAAATTGCTGCTCTTAAAGACGTAGAACGTGATTACTCTAAAGTTGCTAAAGGTATTATGCAAGCGGCAAAAGCGGCAAACATGAGTAAATCTCAAATGAAAGATTTGAAAAAATCTCTTCAACAAAATATACAAGCAGAAACAGGCTTTAGAGCTTCAGTAAGTAAAGCTGGTAAAGTTACTATTGATCAATCTAAGAAAATCAAACAGAATACTGCTGAAACAAGACGTAACTCAAGTGCTAAATTACAAAATGCTGACGCTTCAGACCAAGCTTCTGAAGAAAATAAAGAGTTAGCAGACTCAATGCGTGCTGGTATTGAAAGTTCTCAATTACTTGGAAAAGCGATGGGAGAATTACAATCTCAAGGAACACTTAGTACAGAAACTTTAATTGAATTAACTGAGAAGTATGGAGACGAAATTTTAGCTGTTGCTGGAGATCAGGAAGCTTTAAGTAACTTCATCATGCAAAAGCAAAATGAAGAAACTGATAACTACAACAAAAACCTTAAAACTAAATTAGAAAACTCTTCATCATACTATAAGGCGGTAGCTGGAGCTGACTCTGCCCTATCCAACTACTTAATGGAAAACTATGGTATTGATACTAAAAACTATAAGAGTTTAACAGAAGTCAAAGCTAAAATTACAGACCTTTACTACAATGGTTCAGCTGAAGAACAAGCTAAAGTAGTAGACGCTATCGCAAAAGCTTACCATATTGACTTATCTAACTATGGCTCTCTGAATGAGAAAAAAGAAGCATTAGAGAACCAATTGATGAAAATCTTAGGTAGTAAGTGGAAAAAATATATTGGTAGCGTAGCTAAGGATATGAAATCTCTTGGTGTTGACGCTGGTGAAGTTGGAGCAGATGGTTTTGATGACAGTAAAATGTTCAATCCGGGTGCTCTTATCGGTGCTAACAATTTCCAAAACGTTTCTAACCTAAGTAATATCAGTAATGTATTCAACTCACTTAATGGTGCATTTAATGAAGCTAAGAATGAAGCTGCTGGTGTTAGTAGAGGCTTAGATGACGCTGCTAGTGGCTTAAAAGATGTTGGTGACAGTGCTGGCTCAGCTGGTAGTGGTTTAGGTAAAACTGCTAAAGGCGCGGATAAAGCGTCTGACAGTTTAGATGGTACTAATAAAGAATTAGAAAAAACTAAAGAAAAAGCTGAAGAAGCTGGTGTCACAGTTAAACAACTTTATAAGCAATTTACAGTTACTACTTATGTTGCTGATAAACTAAGTATGGCTTTAGATAAAATTAATAATAAGTTAGAGAAACAAAAACTTTTAACTGAAAAATACGCAACTTGGTCAAGCAGTTATCGTAACTCACTTAAAGCAGAAAATAAATTGCTCGATGAAAAGACCGCTAAGATTAAAAAACAAATCGAGTCAATGAAAGAACAAATCGCTCAAGGTAAAGTTATTGAGTATGGTTTAGTTGGTAAAGATATTAATGTTCCTTACTATGAATATACTGCAAATAATTTAGATGATGGAGAAACTGGTCGTATTTCTCGATATACCGGTAATTCAACTCAAGCTAAGGTTTGGAATTTCTTTAAATCTAAAGGGTTATCTGATCATGCTGTTGCGGGTATCATGGGTAATATGGAACGTGAGTCTAGATTTAAACCGGGAGCTCAAGAACAAGGCGGTACTGGTATTGGTTTAGTACAACTTTCATTTGGGCGTGCAAATAATTTAAGAAATTATGCTGCTAGAAGAGGAAAAAGCTGGAAAGACTTAAATACTCAACTTGACTTCATTTGGAAAGAATTAAATACTACTGAAGTTAATGCTTTACGAGGACTTAAATCAGCTACTTCAGTTATTGGTGCAGCAAACTCTTTCCAAAGATTATATGAACGTGCTGGTGTTGTAGCACAAGGAGAACGTAATGCGGCAGCTAAAAAGTATTACAGACAATTTAAAGGTACTAATGGTTCATCTGGCTTCCTAAGTGGTGGCGTGGTCGCTGGAACAAATGGTAAACCACTTACTTCAGATAGAAACGCTTATATCTTAGATAGACAATTCGGACGATATAATGGTGGTGGTGTCCATCACGGAAGAGATATCACGAGTGCTACTATTAACGGATCACCTATTAAAGCTGCACGTTCAGGTATAGTTACTTTTAAAGGATGGACTGGTGGTGGTAATACACTATCTATATTTGATGGTAAAAATACTTATACATACATGCATATGAAGAACCCGGCAAGAGTGGTAAAAGGACAACGAGTTAAAGCTGGACAAATTGTTGGTAACGTTGGTACTACGCATGATAGAAGATTAGGTGGCTTCTCTACTGGCCCTCACCTTCACGTACAAGTAAACTTAGGAAAAACTCCTTCTGGTACATTTATGAACACTTTCAATGGTGCTCATAGAGCAGTCGATCCTGTTAAATATGGATATACTAGAGTTTCTGGTGGCGGTAGTCTAAACTTAGGCTCGCTAACTTCTGGACATTCAGCGATGTCTGGTTCTATCAGTGCTGCAATGGCTGAAGACTTAAATGAAGCTGAACAAGAGCGTTTAAACAAAATTGAACAAGCAATTAACGCACATAATAAAGCTGAAGAAATGAAGCAAAAAGTTGATGAGCTTAGAAAAACGTTAATGGATAAACAGCTTGAAGAAGTTCAAACTGCTAAAGAAAAAAGTGAAAATCTTTATAACATCCAAAAATCTCACGTAGAAGAATATGATCATTGGAGAACATTACAAGAAGCACGATCTGCTAAATTAGAATACGAATTAAACAAAATCGAATTCGAAAAAGGTAGAAATACTAAAGAATGGCGTAATAAAAATAAACAACTTCAAGCTTCTAGACAACTTGAAGTTAATTTCGAAGACTCAAAAATACAATATATTAATAAAGCATTGAAGAAGAATGCAAATAAAATATTTGGTAAAAATACAGTAAATCGTGATGAGTTTGAAACAATGAAGCGAGACGCTCAACAAAATATAAGAGATTTAAAAGCTGGTATTCAAACTGCTTCTGGTGAAATTGCTACTTCAATGATTGATCAAATTCTTGATGAATATGAAGACCGTGTAGGTAAAGTTTCAGCTAAAATTGAAAAGATGGGTAAACAAAAAGAAAAACTTGATTTAGCCGATAATAAACAGGCTTTGAAAAGTTCATCCCTAAGTAGACAACAAGCTAAAGACTCTAAGTCACTAGCTAGTTACATTAATTTCTATATCAAACAATTAGAACGCCAGTTAAAATTAACGGGTAAAAACCATGAATTACAACAAAAAGTAAAAGAACAAATTAAAGAAATGAAAGTTGCTTATGATGACGCTACCCTAGCCGCTCATCAATATATTACTGAAGCTGCTGAAGTTGATACAGAAAGACAACTTCAATTAAACGCTAATCGTTTAAGAGACGCACAAAACGAGTTGTCTAAAGCTGATTATAAAGCTGGTTTCATTTCACAAGAATATCAAATTGACCTATACCGAAAAAATCAAGAAGCTAAGTTCAAAGGTTACTTAAAAGAAAAAGAAGCACTTGAACAAAATAAATCAGAACTTCAAGACATGTATGAGATTTATAAATCTGTCCCTACTCAAGCTCAAAAAATCAAAGAAGCTCTAATTGAAACCAAAAATGCTATTAGAGATAATAATAAAGGTCTCTATGATTTGAAATATGATATGGCTAACAGTGTTATAAATCAAATTAAGGATATCTATTCAAAACAACTAGAGGTTGCCACGAAAGCGTATGATGATGAATACAAAGCATACGAAAAAATGATCAACAAAAAGCTTAAACTTATTGATGATGAACAAACTCAAGAGTCATTCAATAAAGATGTCCGTGATAGAACTGAAGCAATGGATAAAATTAGAGATGAAATTGCTCAAAGAAGTGGTGACGATAGTTTAGCTAACCAAAAGAAACTTAAAGATTTAAGAGAACAATTAAAACAACAAGAAGAAGACTATACGATGTTCATTAACAATAAAAATCGTGATGACAGAAGAAAAGCTTTACAAGATGAGCTAAACGATAAAAACGAACAAATACAAGAACAAAAAGAAGATTTAAATAAAGCTTTCCAAGACTTAATTGGTGATACACGAAGATTTAATGCGATCCAAGAGTCACTTATGGAAGGTCAAATTGATAAATATAAATCTCTAATTGCTGACTTAACTAAATACGTCAACGATAATATGAAAGAAATTGGACGTTCTACTAGTGAAGGAATATTAGATGGTCTTGCTGCTTCATTTAAAGGTTTGTCTTCTTTATCTAAAGAACTTCAGAAACAAGAAAAAAATAATTTGAACCCAGTACCTAATTCAAAATTAAAACCTACTAAGGTTGATGAAGCTACAATCGCTGCCATTAAGAAAGTTAATGGTTTATCCCCTACTACTATACTTCAAGGTTTAGATATCAAACCTGTTAACCTTCCTAAAGATGTAAAACCAAGTAAAACAGTTACTAACAATAATAAAACGACTGCTAAAGCATTAGTTAACATTGAAAACTTCAACGGTACAAAAGCTGAAGCAGATAAATTAGCTAATAACTTAGCAACTGCCATGAGAAAACAAGGCGTATTATAA

Gene Ontology

Description Category Evidence (source)
GO:0003777 microtubule motor activity molecular function None (UniProt)
GO:0007018 microtubule-based movement biological process None (UniProt)
GO:0016787 hydrolase activity molecular function None (UniProt)
GO:0031640 killing of cells of another organism biological process None (UniProt)
GO:0042742 defense response to bacterium biological process None (UniProt)
GO:0051231 spindle elongation biological process None (UniProt)
GO:0098003 viral tail assembly biological process None (UniProt)

Enzymatic activity

EC Number Entry Name Reaction Catalyzed Classification Evidence Source
3.4.24.75 None None N/A UniProt

Tertiary structure

PDB ID
upi00032edfd5_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 (7mGay) rather than this protein.
PDB ID
7mGay
Method AlphaFoldv2
Resolution 62.19
Chain position -
Model Confidence
Very high
pLDDT > 90
High
90 > pLDDT > 70
Low
70 > pLDDT > 50
Very low
pLDDT < 50