Protein

UniProt accession
A0AAX4QI14 [UniProt]
Protein name
NlpC/P60 domain-containing protein
PhaLP type
endolysin

evidence: GO annotation

probability: 90 % (predicted by ML model)

Protein sequence
MPGRSIDAKVNLQVNVVATDIKQQLDKAVSGVEAKLGRQTLSQGQLGGMRREVGALSDTIAMRQSQAIDQVESLRKSQEARAITRAILEASVGDTRRGALLSPQDFANKRGAAYRRAYSATLSGVLDPNQIAPAQRAAFQSRIAGLGGDSAENVEKLRRAYASLNKEVGEYQRALGTLRNATNVIETKTATLIEQQRQWAEISKRKSREATTAAIQDSKKLETQIANVRKAQREALKEGTYFSSQTLQTYLRQLETVNQKIKSQLDSNQELSKRQRRQLETSFARNRSVLESYDSDSRVLKTRDQRNLERTQERAALRAQRELEQSERIKNATQAATRVASVSGMSDLDLRRLSPRQLLALREELTQARGTFRPFTASTLSGSAMYGAAQTLAQTLGVGSRDELITATDAAIARIKGVERGYVNYRGWGRQILGSRFVEGVAALTGTSGGLLSLRERYLTGDGSGGGVGGGGGRGGPGAGGSRPYGRGYNTAFNRANHMITNVSQMAGMSLYGMGGVGLFTATNAAMFNEASRAETMRNTLAGMVNTYAEFVDLQGQSLSKAEAFNMALDYSQEAYVKIRQRAVESILTTNEMFDYVLSGGGALMKNAGLNFDQMLNVVDKISSIGKAMGYQTTAVQSDIRDFAMGTVTTRSQVLRTIGFTSEDIKRARDQGPDAFMRYFEQVMAGFNPALARIQQTPQGMQSRFFDAIQNMGIRAGEAAMPAYMESFEIVLQEFDKLVKDGTIEDFGRFMGEATLGLVQFIAGIGQVVRFIEGLGINVTGGTAVTAGLATAGGVGAGKLAAVMAGSGPVGWAVGGTIAAGTLVYGSMAATRDARAQMNATIPQLLAADAARNATTDARGYRATIQAELDRRAGRGSGFNPDRIRAEIKELQDLRQGFSAVGAMTSLRGDQQGAQARQLLERLGGESGMLKLLEQYDPSVASNFYLLPEDLARIAERELTDRVEQLRNNIKNRGPIGGNVAASIRGMGTNQLQELLGKVNMAIEPRFGGTGQETEEGRQKRADELLYQSAVMRAGATGAGYRLSGLADTDPRRAVILAQQMQFNQRAASLRYQSEMLGAADNPLAQQQAALEYSNTIKDLNAQFEESLRTLRETILLKRDELAITRQQLDLLRRRNDLEEQEFRLGLINPATQQGFTSYLSALGQIRATSNAIAGQEYNIAYASEQSQIDALARNADPFERVITFFQGLKDEGFPAVRLNEQDIASYAAIYDSVNQTINNAANTISQSTTVIADTLSRVANVAATGGSALPGRPRTVTGDTGHMYIAGAYVGRSNRRVIDQGQKGVADSILDGVEYYLNTPYVWGGNDIRKGVDCSGLVNNIFRQVEEGINDSLEPGQPKVSSFATRNRTAAGMYKAARREGRLVSRDNVQHGDVVWWTNATHRSNRTGYGHVGFIVEKNGELYVTEAAGGKARRVIERPLKDVEKTNTLEFGRPHGYIPVGANMALPNAQVGNVSRSASSLQRRIHNTNQAIARETEDAQLKAARRTYLTRVAALFGSRADRMRTDADFVAQQRLSLIGLTGGEATIQQRLNDLDLQMFTLDSTYQDEVGGRRMFNAERLARIADERIRARETFKNDPQGLEAALSRLQEREDRITAEQLNWELSFQQRKTGLMAEQRRIQTSVQRELEKQNKELTKQFAAMEDGRTLRIGTYGAVGLSGAVTRAGVVAGISNRQATTRLTDAQTEYEKALTNLVQLRESNAPGPALGYAFARVQIARQALEDASNAVVSTEITGMNATAQANLNLDISNRNQAERVAALSRRAGLQENLFGTLTERLFGSPRGTSLLESARTAEELRRSNQLAQVDTTLARQRMAYIGTLRLMGVAPRVIEGMLTEYDRQEPLRRAQMLNSINQGSNQRLFRLNTNSMRQADLLNQGTGELFAAFANNPLGLISGGSGRQDLLSAMYQPLIGDTMGARNRNFQVASSLLTGRFNDATLSGLGYMRMPVPGQAVYRGPDGNLISAASLRNRALTGAAADLGGMFLGNLIGQRVFNGDPTAVNFGSQLGGALGPSLFQGLGAFGGPVGMVLGGALGGLFSRRRNPQDEQMAAWRRDVIRLLSSMDKSLRPRPGYDPVNSQVLYGEASRFLGGRASDTIQRSFTVGTVT
Physico‐chemical
properties
protein length:2128 AA
molecular weight:231457,00000 Da
isoelectric point:9,74622
aromaticity:0,06062
hydropathy:-0,40451

Domains

Domains [InterPro]
IPR038765
1305–1420
IPR038765
IPR000064
1304–1453
IPR000064
IPR000064
1320–1420
IPR000064
Protein sequence: A0AAX4QI14
1 2128
Legend: Pfam SMART CDD TIGRFAM HAMAP SUPFAM PRINTS Gene3D PANTHER Other

Taxonomy

  Name Taxonomy ID Lineage
Phage Microcystis phage Mvi-JY20
[NCBI] 		3128146 No lineage information
Host No host information

Coding sequence (CDS)

Coding sequence (CDS)
Genbank protein accession
XAI95520.1 [NCBI]
Genbank nucleotide accession
PP438412 [NCBI]
CDS location
range 57101 -> 63487
strand +
CDS
ATGCCGGGACGCTCTATTGACGCTAAGGTTAATCTACAAGTCAACGTTGTTGCTACAGACATCAAGCAACAGCTTGATAAAGCGGTGTCAGGCGTTGAAGCCAAGCTAGGGAGACAAACCCTCTCTCAAGGACAACTAGGCGGTATGCGTCGTGAAGTGGGCGCACTCAGCGACACGATTGCTATGCGCCAGTCACAGGCCATAGATCAGGTCGAATCTCTGCGTAAGAGTCAGGAAGCTAGGGCTATTACACGCGCCATCCTAGAGGCATCAGTAGGAGACACAAGAAGAGGTGCGCTGCTATCACCTCAAGACTTTGCGAACAAAAGAGGTGCAGCATACAGGAGAGCCTACAGTGCAACACTCTCAGGAGTTCTCGACCCGAATCAAATAGCTCCAGCGCAAAGAGCAGCCTTTCAATCTAGGATAGCAGGCTTAGGTGGGGATAGTGCAGAAAACGTAGAAAAGTTAAGACGTGCGTACGCGAGCCTAAACAAGGAAGTCGGTGAGTACCAAAGAGCTTTGGGCACTCTGCGTAACGCGACTAATGTCATCGAGACAAAGACGGCTACCCTCATCGAGCAACAACGTCAGTGGGCTGAAATATCGAAAAGAAAGAGCCGGGAAGCGACCACTGCTGCCATACAAGACTCGAAAAAACTGGAAACGCAGATCGCCAATGTCCGTAAAGCGCAGCGAGAAGCACTGAAAGAAGGTACGTATTTTAGCAGCCAAACACTTCAAACCTACCTGCGTCAGCTTGAGACAGTCAACCAGAAGATCAAGTCACAGCTTGACTCCAATCAAGAGCTTAGTAAGCGACAACGCAGACAGTTAGAAACGTCTTTCGCTCGCAATCGCTCAGTTTTAGAAAGTTACGATAGCGATTCAAGGGTACTGAAGACTCGCGACCAACGCAACCTCGAACGTACCCAGGAACGTGCTGCGCTGCGGGCACAGCGTGAACTGGAGCAAAGTGAACGTATTAAGAACGCTACCCAGGCTGCGACAAGAGTAGCGTCCGTAAGCGGGATGTCCGACCTTGACCTGCGACGGCTATCTCCTCGTCAACTGCTTGCACTACGTGAAGAGTTGACACAAGCGCGGGGGACATTCCGACCGTTCACAGCATCGACGCTATCAGGCTCGGCCATGTATGGGGCAGCGCAAACGTTGGCTCAAACGTTAGGTGTTGGCTCCAGGGACGAACTGATTACAGCGACAGACGCCGCCATAGCTCGTATTAAAGGCGTTGAGCGAGGGTATGTCAACTATCGTGGGTGGGGACGGCAAATACTTGGGTCACGCTTTGTTGAAGGTGTCGCAGCACTCACAGGTACCAGTGGAGGTCTACTTAGCCTGCGTGAACGCTACCTGACAGGCGACGGTTCTGGAGGTGGTGTAGGCGGGGGAGGTGGTCGTGGAGGGCCTGGTGCTGGAGGATCACGTCCGTACGGTAGAGGCTACAACACGGCTTTTAACCGCGCCAACCATATGATTACCAACGTCAGTCAAATGGCGGGTATGTCGCTGTATGGCATGGGCGGAGTAGGTTTGTTCACGGCCACGAACGCAGCCATGTTCAACGAAGCATCGCGGGCGGAAACGATGCGCAATACCCTCGCGGGTATGGTCAACACTTATGCCGAATTCGTTGACTTGCAAGGGCAATCGTTGAGTAAGGCCGAAGCGTTTAACATGGCTCTTGACTATTCCCAAGAGGCTTACGTAAAAATCCGTCAAAGGGCAGTTGAAAGCATCTTAACGACCAACGAAATGTTTGATTACGTTTTGTCAGGCGGTGGTGCGCTGATGAAAAACGCTGGTTTGAACTTCGACCAGATGTTAAACGTTGTCGATAAGATTTCATCTATCGGTAAAGCGATGGGTTATCAAACCACAGCGGTGCAATCAGACATTCGCGATTTCGCTATGGGCACCGTTACTACTCGTTCGCAAGTCCTTCGTACAATCGGCTTCACGAGTGAGGACATCAAGAGGGCTCGGGATCAAGGCCCCGACGCTTTTATGCGCTATTTCGAGCAGGTTATGGCAGGTTTTAATCCGGCCCTTGCTCGTATCCAGCAAACACCTCAAGGTATGCAATCGCGTTTCTTTGACGCGATTCAAAACATGGGTATTCGCGCAGGTGAAGCCGCCATGCCCGCGTATATGGAATCCTTTGAGATCGTTCTACAAGAGTTCGATAAGCTGGTTAAGGACGGCACCATCGAAGACTTTGGACGTTTCATGGGTGAAGCCACGCTCGGTCTTGTGCAGTTTATCGCCGGGATAGGACAAGTCGTACGTTTTATTGAAGGTCTTGGTATTAACGTGACAGGTGGTACTGCGGTCACCGCAGGTCTTGCTACGGCAGGAGGTGTAGGCGCAGGCAAGCTCGCTGCGGTAATGGCCGGTTCGGGCCCGGTTGGTTGGGCTGTTGGAGGCACTATTGCAGCGGGTACTTTAGTGTACGGTTCTATGGCGGCTACCCGAGATGCTCGCGCCCAAATGAACGCGACGATACCTCAACTTCTAGCTGCTGACGCGGCTCGAAACGCTACAACGGATGCCAGAGGCTACAGAGCGACCATACAAGCAGAGCTTGACAGGCGAGCCGGTCGAGGTTCAGGTTTCAATCCTGACCGTATACGGGCTGAAATCAAAGAGCTTCAAGACCTACGCCAAGGATTTTCTGCGGTCGGAGCAATGACATCCCTACGTGGAGATCAACAGGGAGCCCAGGCTAGACAACTGCTGGAACGTTTAGGCGGCGAGTCAGGAATGCTCAAACTTTTAGAGCAGTACGATCCAAGTGTTGCATCAAACTTCTATCTACTACCTGAAGACTTAGCTCGGATCGCGGAAAGGGAACTCACTGATCGCGTAGAGCAACTGCGTAATAACATTAAGAATCGCGGCCCTATTGGAGGTAATGTGGCTGCCTCTATACGCGGTATGGGCACCAACCAGCTTCAAGAGTTGTTAGGCAAAGTTAACATGGCTATTGAGCCTAGATTTGGAGGCACAGGGCAAGAAACTGAAGAAGGCAGACAAAAACGTGCTGACGAACTGCTTTATCAATCAGCCGTTATGCGGGCGGGGGCAACAGGAGCCGGATACCGCTTATCTGGACTGGCCGACACTGATCCTCGCAGGGCAGTGATTCTTGCCCAGCAAATGCAGTTTAACCAACGTGCCGCCTCTCTTAGGTACCAATCGGAAATGCTTGGTGCGGCAGACAATCCTCTGGCCCAACAACAAGCTGCACTTGAATACTCGAACACCATCAAAGATTTGAATGCACAGTTTGAGGAAAGCCTGCGGACTCTACGTGAAACAATCCTCCTAAAGCGGGATGAGCTTGCCATCACGCGACAGCAGCTTGATCTACTTCGACGGCGCAATGACCTCGAAGAGCAAGAGTTTCGTCTGGGTCTTATCAACCCGGCTACGCAGCAAGGATTTACCTCTTACCTTTCTGCGCTAGGTCAAATCAGAGCGACAAGTAATGCAATCGCCGGGCAGGAATACAACATTGCTTACGCCAGTGAGCAATCGCAGATAGACGCACTTGCGAGAAACGCTGATCCGTTTGAACGAGTCATAACCTTCTTCCAAGGGCTCAAAGACGAAGGTTTTCCAGCGGTGCGCTTGAATGAGCAAGACATAGCTTCTTACGCAGCAATCTACGACTCGGTGAACCAAACGATCAATAATGCTGCCAATACGATAAGCCAGTCCACAACGGTAATAGCTGATACGCTGAGTCGCGTTGCAAACGTAGCGGCTACAGGAGGTAGTGCTTTACCAGGCAGACCGCGTACTGTAACCGGCGACACCGGACATATGTACATAGCGGGTGCTTATGTGGGACGTAGCAACCGTCGTGTCATCGACCAAGGACAAAAAGGTGTAGCGGATAGTATTCTCGATGGTGTTGAATACTACTTAAACACTCCGTACGTTTGGGGCGGGAATGACATACGTAAGGGTGTTGACTGCTCTGGACTAGTTAACAATATATTCCGGCAAGTTGAAGAAGGAATAAATGATAGTTTAGAGCCTGGACAACCAAAAGTCAGTTCATTTGCCACACGTAACAGAACGGCTGCTGGTATGTACAAAGCAGCACGGCGTGAAGGACGTTTGGTATCTCGTGACAATGTGCAACACGGTGACGTGGTTTGGTGGACTAATGCGACACATAGAAGTAACCGCACAGGCTACGGACATGTCGGCTTTATCGTTGAAAAAAATGGCGAGTTGTACGTAACAGAAGCCGCCGGAGGCAAAGCTCGACGTGTCATAGAGAGACCATTAAAAGACGTTGAAAAAACCAATACCCTTGAGTTTGGACGCCCTCACGGTTACATACCTGTAGGCGCAAACATGGCGTTACCAAATGCTCAGGTTGGAAATGTTTCACGTTCAGCCTCGTCCTTACAAAGACGCATTCACAACACAAATCAGGCCATAGCAAGAGAGACGGAAGACGCGCAGCTTAAAGCCGCCAGACGTACGTATCTGACTCGCGTAGCGGCACTGTTCGGTAGCCGTGCAGATCGTATGCGTACGGATGCTGACTTCGTTGCACAGCAGCGTTTAAGTCTGATTGGTTTGACAGGGGGTGAAGCCACAATACAGCAACGCCTGAACGACCTAGACCTACAAATGTTCACGCTAGACAGCACGTACCAAGATGAAGTCGGGGGTAGGCGCATGTTCAACGCGGAGCGTTTGGCTCGTATCGCGGACGAGCGTATCCGGGCAAGAGAAACCTTCAAAAACGATCCTCAAGGCTTAGAAGCCGCTCTAAGTAGATTACAAGAAAGAGAGGATCGAATTACCGCAGAGCAGCTTAACTGGGAGCTTTCGTTCCAACAACGCAAGACAGGCTTGATGGCTGAACAGCGACGAATCCAAACGAGTGTTCAGCGCGAACTGGAAAAGCAGAATAAGGAACTGACTAAGCAGTTTGCCGCAATGGAAGACGGTCGAACTCTACGGATCGGTACGTACGGAGCCGTCGGTTTGTCAGGAGCCGTGACTCGCGCTGGTGTGGTGGCCGGTATTAGTAATCGGCAAGCTACTACGCGACTGACGGATGCTCAAACCGAATACGAGAAGGCTTTAACGAACCTTGTGCAACTAAGAGAAAGCAACGCCCCAGGCCCGGCTTTAGGTTACGCTTTCGCTAGAGTACAAATTGCGCGACAGGCCCTAGAGGACGCAAGCAACGCGGTAGTGTCCACTGAAATAACGGGCATGAATGCCACAGCGCAGGCCAATCTCAATCTTGATATTAGCAACCGCAATCAAGCTGAACGTGTGGCCGCGTTGTCGCGTCGTGCCGGACTGCAAGAAAATCTCTTTGGCACATTGACCGAAAGACTATTCGGATCGCCCCGAGGTACTTCGCTTCTTGAGAGCGCAAGGACTGCGGAGGAGTTGCGACGAAGCAACCAGCTTGCCCAAGTGGATACTACGTTGGCAAGGCAACGCATGGCTTACATCGGAACCTTACGTCTGATGGGCGTTGCTCCAAGGGTTATTGAGGGTATGTTGACTGAGTACGACAGGCAAGAGCCTCTACGCCGTGCTCAAATGCTGAACAGCATAAACCAGGGTTCAAACCAACGCCTATTCCGTTTGAATACCAATTCAATGCGGCAAGCAGACCTCCTAAACCAAGGTACCGGCGAACTATTCGCGGCGTTTGCGAACAACCCTCTTGGCCTTATCTCTGGGGGCTCAGGGCGTCAGGACTTGTTGAGCGCGATGTATCAGCCTTTGATTGGAGATACTATGGGAGCGCGAAATCGAAACTTCCAAGTTGCAAGCTCTCTGTTGACTGGAAGGTTTAACGATGCTACACTATCGGGACTCGGTTATATGCGAATGCCCGTTCCAGGACAAGCGGTCTATCGCGGCCCAGACGGTAACCTCATCAGTGCTGCATCACTCAGGAATCGTGCCTTAACTGGCGCAGCCGCCGACTTGGGAGGTATGTTCTTGGGCAACCTGATCGGTCAGCGCGTCTTCAACGGTGATCCCACCGCCGTGAACTTTGGGTCTCAACTCGGAGGAGCGTTAGGCCCGTCGCTATTCCAAGGGTTAGGCGCGTTCGGTGGCCCTGTTGGAATGGTGCTAGGTGGTGCGCTCGGAGGACTATTCTCCCGTCGGCGCAACCCCCAAGATGAGCAGATGGCGGCGTGGCGGCGCGATGTGATACGCTTGTTAAGTTCTATGGACAAGTCGTTACGTCCTCGCCCGGGTTACGATCCTGTCAACTCACAAGTGCTTTATGGGGAAGCGTCGCGCTTCCTCGGCGGTCGAGCTAGTGACACCATACAACGCTCGTTTACTGTTGGGACGGTGACCTAA

Gene Ontology

Description Category Evidence (source)
GO:0001897 symbiont-mediated cytolysis of host cell Biological process Inferred from Electronic Annotation (InterPro)
GO:0008234 cysteine-type peptidase activity Molecular function Inferred from Electronic Annotation (UniProt)
GO:0016020 membrane Cellular component Inferred from Electronic Annotation (UniProt)

Enzymatic activity

No enzymatic activity data available.

Tertiary structure

No tertiary structures available.