Protein

UniProt accession
A0A172JG63 [UniProt]
Protein name
Peptidoglycan transglycosylase gp16
PhaLP type
VAL

evidence: Protein name annotation

probability: 99 % (predicted by ML model)

Protein sequence
MSYDKTKPSEYDGLFQKAADEHGVSYDLLRKLAFNESGFNPKAKSPTGPLGLMQFTKGTAAGLGLKVTGGDDDERFNPELAVDAAARHLSDLVRKYDGDELKAALAYNQGEGRNGAPQMQAYDRGDWASISEEGRNYMRKLLDVANSPRKGDLEAFGGITPKAKGIPAEDAFAGIGKAGKVGTELPQSTGFKLEGVEQQAPAVPFTKDFYDKHGTTVEEYENRSTFFGIKDTTSAELHNSLLGVAFNAARFDDSFDIFKDAITPTRWNSTTWTPEQLERIRNEVKDPNYINVVTGGDPENLDDLIKLANENAAMAAKTQGAGVGARLVGGIVGAGVDPLSYVPLVGVAGKGIKVVNKAFVVGAQSAALSAVSEAVRTSVAGGEAHYQDAILGGLMFGAGMSAIADGVSAALGRVRAGQVSNDFDRMATRLEAREAAFQAGGEDLTRMPTEGRSFDGEHAGVNYSPLETEPGAVVLPQGQILSDTNPINPQTLSEFEAVNPERAARGISLGGFTEIGLKTLRSENPTVRSIASDLVRSPTGMESGSNGKFGATASDIKERLHANNQRTYNQLYDAVRTAMKDPEFSTGGVKMSRKEVRQEIYKRAALAIERPELQSGLTKGERKVMDILKQHFDLKRELMENPAIFGNVKARSIFPGSRHNGTYVPNVYDRAIKLYMVSRYGNEGLQRAIAESWLTSYRARPEVKARVDEYLMELNGLKTVQEVTPDMVQKHAMDKAYGISHTDQFSSSSVIDDNIEGLVGIENNNFLEARNMFDSDMAVTLPDGNTFSVNDLRTYDMAEILPAYDRRVDGDVAIMGGSGKTTKDLKDEIMALDKQSEGNGSLKGEVEALKDTVKILTGRARMNPEGAFGTILRSMTDLTFFAKNFYMPFQNFTEVAAMLSKGNTSAVLHGIPLLNDWVSRRKPMSGSEIKEIHGMVFGKELDQLIRPGREDHIRRLRESTDTNAVVANVVGTIRFGTQELSARSPWTMLLNGTSNYIIDAARQGVLGDVAGAALAGKGSKFGKANYLKSASVSPEQWKGIKQLFRDHATRDADGKFTIRDKQAFANDPRTMDLWRLADKVADETILRPHKVSSQDTKAYGAAVKMVMQFKNFVIKSLNSRFVRLFYDATKNNRAIDSALTAIISMGLAGGYYVAQSHLKAYGLQEHKRKEYLKNALDPKMIAHASLSRSSHLGSPLSVYDMIGGLFGNDTYQYTRSTVLPKEKTERDRNKAWTGKEVAGNIVGAISNQVPAVGLVGNIGSTVMNASTLLSSDGKQSEVEFRTGVFNSMRELVPNDPLTQQLIMHIFEEQGIKIKDDATRPRQ
Physico‐chemical
properties
protein length:1322 AA
molecular weight:144192,00000 Da
isoelectric point:6,65655
aromaticity:0,07413
hydropathy:-0,42035

Domains

Domains [InterPro]
IPR008258
14–128
IPR008258
IPR038994
1–1309
IPR038994
IPR000189
32–60
IPR000189
IPR023346
6–146
IPR023346
Protein sequence: A0A172JG63
1 1322
Legend: Pfam SMART CDD TIGRFAM HAMAP SUPFAM PRINTS Gene3D PANTHER Other

Taxonomy

  Name Taxonomy ID Lineage
Phage Citrobacter phage SH2
[NCBI] 		1805465 Autographiviridae > Teetrevirus > Teetrevirus SH2
Host No host information

Coding sequence (CDS)

Coding sequence (CDS)
Genbank protein accession
AMR59498.1 [NCBI]
Genbank nucleotide accession
KU687348 [NCBI]
CDS location
range 29484 -> 33452
strand +
CDS
ATGAGCTACGACAAGACGAAACCATCTGAGTATGATGGGTTATTTCAGAAAGCGGCAGATGAACATGGGGTCTCCTATGACCTGCTTCGTAAATTAGCATTCAACGAATCTGGCTTCAATCCGAAAGCCAAAAGCCCTACAGGGCCATTAGGTCTCATGCAGTTCACTAAAGGTACGGCAGCGGGGCTTGGACTCAAGGTGACAGGTGGAGATGACGATGAGAGATTCAACCCTGAGTTGGCTGTGGACGCAGCCGCTCGTCACCTGAGCGACCTCGTTAGGAAATACGACGGGGATGAACTCAAAGCGGCCTTAGCATACAACCAAGGGGAGGGCCGTAATGGCGCTCCACAAATGCAGGCTTATGACCGAGGCGATTGGGCCTCTATCAGCGAGGAGGGCCGCAACTACATGCGTAAACTTCTCGATGTGGCTAACAGCCCGCGCAAGGGAGACTTGGAGGCGTTCGGTGGGATAACCCCAAAGGCTAAAGGGATTCCCGCTGAGGACGCCTTTGCTGGAATCGGTAAGGCCGGGAAGGTAGGAACTGAGCTTCCACAATCAACTGGCTTTAAGCTGGAGGGTGTGGAACAACAGGCACCTGCCGTACCGTTCACTAAGGATTTCTACGATAAACATGGAACTACCGTTGAGGAATATGAAAACCGTTCAACATTCTTCGGGATAAAGGACACCACAAGTGCCGAGCTTCATAACTCGCTATTGGGTGTTGCCTTCAATGCTGCGCGTTTTGATGATAGCTTTGATATCTTCAAGGACGCAATTACCCCTACTCGGTGGAACAGCACTACGTGGACGCCTGAGCAATTAGAGCGTATCCGCAACGAGGTAAAAGACCCAAACTACATCAACGTTGTTACTGGAGGAGACCCAGAGAATCTTGATGACCTGATTAAGCTGGCTAATGAGAATGCGGCTATGGCTGCGAAGACTCAGGGCGCTGGTGTGGGAGCACGCTTGGTCGGTGGAATCGTTGGGGCTGGTGTTGACCCCTTGAGCTATGTGCCGCTTGTTGGCGTTGCTGGCAAGGGTATCAAGGTTGTAAACAAGGCGTTCGTTGTTGGTGCCCAAAGTGCAGCCTTGAGCGCAGTTTCGGAAGCTGTTCGTACATCCGTTGCTGGAGGTGAGGCGCACTATCAAGATGCAATCCTTGGTGGTCTTATGTTCGGGGCCGGGATGAGCGCAATAGCTGATGGCGTGAGTGCAGCCTTGGGCCGTGTTCGCGCTGGTCAAGTTAGTAACGACTTCGACCGCATGGCTACTCGACTGGAGGCGCGTGAGGCTGCCTTTCAAGCTGGTGGCGAGGACTTAACACGTATGCCAACAGAGGGTCGCTCCTTTGATGGGGAACATGCTGGGGTGAACTATTCTCCACTTGAAACTGAGCCGGGTGCTGTGGTGTTGCCGCAAGGTCAAATCTTGAGTGACACCAACCCGATTAACCCTCAGACTCTTAGCGAGTTCGAGGCGGTCAACCCTGAGCGTGCCGCTCGTGGTATCTCTTTGGGCGGTTTCACTGAGATTGGCTTGAAGACTCTCCGCTCTGAGAACCCGACTGTTCGCTCCATTGCGAGTGACCTTGTGCGTTCTCCGACAGGGATGGAATCAGGCTCTAATGGTAAGTTCGGTGCGACTGCTTCTGACATTAAGGAGCGGCTCCACGCGAACAATCAGCGCACCTACAATCAGCTTTATGATGCTGTGCGTACTGCAATGAAAGACCCTGAGTTCTCCACAGGCGGTGTGAAGATGAGCCGTAAGGAAGTACGACAGGAAATCTATAAGCGTGCTGCCTTAGCGATTGAGAGACCAGAGCTACAATCTGGACTCACAAAGGGAGAACGTAAGGTGATGGATATCCTGAAACAACACTTCGACCTAAAGCGCGAACTCATGGAAAACCCTGCTATCTTCGGGAACGTAAAAGCTCGTAGCATATTCCCCGGCTCACGCCATAACGGAACCTACGTGCCTAATGTGTATGACCGTGCTATAAAGTTGTACATGGTGAGTCGCTACGGTAACGAGGGACTACAACGGGCAATTGCAGAGTCGTGGCTTACATCTTACCGCGCTCGTCCAGAAGTCAAGGCGAGAGTTGATGAGTACCTGATGGAGCTTAATGGTCTCAAGACGGTACAGGAAGTAACACCAGATATGGTTCAGAAGCACGCTATGGACAAGGCGTATGGTATTTCACACACTGACCAGTTCTCTTCCTCCTCTGTCATTGATGATAACATTGAGGGTCTGGTTGGCATCGAGAACAACAACTTCTTGGAAGCCCGTAACATGTTCGACAGTGATATGGCGGTAACTCTTCCTGATGGTAACACGTTCTCTGTGAATGACCTCCGTACCTATGACATGGCTGAAATTCTGCCTGCATACGACCGACGAGTGGATGGTGACGTGGCAATCATGGGTGGTTCCGGTAAGACGACTAAAGACCTGAAAGATGAAATCATGGCGCTGGATAAGCAGTCAGAGGGTAACGGCTCACTGAAAGGTGAAGTCGAAGCACTCAAGGACACCGTGAAGATTCTGACTGGTCGTGCCCGCATGAACCCAGAGGGAGCTTTCGGTACGATTCTTCGCTCCATGACTGACTTGACTTTCTTCGCTAAGAACTTCTATATGCCATTCCAGAACTTCACTGAGGTTGCTGCTATGTTGAGTAAAGGAAACACCTCTGCGGTACTTCATGGAATCCCACTGCTTAACGATTGGGTTAGCCGGAGGAAGCCTATGAGCGGCTCTGAGATTAAGGAGATTCACGGTATGGTGTTCGGGAAGGAACTAGACCAGCTTATCCGTCCGGGGCGTGAAGACCATATACGTCGCCTTCGGGAGTCTACTGACACTAACGCAGTGGTGGCTAATGTGGTTGGGACTATTCGCTTCGGCACTCAGGAATTGTCTGCGCGTTCACCTTGGACGATGCTGCTTAATGGAACCTCTAACTACATCATCGATGCTGCCAGACAGGGTGTACTGGGTGATGTGGCTGGGGCAGCGCTCGCTGGGAAAGGCTCTAAGTTCGGTAAAGCGAACTACCTTAAGTCTGCCTCTGTGTCACCTGAGCAGTGGAAGGGAATAAAGCAGTTGTTCCGTGACCACGCTACTCGTGATGCTGACGGTAAGTTTACAATCCGGGACAAACAGGCTTTCGCTAATGACCCACGGACTATGGACTTATGGCGTCTGGCCGATAAGGTTGCTGATGAGACTATCCTTAGGCCGCATAAGGTTTCCTCACAGGACACCAAGGCTTACGGAGCGGCTGTCAAGATGGTGATGCAGTTTAAGAACTTCGTAATCAAGTCTCTTAACTCGCGCTTCGTCAGATTGTTTTATGACGCGACTAAGAACAACAGGGCTATCGATTCTGCGCTGACTGCAATCATCTCTATGGGTCTGGCTGGTGGTTACTATGTTGCTCAGTCGCACTTGAAGGCTTACGGCCTACAGGAGCACAAGCGTAAGGAGTACCTCAAGAATGCTCTTGACCCCAAAATGATTGCCCACGCGTCATTATCCAGAAGTTCACACCTTGGTTCCCCACTGTCTGTCTACGATATGATTGGTGGCTTGTTCGGTAATGATACCTACCAGTACACCCGCTCAACGGTGTTACCAAAGGAAAAGACCGAACGTGACCGCAACAAGGCTTGGACTGGTAAGGAGGTTGCAGGTAACATAGTAGGGGCGATATCCAACCAAGTGCCAGCTGTAGGACTAGTTGGGAACATTGGGTCTACCGTCATGAATGCCTCTACGCTACTTAGCTCTGATGGTAAGCAAAGTGAGGTAGAGTTCCGTACTGGTGTGTTCAACTCCATGCGTGAGCTTGTTCCCAATGACCCGCTGACACAGCAGTTGATTATGCACATCTTCGAAGAGCAGGGCATCAAGATTAAGGATGACGCAACACGCCCTCGCCAATAA

Gene Ontology

Description Category Evidence (source)
GO:0000270 peptidoglycan metabolic process Biological process Inferred from Electronic Annotation (UniProt)
GO:0008933 peptidoglycan lytic transglycosylase activity Molecular function Inferred from Electronic Annotation (TreeGrafter)
GO:0016020 membrane Cellular component Inferred from Electronic Annotation (UniProt)
GO:0016787 hydrolase activity Molecular function Inferred from Electronic Annotation (InterPro)
GO:0020002 host cell plasma membrane Cellular component Inferred from Electronic Annotation (UniProt)
GO:0031640 killing of cells of another organism Biological process Inferred from Electronic Annotation (UniProt)
GO:0042742 defense response to bacterium Biological process Inferred from Electronic Annotation (UniProt)
GO:0044423 virion component Cellular component Inferred from Electronic Annotation (UniProt)
GO:0098932 symbiont entry into host cell via disruption of host cell wall peptidoglycan Biological process Inferred from Electronic Annotation (UniProt)
GO:0098994 symbiont entry into host cell via disruption of host cell envelope Biological process Inferred from Electronic Annotation (UniProt)
GO:0099002 symbiont genome ejection through host cell envelope, short tail mechanism Biological process Inferred from Electronic Annotation (UniProt)

Enzymatic activity

EC Number Entry Name Reaction Catalyzed Classification Evidence Source
4.2.2.n1 peptidoglycan lytic exotransglycosylase
aka exomuramidase; murein lyase F 		in the MurNAc residue
Lyases
Carbon-oxygen lyases
Acting on polysaccharides
 match to sequence model evidence used in automatic assertion
ECO:0000256 		HAMAP-Rule:MF_04121

Tertiary structure

No tertiary structures available.