PhaLP - Phage Lytic Protein database

UniProt accession

A0A140XFP7 [UniProt]

Protein name

Peptidoglycan transglycosylase gp16

PhaLP type

VAL

evidence: Protein name annotation

probability: 99 % (predicted by ML model)

Protein sequence

MDKYNPNEPHEYDALFQQAADTHGVSYGLLRKVGWVESRFNPKAVSPTKPRGVMQFTKATGQAYGLQTDEDFFDPAKSIDAGARYLADLVKKYDGDELKAALAYNQGEGRNGKPQLEAYDSGNFAGIGDEGRNYIRSLLDVAKSPKSGDIESFGGITPKGKGIPFDAAMSGIGKKGKVTTELPESHSMSFQGKEQAAPNQPFGKDYWEAKGTTLDEANERSTFFGFGNATEAELSNSTLGVAFRAGKRDNGFDVVTDVLQPTRFNSHIWSPEELEKIRNEVKNPAYMNVVLGGSSENLDELIKLANENFELDAKAADAGLGAKLSAGLIGAGVDPLTYVPIAGTTAKGFKLVNKALIVGAQAGALNVASEGLRTSVAGGDAHYAEAALAGMLFAGGLTAIADGVAAGLRKSGAEQIENPFSAAQMRFEARETARNTGGHDASRMPPSEDRVFSQHNGVEYAPLETEPGAVVLRDGSIISDTNLANPMTAKEFAEVDPERAAWGLPMRGLSEIGLRTLRSEHAEIRGLAKDLVRSPTGMESGTHGKFGATASDIKERLHSTNQRTYNDLYGAMKEAMADPEWSVGMFKQGAQGARQEIYRRAAIAIERPELQANLTKAERKVMDIMKEHFDLKREMMENPAMFGNKATSIFPNSRHKGTYVPHVYSREAKQLYSQALGGTDGLQEAIAASWMTSYRSRPEVKARVDEHLAETLGIDPKAVTEEMVMKHASDKAYGIAKTDEFNSSSVIDDNIEGLVGIENNSFLEARNLFDSDMPVTLPNGQPFSVNDLRDFDMKRVMPAYDRRVDGDIAIMGGTGKTTAELKDSIMALDKKSEGKGTMKGEVEALKDTVKILTGRARRNQDTVGDTMVRALSDMSFFTKNAYMGLQNLTEISGLLAKGNTRAMLHGIPALRDLAFRNKPVSGKELKELHSMVFGKEFDDLIRPTRQDIVQRLRESTDTPDMAAKAVGTIKHTTQELAARSPFTKFLNGTSNYILDMARQGVMGDVITHAITGKGANKWIKKDMLKSASISKEQWEGIQNLIRENVTQGADGKYTFKDKRKLANDPRAMDLWRLADKVADETMLRPHKVSLQDAHAYGAAAKLVLQFKSFVIKSMNAKFIRSGHEAMKNHRAMDMALTYAISGGIAGAYYVAQAHMKAAGLPKEQQKDYLKKALDPKMIAYASASRSSHLGSPLSIANFAMGAAGYDQGLMVRSTILPKGEDKRDRTKAVTSRDMGDSIMGAIGEQVPALGFAGATLAAGRNAYGVLTAPNKVTEREMMTGLMNAHREMVPNDPITQQMLIKFYEANGVHLKADKK

Physico‐chemical properties

protein length:	1315 AA
molecular weight:	143121,00000 Da
isoelectric point:	7,42007
aromaticity:	0,06920
hydropathy:	-0,45772

Domains [InterPro]

InterPro ID	Start	End	Source	Name
IPR038994	2	1306	HAMAP	Internal virion protein Gp16
IPR000189	33	61	PROSITE	Prokaryotic transglycosylase, active site
IPR023346	6	144	SUPFAM	Lysozyme-like domain superfamily
IPR008258	15	120	Pfam	Transglycosylase SLT domain 1

	Name	Taxonomy ID	Lineage
Phage	Salmonella phage BP12A [NCBI]	1543199	Autographiviridae > Berlinvirus > Berlinvirus BP12A
Host	No host information

Coding sequence (CDS)

Genbank protein accession

AIT13667.1 [NCBI]

Genbank nucleotide accession

KM366096 [NCBI]

CDS location

range 29546 -> 33493
strand +

CDS

GTGGATAAGTATAACCCGAACGAACCGCATGAATACGATGCGTTATTTCAACAAGCTGCTGACACACATGGAGTCTCCTATGGCCTTCTTCGGAAGGTCGGTTGGGTAGAGTCCCGGTTTAACCCAAAGGCTGTGTCCCCTACGAAACCTCGTGGTGTCATGCAGTTCACTAAGGCAACCGGACAGGCGTATGGTCTTCAGACTGATGAGGACTTCTTCGACCCAGCTAAGTCTATTGATGCTGGTGCTCGTTACCTTGCAGACCTCGTTAAGAAGTACGATGGTGACGAACTGAAAGCTGCCCTAGCGTACAACCAAGGTGAAGGACGTAATGGTAAGCCACAACTCGAAGCCTACGATTCCGGTAACTTTGCTGGCATTGGTGATGAAGGGCGTAACTATATCCGTTCACTTCTGGATGTCGCTAAGTCTCCTAAGAGTGGTGACATCGAGTCATTCGGTGGTATCACCCCAAAGGGTAAAGGGATTCCGTTTGATGCTGCGATGAGTGGTATCGGGAAGAAAGGAAAGGTAACAACTGAACTCCCTGAGTCTCACTCAATGTCCTTTCAAGGTAAAGAACAGGCCGCTCCCAATCAGCCGTTCGGTAAAGACTATTGGGAAGCCAAAGGAACTACACTCGACGAAGCTAACGAGCGTTCAACCTTCTTCGGATTCGGTAACGCTACTGAAGCAGAACTCTCCAACTCAACATTGGGTGTGGCCTTCCGTGCTGGTAAGCGTGATAATGGTTTCGATGTTGTTACTGACGTACTTCAACCGACACGGTTTAACAGCCACATTTGGTCGCCTGAAGAACTCGAAAAGATTCGCAACGAAGTGAAGAACCCTGCATACATGAATGTAGTGCTGGGAGGTTCCTCTGAGAATCTGGATGAACTCATCAAGTTAGCCAATGAGAACTTCGAGTTGGACGCTAAGGCTGCTGATGCAGGCCTTGGTGCCAAACTGTCTGCTGGCCTTATTGGTGCTGGTGTTGACCCGTTGACCTACGTTCCTATCGCTGGGACTACGGCTAAAGGGTTCAAGCTGGTAAACAAGGCGTTGATTGTCGGTGCTCAAGCTGGTGCTCTTAACGTGGCCTCTGAGGGACTCCGCACATCGGTTGCTGGTGGTGATGCTCACTATGCTGAAGCTGCCCTTGCAGGTATGCTGTTCGCTGGTGGCCTTACCGCTATTGCTGACGGTGTGGCTGCTGGTCTCCGTAAGTCCGGTGCCGAACAGATTGAGAACCCATTCTCCGCTGCACAGATGCGCTTTGAGGCTCGTGAGACTGCACGTAACACAGGTGGACATGACGCAAGCCGTATGCCTCCTAGTGAAGACCGAGTGTTCTCACAGCACAACGGCGTTGAGTATGCACCTCTTGAAACTGAACCGGGTGCCGTAGTGTTGCGTGATGGTTCCATTATCAGTGACACCAACTTGGCTAACCCGATGACAGCCAAAGAGTTCGCAGAAGTAGACCCTGAACGTGCTGCGTGGGGCTTGCCTATGCGTGGACTGAGTGAAATCGGCTTGAGGACTTTACGTTCTGAACACGCTGAAATCCGTGGTCTCGCTAAGGACTTAGTGCGCTCGCCTACAGGTATGGAGTCAGGTACTCACGGTAAGTTCGGTGCTACTGCCTCTGACATTAAAGAGCGTCTGCACAGTACGAACCAACGAACCTACAACGACCTCTATGGTGCAATGAAGGAAGCAATGGCTGACCCTGAGTGGTCTGTGGGTATGTTCAAGCAGGGTGCTCAAGGTGCCCGTCAGGAAATCTATCGTCGTGCTGCAATCGCTATTGAGCGTCCAGAACTTCAGGCCAACTTAACGAAGGCTGAACGTAAGGTAATGGACATCATGAAGGAACACTTCGACCTCAAGCGTGAGATGATGGAGAACCCGGCGATGTTCGGTAACAAGGCAACTTCTATCTTCCCCAATAGTCGTCACAAAGGGACTTACGTTCCTCATGTGTACTCACGGGAAGCCAAGCAGTTGTACTCACAGGCTCTTGGCGGTACTGACGGTTTACAGGAAGCTATCGCCGCAAGCTGGATGACCTCTTACCGTTCACGCCCTGAAGTTAAGGCTCGTGTAGATGAGCACTTAGCGGAGACCTTGGGTATCGACCCGAAGGCTGTTACCGAAGAGATGGTGATGAAACATGCCAGCGATAAGGCTTATGGTATTGCGAAGACTGATGAGTTCAACTCTTCAAGTGTCATCGACGATAACATTGAGGGTCTCGTGGGGATTGAGAACAACTCGTTCCTTGAAGCCCGTAACCTGTTCGACTCTGACATGCCCGTCACCCTGCCTAATGGACAGCCGTTCTCTGTGAATGACCTCCGTGACTTCGATATGAAGCGTGTGATGCCAGCCTATGACCGCCGTGTTGATGGTGATATTGCTATCATGGGTGGTACAGGGAAGACCACTGCTGAACTGAAGGATTCCATTATGGCTCTCGATAAGAAGTCAGAAGGGAAGGGTACGATGAAAGGTGAAGTAGAGGCATTGAAAGATACCGTTAAGATTCTCACTGGTCGTGCTCGTCGCAATCAGGATACCGTAGGTGACACTATGGTTCGCGCTCTGTCCGATATGTCATTCTTTACGAAGAACGCATACATGGGCTTGCAGAATCTAACTGAAATCTCTGGTCTCTTGGCGAAGGGTAACACTCGTGCGATGCTGCATGGTATCCCCGCTCTGCGTGACTTAGCGTTCCGCAACAAACCAGTCTCCGGCAAGGAACTCAAGGAACTCCACTCAATGGTGTTTGGCAAAGAGTTCGACGACCTGATTCGTCCGACTCGTCAAGACATCGTTCAGCGACTCCGTGAGTCAACCGATACTCCAGATATGGCTGCTAAGGCTGTAGGGACTATCAAACACACGACTCAAGAGTTAGCTGCTCGCTCTCCGTTCACCAAGTTCCTGAATGGTACGTCAAACTACATTCTCGACATGGCTCGACAGGGTGTGATGGGAGATGTGATCACTCATGCTATCACTGGCAAGGGTGCCAACAAGTGGATTAAGAAGGACATGCTGAAGTCCGCGAGTATCTCTAAGGAACAGTGGGAAGGCATTCAGAACCTCATCCGTGAGAACGTCACTCAAGGTGCTGACGGTAAGTACACCTTCAAGGACAAGCGCAAGCTGGCTAACGACCCTCGTGCTATGGACTTGTGGCGATTAGCTGATAAGGTTGCCGATGAGACAATGCTGAGACCTCACAAGGTTTCGCTTCAGGATGCTCATGCCTATGGCGCTGCTGCCAAGCTGGTGCTTCAGTTCAAGTCCTTTGTCATCAAGTCGATGAACGCTAAGTTTATCCGCTCTGGTCACGAGGCTATGAAGAACCACCGAGCTATGGACATGGCGTTAACCTATGCAATCTCTGGCGGAATCGCTGGTGCTTACTATGTTGCACAGGCACACATGAAGGCTGCTGGTCTCCCTAAAGAGCAACAGAAGGATTACTTGAAGAAAGCCCTTGACCCTAAGATGATTGCGTATGCGTCTGCATCCCGTAGTTCACACTTAGGTTCCCCGTTGAGTATCGCCAACTTCGCTATGGGTGCTGCTGGGTACGACCAAGGTCTCATGGTGCGCTCTACGATTCTACCGAAAGGAGAAGACAAGCGTGACCGGACTAAAGCAGTGACATCCCGTGACATGGGTGATTCCATCATGGGTGCTATTGGCGAACAGGTTCCGGCTCTCGGTTTCGCTGGGGCAACTCTTGCCGCTGGTCGAAATGCTTATGGTGTCCTTACGGCTCCTAACAAAGTTACCGAGCGTGAGATGATGACTGGCCTGATGAACGCTCATCGTGAGATGGTTCCTAACGACCCTATAACTCAACAGATGCTAATTAAGTTCTATGAGGCTAACGGTGTTCACCTTAAGGCTGACAAGAAGTAA

	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)

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

No tertiary structures available.

Protein

Domains

Domains [InterPro]

Domains [InterPro]

Taxonomy

Coding sequence (CDS)

Coding sequence (CDS)

Gene Ontology

Enzymatic activity

Tertiary structure