Protein

UniProt accession
E3SK58 [UniProt]
Protein name
Lysozyme
PhaLP type
VAL

evidence: ML prediction

probability: 99 % (predicted by ML model)

Protein sequence
MATVTKGAKINFYKFVDPDGGAGTTAAATGVSKENKALTASIKANTQAINNLGATVNSIGKVAASMKDAQLKLLKIDEDRLRKSSFKPKFTKAKPIKSKAFDSLFSGKIMGFWESLLNLAGALLKYFLVIPALKWLSDEKNQDKVVSGLKILAKVFKFIADVAKFSFVNTIEGLYDLLRDDATWQERIGGFFQALTGLGTAFLAISILRRPGETIRTFTDVLTKFGRGLTNAALKLARHPLVVATGLFTAGYFIPKLMPGTVSEQERKILEQQGSNEEKIKKLEEQLNNLNFFDRYIRGFGAEIEEQIRAIREGKVASYGQTFGQDDLPTKSIGGYLKEYAKGGWINGPQSGYPVNISGGNKPDFIGHGTEYVARKADGGAFIVPFDTPATRVNPSLTASRTLEAKMMGFKLPGFDSGGAMDSFAKKMIKVHEGLKLQKYLDSRGFPTIGYGHLVRPTDKFPNTISKAFADQLFEKDYKHHKKAAKGIPGYGTSSPMQKAALIDLTFNMGPAWHEGFPKMMTAYGKGDFETAGNELMDSDYFNQVKRRGPTIVSLIKNKGLGPESQYLIDAGIIPPSSGTKNPFGNPLNAFGSFVTNSLFGGPASAAEIATGTEPNDMGRDTANRQNSTTGSFTVIPTSHSETGAGWGIRGVTDKYGRPIVLSQPAAMAFAKMMQVSKGQVKGSDIASSGRTRRKNTSVGGDPNSVHLYGEGLDISGSSEKWMKSNASRYGWNFGYNHGPGSGHYDYEGTGSRVTPILAPPGGKSFVYDKAAVTDTGATGATNKQTGSGNFLTGLLKSLRGGGQTNRDPSSLFNESAMDTGFGSLFDVDSPLTSGINYSSAFKNPFSSTSAQRAESIQEQARIRRVTEQRNQARREINAKTSEVVQMALAAVEAQNGSNRQFIQTAESAIRNLLGAQAGGGTFANVGGTTGTVLRTAVAVLNSFNNPLRGIFQ
Physico‐chemical
properties
protein length:953 AA
molecular weight:102484,00000 Da
isoelectric point:9,66138
aromaticity:0,09234
hydropathy:-0,34795

Domains

Domains [InterPro]
IPR023347
425–565
IPR023347
IPR023346
425–556
IPR023346
IPR052619
425–558
IPR052619
IPR002196
431–541
IPR002196
Protein sequence: E3SK58
1 953
Legend: Pfam SMART CDD TIGRFAM HAMAP SUPFAM PRINTS Gene3D PANTHER Other

Taxonomy

  Name Taxonomy ID Lineage
Phage Synechococcus phage S-SSM5
[NCBI] 		445685 Kyanoviridae > Glaucusvirus > Glaucusvirus ssm5
Host Synechococcus sp. WH 8102
[NCBI] 		84588 Bacteria > Cyanobacteria > Oscillatoriophycideae > Chroococcales > Synechococcus >

Coding sequence (CDS)

Coding sequence (CDS)
Genbank protein accession
ADO98052.1 [NCBI]
Genbank nucleotide accession
GU071097 [NCBI]
CDS location
range 9784 -> 12645
strand +
CDS
ATGGCAACAGTCACGAAAGGCGCTAAAATTAATTTTTACAAGTTCGTAGATCCTGATGGTGGTGCGGGCACTACTGCTGCTGCGACGGGAGTTAGTAAAGAAAATAAAGCGTTAACTGCTTCCATTAAAGCAAATACTCAAGCAATCAATAATTTAGGAGCGACTGTTAACTCCATTGGTAAGGTTGCTGCGTCTATGAAAGATGCACAACTTAAATTACTGAAGATTGATGAAGACAGACTGAGAAAATCATCATTCAAACCAAAGTTTACAAAAGCAAAACCCATCAAATCAAAAGCATTTGATAGTCTATTCTCAGGCAAAATAATGGGTTTCTGGGAGAGTCTGCTGAATTTAGCAGGTGCTTTATTAAAGTATTTTTTAGTTATTCCTGCTCTTAAGTGGCTTTCTGACGAAAAGAATCAAGATAAAGTTGTAAGTGGTCTTAAAATACTTGCTAAAGTATTCAAATTTATTGCTGATGTCGCAAAGTTTTCGTTTGTTAATACTATTGAAGGTCTGTACGATCTTCTAAGAGATGATGCCACTTGGCAAGAAAGAATCGGTGGATTCTTTCAGGCGCTAACAGGACTAGGAACAGCATTCTTAGCAATATCAATCTTAAGAAGACCTGGTGAAACTATCAGGACATTTACCGATGTGTTGACAAAGTTCGGTAGGGGACTTACAAATGCAGCTCTCAAACTGGCAAGACATCCATTAGTAGTTGCTACTGGACTGTTTACTGCTGGATATTTTATTCCTAAACTAATGCCTGGCACTGTTAGTGAACAGGAGAGAAAAATTCTTGAACAGCAAGGATCAAATGAAGAGAAGATTAAAAAACTTGAAGAACAACTAAACAATTTAAATTTCTTTGACAGATACATCCGTGGATTCGGTGCTGAAATCGAAGAACAAATTAGGGCAATAAGAGAGGGTAAAGTTGCTTCTTATGGTCAAACTTTCGGACAGGATGATCTCCCAACTAAAAGTATTGGAGGATATTTAAAGGAATATGCTAAAGGTGGATGGATTAATGGTCCCCAGTCAGGGTATCCAGTAAACATTAGTGGTGGTAATAAACCTGATTTTATTGGTCATGGTACAGAGTATGTTGCTAGAAAGGCGGATGGTGGTGCATTTATTGTTCCATTCGACACACCTGCAACTAGAGTTAATCCAAGTTTAACTGCTAGTAGAACCCTAGAAGCAAAGATGATGGGATTCAAACTACCAGGATTTGATTCTGGTGGTGCGATGGATAGTTTTGCAAAGAAAATGATTAAGGTCCATGAAGGACTGAAATTGCAAAAGTATCTGGATAGTAGAGGATTTCCTACTATTGGATATGGTCACTTAGTTAGACCTACCGACAAATTCCCGAATACAATTAGTAAAGCATTTGCCGACCAATTATTTGAGAAAGATTACAAACATCATAAAAAAGCAGCAAAAGGTATACCTGGATATGGTACATCTTCTCCAATGCAGAAAGCAGCATTGATTGATCTTACATTTAATATGGGTCCTGCATGGCATGAGGGATTTCCTAAGATGATGACAGCATATGGCAAAGGAGACTTTGAAACTGCTGGTAATGAGTTGATGGATAGTGATTATTTCAATCAAGTTAAACGTCGTGGTCCTACCATCGTATCACTTATCAAAAATAAAGGTCTGGGTCCAGAAAGTCAATACTTAATAGATGCTGGTATTATACCACCTTCATCGGGCACTAAGAATCCTTTTGGAAATCCATTAAATGCATTTGGATCATTCGTTACAAATTCTTTATTTGGCGGTCCTGCATCAGCAGCAGAAATTGCTACTGGAACTGAACCAAATGATATGGGTAGAGATACTGCCAATAGACAAAATAGTACTACAGGTTCATTTACTGTCATTCCAACTTCACACTCTGAAACTGGTGCTGGATGGGGAATCAGAGGAGTTACCGACAAATATGGTCGTCCCATAGTATTATCTCAACCTGCTGCTATGGCATTTGCTAAAATGATGCAAGTGTCTAAGGGACAAGTAAAGGGATCTGATATTGCAAGTTCTGGTAGAACTAGAAGGAAAAATACCTCAGTTGGTGGTGATCCTAACTCAGTTCACTTATATGGTGAAGGTCTTGATATCTCTGGTTCTTCAGAAAAATGGATGAAATCAAACGCCAGCAGATATGGTTGGAATTTTGGATATAATCATGGACCTGGTAGTGGTCACTATGACTATGAAGGTACAGGTTCTAGAGTAACACCTATCTTAGCACCGCCTGGTGGAAAATCTTTTGTATATGATAAAGCTGCTGTAACGGATACTGGTGCGACTGGTGCTACCAATAAACAGACTGGCAGTGGTAATTTTCTAACTGGATTACTTAAAAGTCTCAGAGGAGGTGGTCAAACTAATAGAGATCCAAGTAGTCTCTTTAACGAATCTGCAATGGACACTGGATTTGGATCCTTATTTGATGTGGACTCTCCTTTGACCTCTGGTATTAATTATTCAAGTGCTTTCAAGAATCCTTTTAGTTCTACATCAGCTCAAAGGGCAGAGAGTATACAAGAACAAGCAAGGATTCGTAGAGTAACAGAACAAAGAAATCAAGCAAGAAGGGAAATCAATGCAAAGACTTCTGAGGTCGTGCAGATGGCGTTGGCGGCTGTTGAGGCGCAAAATGGTTCCAATAGGCAATTCATTCAAACGGCTGAGTCGGCAATTAGGAATCTTCTAGGTGCTCAAGCAGGTGGTGGTACATTTGCTAACGTAGGAGGAACAACGGGAACCGTTCTAAGGACTGCTGTTGCTGTCCTAAATTCTTTTAATAACCCTCTTAGAGGCATCTTCCAATGA

Gene Ontology

Description Category Evidence (source)
GO:0003796 lysozyme activity Molecular function Inferred from Electronic Annotation (UniProt)
GO:0009253 peptidoglycan catabolic process Biological process Inferred from Electronic Annotation (InterPro)
GO:0016998 cell wall macromolecule catabolic process Biological process Inferred from Electronic Annotation (InterPro)
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)

Enzymatic activity

EC Number Entry Name Reaction Catalyzed Classification Evidence Source
3.2.1.17 lysozyme
aka muramidase 		D-glucosamine residues in chitodextrins
Hydrolases
Glycosylases
Glycosidases, i.e. enzymes hydrolyzing O- and S-glycosyl compounds
 match to sequence model evidence used in automatic assertion
ECO:0000256 		RuleBase:RU003788

Tertiary structure

No tertiary structures available.