Protein
- UniProt accession
- E5AGK1 [UniProt]
- Protein name
- Lysozyme
- PhaLP type
-
VAL
evidence: ML prediction
probability: 99 % (predicted by ML model)
- Protein sequence
-
MATVQRQRTQLGLNNPGVGEINVGTSQGGSFAQGLLDAANAFNTVAPKYIGEKVEADKVLQANRALKGLMPTEDATYGGTRANMMVGAQNGINEMTMRLKDDAASWSGTEEEWNAHVVQQRNDFEAGIHQKYPELANDRDTSKMVTNMFMEQQPTIQASKVSADLQREHLDRQNTFQTRLTQVTAGKDGPDLTRSLEDLRPVAKALKLSDSEFEQMLVAEGKGRAATGDTSLLMATKGIKNADGVSLYDRDASVRSTVIQGRRMDLSLHQADLSEAKYGMEQRFLSGEMSSAELISAAANMNEMYGGAAYSASEINSLRDQKAKADAKLGKRVDFVGKINDGQLVALEDYTEKEINEGAAAYHDQGDAMVDAYAKAKGYTSEQTEGMRAKVQSEITVKLAKAGIKDQQLVRQIGSFQNIGPDHLKDMKQEPDEMKTLLNRWNTLPDYMRTQVVGDKPAAFLYNYQMGLSNNMNPGQALDFAQKAGRDINFSGKDNKEIANTGDDVASDLISNNGFNPFDNYPDYIRQQMKDFATDDVRRFRKAGYDIDGAKEQAQQNLANNYSYVGGTVIRGDRKQLAQKLKLNPDDLGAQFQAYLQVNKQKFEDEAGGPKVDEMYFDIDQDRGIFTVRAGSGGIPVQGARPLSELGNYKWLDQINKGNSKAEMRDRVMKAEGYAFGGPMSGDAAADVGKSVMDALFPPAGAAEHTPELQHGEIQKNEAFTDYLSSAENQAKAGFNASAGVFTPYDSDTGTAGTDTVAYGHKLTAEERANGYINIDNNPVPYREGESQLTEQQAQRLLQQDMKAHVPPTPGWKTDFDGLPGNIRRALIDTSFNMGKGFLSKNPTANAWFKQGDYQAGFIQLLTASNENGKRSKGVLVRRASAYNMAGGGEWPRISKVDVQEDGTMRVKFDGDKSSITPQMRQIISDDGWLMVKRGKAGSLHERSAAGTVSI
- Physico‐chemical
properties -
protein length: 951 AA molecular weight: 104167,00000 Da isoelectric point: 5,41314 aromaticity: 0,07256 hydropathy: -0,67266
Domains
Domains [InterPro]
Taxonomy
| Name | Taxonomy ID | Lineage | |
|---|---|---|---|
| Phage |
Erwinia phage phiEa100 [NCBI] |
925983 | Autographiviridae > Eracentumvirus > Eracentumvirus era103 |
| Host |
Erwinia amylovora [NCBI] |
552 | Bacteria > Proteobacteria > Gammaproteobacteria > Enterobacteriales > Enterobacteriaceae > Erwinia |
Coding sequence (CDS)
Coding sequence (CDS)
Genbank protein accession
CBX45103.1
[NCBI]
Genbank nucleotide accession
FQ482086
[NCBI]
CDS location
range 30510 -> 33365
strand +
strand +
CDS
ATGGCAACTGTGCAGAGACAACGCACACAACTCGGCCTCAATAACCCAGGTGTCGGCGAAATCAATGTGGGAACCTCACAGGGAGGCAGCTTTGCACAGGGGCTACTTGATGCGGCTAATGCCTTCAATACGGTGGCCCCTAAGTACATCGGTGAGAAGGTAGAGGCTGATAAAGTATTGCAGGCCAACCGCGCTCTCAAAGGTTTGATGCCAACCGAAGACGCAACCTATGGTGGCACACGCGCTAACATGATGGTTGGTGCTCAGAACGGTATCAATGAGATGACCATGCGGCTCAAGGACGATGCTGCAAGCTGGAGTGGTACGGAAGAAGAGTGGAACGCTCATGTGGTCCAGCAGAGAAATGACTTTGAAGCTGGCATCCACCAGAAGTACCCTGAACTGGCCAATGACCGTGACACATCTAAGATGGTTACGAATATGTTTATGGAGCAGCAACCTACCATCCAGGCTAGTAAAGTCTCTGCTGACCTGCAACGTGAACACCTTGACCGACAGAACACCTTCCAGACTCGTCTAACTCAGGTTACTGCTGGCAAGGATGGACCTGACCTTACACGCTCGCTTGAAGATCTCCGTCCAGTGGCTAAGGCTCTGAAGTTGTCTGACTCTGAGTTTGAGCAGATGCTTGTAGCTGAAGGTAAGGGACGCGCCGCAACTGGCGACACCTCGCTACTCATGGCAACCAAAGGCATCAAAAATGCTGATGGTGTTAGCCTGTATGACCGCGATGCCTCAGTGCGCTCTACGGTAATCCAAGGTCGCCGTATGGACCTCAGCTTGCATCAGGCTGATTTGTCTGAGGCTAAGTATGGTATGGAGCAACGCTTCCTCTCTGGTGAAATGTCCTCTGCTGAGTTAATCAGTGCTGCGGCTAACATGAATGAGATGTATGGTGGTGCTGCTTACTCTGCATCGGAGATCAATTCACTCCGTGACCAGAAGGCCAAGGCTGATGCCAAGCTGGGTAAGAGGGTTGACTTTGTTGGCAAGATCAATGATGGTCAATTGGTAGCACTTGAAGATTACACTGAAAAGGAAATCAATGAGGGTGCTGCCGCTTATCATGACCAGGGTGATGCTATGGTTGATGCCTACGCTAAAGCCAAGGGCTACACCTCAGAGCAGACTGAAGGTATGCGTGCTAAGGTTCAATCTGAGATTACGGTCAAACTGGCTAAGGCTGGCATCAAAGACCAGCAGCTAGTCAGACAGATTGGTTCATTCCAGAATATTGGACCTGACCACCTGAAGGATATGAAGCAAGAGCCTGACGAAATGAAGACCTTGCTGAACCGCTGGAATACCTTGCCAGACTATATGCGTACACAGGTCGTAGGTGATAAGCCTGCTGCCTTCCTGTACAACTATCAGATGGGACTGAGCAACAACATGAACCCAGGGCAGGCTCTGGACTTCGCTCAGAAAGCGGGTCGGGATATTAACTTCTCAGGTAAGGATAACAAAGAGATTGCCAACACAGGTGATGATGTTGCTAGCGATTTAATCTCTAACAATGGATTCAACCCGTTTGACAACTACCCTGATTATATCCGTCAGCAGATGAAAGACTTTGCTACCGATGATGTTCGTCGATTCCGTAAGGCAGGGTATGACATTGACGGTGCCAAAGAGCAGGCACAGCAAAACCTGGCTAACAACTATTCATACGTGGGTGGTACTGTTATCCGTGGCGACCGTAAGCAACTTGCTCAGAAGCTGAAGTTAAACCCTGATGACCTGGGTGCTCAGTTCCAAGCGTACCTGCAAGTTAACAAGCAGAAGTTTGAGGACGAGGCAGGTGGTCCAAAGGTTGACGAGATGTACTTCGACATTGACCAGGACCGTGGGATCTTCACTGTGCGTGCTGGCTCTGGTGGCATCCCTGTGCAAGGTGCTCGCCCATTGTCTGAGTTGGGCAACTACAAGTGGCTTGACCAGATTAACAAAGGGAACTCTAAAGCTGAGATGCGTGACCGGGTTATGAAGGCTGAGGGCTACGCATTTGGTGGTCCTATGTCTGGAGACGCTGCTGCCGATGTTGGCAAGTCTGTTATGGATGCACTGTTCCCGCCAGCAGGTGCAGCAGAGCACACTCCTGAACTTCAACATGGAGAGATTCAGAAAAATGAGGCTTTCACCGACTACTTATCTAGTGCGGAGAACCAGGCCAAAGCTGGCTTTAATGCTAGCGCTGGGGTGTTCACACCTTATGACTCAGACACAGGTACAGCAGGAACCGACACTGTAGCATACGGTCACAAGCTGACGGCAGAGGAAAGAGCCAACGGTTATATCAACATTGATAACAACCCAGTCCCGTATCGTGAGGGCGAGTCTCAGCTTACTGAGCAGCAAGCACAGCGTCTGTTGCAGCAGGATATGAAAGCGCATGTACCACCCACACCTGGATGGAAGACTGACTTTGATGGATTGCCTGGTAACATTCGTCGTGCATTGATTGATACCTCATTCAACATGGGCAAAGGCTTCCTTAGCAAGAACCCTACAGCAAACGCATGGTTTAAGCAGGGTGACTATCAAGCTGGCTTTATTCAGTTGCTGACAGCTAGCAATGAGAATGGTAAGAGAAGTAAAGGCGTCCTTGTCCGTAGGGCCAGTGCATACAACATGGCAGGTGGAGGCGAATGGCCTCGCATCTCTAAGGTTGATGTACAGGAAGACGGTACAATGCGTGTTAAGTTTGATGGTGACAAGTCCAGCATTACCCCACAAATGCGCCAGATTATCAGCGATGATGGTTGGCTAATGGTTAAGCGTGGTAAGGCTGGTAGTCTGCATGAACGTAGTGCAGCAGGTACAGTTAGCATCTAG
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.