Protein

Genbank accession

XAG94955.1 [GenBank]

Protein name

hypothetical protein

RBP type

Evidence RBPdetect

Probability 0,65

Protein sequence

MAIPSFLNFLEESKQLDEAFNSSPYELTFGKKNAGDIFFTFVDEDEKEFRIQFYTPQGLGKNVRQVFIGQKRGSTYPDAIGRFKNPMRVIASMIEATKQFMATPLGKTIDGFAINFSKKALERGVTLLPKIIRQSGLKQKLNVMDLTYTPIPDRAFVWVVRKGKDPAQVFDGPKMKGVTWDDPDKVGDVPDQAARDAALQGDMDDLSQAINADSRWILTKADHTQPMLVWSGKERGRTITANIAPHANEPGVYAGSIMNEKRIRAQSPDAIVRQLGLPQIPVNILNDFTKQSSIFWKEMTGDSGKIDMQTLPKTGSVDDLRNQGYIARLLGIVDTYAPQQVGMYAGEKLTRIGAGKYRTSGGLDIQVYFWGIVNGKLSVEVVSDLSGHYQLMLEGDVKNAAYEIVGAISRAADSQFAGEVECRVVPINGAPYPIQKISRSQGYSYVDCGSFTLKIADALLNRFTLGKAVKLDLMKEFPRTTFKVRYDWRGKDTLLVQSSDERTIFGEINTNSSENAVITANIKVPSNAKFFGETVHGFSVAWDFQFPAGSKLQAARFVTNVTYDFDRNKANITTMLTENGRNVVDSNGYDISLSVKSVQDALDEISRRLKDAASQLSHLSSSNYNPNNLFLNDITVSKFGAIMFQDKDLAQSRNRTAVIDALARAKDQAAGGKNAGDLATYAESIRDSAPNGRDLDWQVYTASNGTVLNVAWDITFRRNTTEGAYREFKDQINRANQYLQTVYNDAKSKGYNPTEPNLMTLERARQSDEWAMSNGDSAYSEYEQSLGGNLQISLK

Physico‐chemical properties

protein length:	795 AA
molecular weight:	88295,47340 Da
isoelectric point:	7,58212
aromaticity:	0,09434
hydropathy:	-0,42340

Domains

Domains [InterPro]

Coil
595–615

Coil

XAG94955.1

1 795

Legend: Pfam SMART CDD TIGRFAM HAMAP SUPFAM PRINTS Gene3D PANTHER Other

Domains [InterPro]

InterPro ID	Start	End	Source	Name
Coil	595	615	Coils	None

Taxonomy

	Name	Taxonomy ID	Lineage
Phage	Salmonella phage SF02 [NCBI]	3141821	Viruses > Duplodnaviria > Heunggongvirae > Uroviricota > Caudoviricetes
Host	No host information

Coding sequence (CDS)

Genbank protein accession

XAG94955.1 [NCBI]

Genbank nucleotide accession

PP706106 [NCBI]

CDS location

range 134261 -> 136648
strand -

CDS

ATGGCCATCCCATCTTTCTTGAACTTTCTTGAAGAGTCTAAACAATTAGACGAAGCGTTTAACTCATCCCCGTATGAATTGACATTCGGCAAGAAGAACGCTGGCGACATTTTCTTCACATTTGTTGATGAAGACGAAAAAGAATTCCGTATTCAATTCTATACCCCACAAGGTCTAGGCAAGAATGTTCGCCAAGTCTTTATCGGTCAGAAGCGTGGTTCCACATATCCAGATGCCATCGGTCGCTTTAAGAATCCGATGCGTGTTATCGCATCCATGATTGAAGCAACAAAGCAATTCATGGCGACACCGCTGGGTAAAACCATTGACGGCTTTGCAATTAACTTCTCCAAGAAAGCATTGGAGCGTGGTGTTACCCTCCTGCCGAAGATTATCCGTCAGTCCGGCCTGAAGCAAAAGCTCAATGTCATGGACCTGACGTATACCCCTATCCCTGATCGTGCATTCGTATGGGTTGTGCGTAAAGGCAAGGATCCTGCTCAGGTATTCGATGGTCCGAAAATGAAAGGTGTCACATGGGATGATCCGGACAAAGTCGGTGACGTTCCTGACCAGGCTGCTCGTGACGCCGCACTACAAGGTGACATGGATGATTTGAGCCAAGCCATAAATGCCGATTCTCGCTGGATTCTGACCAAAGCTGATCATACTCAGCCTATGCTGGTCTGGTCTGGTAAAGAACGTGGACGGACTATTACCGCCAATATCGCACCTCACGCGAATGAACCTGGCGTGTATGCTGGTAGTATCATGAACGAGAAACGGATCCGCGCTCAATCCCCAGACGCTATTGTACGCCAACTGGGATTACCGCAGATCCCTGTGAATATTCTGAATGATTTCACCAAGCAGTCGTCCATCTTCTGGAAAGAGATGACGGGGGATTCTGGAAAAATAGACATGCAGACTTTGCCAAAAACAGGATCTGTGGATGACTTACGAAATCAGGGTTATATTGCTCGCCTTCTGGGGATTGTAGACACATATGCTCCACAACAGGTCGGTATGTATGCAGGTGAAAAACTAACACGAATCGGCGCGGGCAAATATCGTACTTCGGGTGGTCTGGACATTCAGGTTTATTTCTGGGGAATTGTCAACGGAAAACTTTCTGTAGAAGTAGTATCAGATTTGTCTGGTCATTACCAACTTATGCTGGAAGGAGACGTGAAAAACGCCGCTTATGAAATAGTGGGCGCAATCTCCCGTGCAGCCGATTCTCAATTTGCGGGAGAAGTAGAATGCCGTGTGGTTCCTATCAATGGTGCCCCATATCCGATTCAAAAAATTTCCCGTTCTCAGGGATATTCTTACGTTGATTGTGGTTCTTTCACATTGAAGATCGCTGACGCTCTGCTGAATCGGTTTACCTTGGGCAAGGCGGTCAAACTTGATCTGATGAAAGAGTTTCCTCGTACAACATTCAAAGTCCGCTATGATTGGCGTGGAAAAGATACTCTGTTGGTTCAATCTTCCGACGAGCGTACTATCTTTGGTGAAATCAACACCAATTCCAGTGAAAATGCAGTGATCACTGCAAACATCAAAGTACCAAGCAACGCTAAATTTTTTGGTGAAACCGTTCATGGCTTCTCTGTAGCGTGGGATTTCCAGTTCCCTGCTGGTAGCAAGTTGCAAGCCGCAAGATTCGTTACCAACGTAACTTACGATTTTGATCGAAATAAAGCCAACATCACCACCATGTTGACTGAAAATGGTCGAAATGTGGTAGACAGCAATGGATATGATATTTCGTTGTCTGTCAAATCAGTGCAAGATGCATTGGATGAGATTTCTCGACGCCTGAAAGACGCGGCTTCGCAACTGAGCCATCTCAGTTCATCAAACTATAACCCTAACAATCTGTTCCTGAATGACATCACTGTCAGTAAATTTGGCGCGATTATGTTCCAAGACAAAGATTTGGCACAGTCCAGGAACCGCACGGCAGTCATTGATGCTTTGGCTCGGGCTAAAGATCAGGCTGCTGGAGGTAAGAATGCAGGTGATCTGGCCACCTATGCCGAATCCATTCGTGACAGCGCTCCTAATGGACGAGATCTGGATTGGCAGGTATACACAGCCAGTAATGGTACAGTTCTGAATGTTGCTTGGGATATCACTTTCCGTCGCAATACGACCGAAGGAGCATATCGTGAATTCAAGGATCAGATCAACCGTGCCAACCAATACCTGCAAACGGTATACAACGACGCGAAATCTAAAGGCTATAATCCTACCGAGCCAAATCTCATGACTCTTGAACGCGCTCGCCAATCCGACGAATGGGCTATGAGTAATGGTGATAGTGCATACAGTGAATATGAACAATCACTGGGTGGTAATCTTCAGATTAGTCTGAAATAA

Gene Ontology

No Gene Ontology terms available.

Enzymatic activity

No enzymatic activity data available.

Tertiary structure

PDB ID

ef1c4b6161eb9e01fafbe749dcc50b8c2fe8a3fe821934ac92a7777d60b37e1b

ESMFold

Source ESMFold

Method ESMFold

Resolution 0,4567

Evidence 0,4567

Download PDB

Literature

Title	Authors	Date	PMID	Source
Isolation, characterization and application of a novel polyvalent bacteriophage SF02 for the control of Salmonella and Escherichia coli O157:H7 in foods	Hou,P.-F.	2024	—	GenBank