Protein
View in Explore- Genbank accession
- XAG94955.1 [GenBank]
- Protein name
- hypothetical protein
- RBP type
-
TF
- 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]
DC_0099
STR
1–795
STR
1–795
Coil
Unmapped
595–615
Unmapped
595–615
1
795
Architecture
STR 1-795
Legend:
ATT
STR
RBD
CBM
LEC
ENZ
CHP
LNK
TAS
TTP
UNK
Unmapped
Taxonomy
| Name | Taxonomy ID | Lineage | |
|---|---|---|---|
| Phage |
Salmonella phage SF02 [NCBI] |
3141821 | Viruses > Duplodnaviria > Heunggongvirae > Uroviricota > Caudoviricetes |
| Host | No host information | ||
Coding sequence (CDS)
Coding sequence (CDS)
Genbank protein accession
XAG94955.1
[NCBI]
Genbank nucleotide accession
PP706106
[NCBI]
CDS location
range 134261 -> 136648
strand -
strand -
CDS
ATGGCCATCCCATCTTTCTTGAACTTTCTTGAAGAGTCTAAACAATTAGACGAAGCGTTTAACTCATCCCCGTATGAATTGACATTCGGCAAGAAGAACGCTGGCGACATTTTCTTCACATTTGTTGATGAAGACGAAAAAGAATTCCGTATTCAATTCTATACCCCACAAGGTCTAGGCAAGAATGTTCGCCAAGTCTTTATCGGTCAGAAGCGTGGTTCCACATATCCAGATGCCATCGGTCGCTTTAAGAATCCGATGCGTGTTATCGCATCCATGATTGAAGCAACAAAGCAATTCATGGCGACACCGCTGGGTAAAACCATTGACGGCTTTGCAATTAACTTCTCCAAGAAAGCATTGGAGCGTGGTGTTACCCTCCTGCCGAAGATTATCCGTCAGTCCGGCCTGAAGCAAAAGCTCAATGTCATGGACCTGACGTATACCCCTATCCCTGATCGTGCATTCGTATGGGTTGTGCGTAAAGGCAAGGATCCTGCTCAGGTATTCGATGGTCCGAAAATGAAAGGTGTCACATGGGATGATCCGGACAAAGTCGGTGACGTTCCTGACCAGGCTGCTCGTGACGCCGCACTACAAGGTGACATGGATGATTTGAGCCAAGCCATAAATGCCGATTCTCGCTGGATTCTGACCAAAGCTGATCATACTCAGCCTATGCTGGTCTGGTCTGGTAAAGAACGTGGACGGACTATTACCGCCAATATCGCACCTCACGCGAATGAACCTGGCGTGTATGCTGGTAGTATCATGAACGAGAAACGGATCCGCGCTCAATCCCCAGACGCTATTGTACGCCAACTGGGATTACCGCAGATCCCTGTGAATATTCTGAATGATTTCACCAAGCAGTCGTCCATCTTCTGGAAAGAGATGACGGGGGATTCTGGAAAAATAGACATGCAGACTTTGCCAAAAACAGGATCTGTGGATGACTTACGAAATCAGGGTTATATTGCTCGCCTTCTGGGGATTGTAGACACATATGCTCCACAACAGGTCGGTATGTATGCAGGTGAAAAACTAACACGAATCGGCGCGGGCAAATATCGTACTTCGGGTGGTCTGGACATTCAGGTTTATTTCTGGGGAATTGTCAACGGAAAACTTTCTGTAGAAGTAGTATCAGATTTGTCTGGTCATTACCAACTTATGCTGGAAGGAGACGTGAAAAACGCCGCTTATGAAATAGTGGGCGCAATCTCCCGTGCAGCCGATTCTCAATTTGCGGGAGAAGTAGAATGCCGTGTGGTTCCTATCAATGGTGCCCCATATCCGATTCAAAAAATTTCCCGTTCTCAGGGATATTCTTACGTTGATTGTGGTTCTTTCACATTGAAGATCGCTGACGCTCTGCTGAATCGGTTTACCTTGGGCAAGGCGGTCAAACTTGATCTGATGAAAGAGTTTCCTCGTACAACATTCAAAGTCCGCTATGATTGGCGTGGAAAAGATACTCTGTTGGTTCAATCTTCCGACGAGCGTACTATCTTTGGTGAAATCAACACCAATTCCAGTGAAAATGCAGTGATCACTGCAAACATCAAAGTACCAAGCAACGCTAAATTTTTTGGTGAAACCGTTCATGGCTTCTCTGTAGCGTGGGATTTCCAGTTCCCTGCTGGTAGCAAGTTGCAAGCCGCAAGATTCGTTACCAACGTAACTTACGATTTTGATCGAAATAAAGCCAACATCACCACCATGTTGACTGAAAATGGTCGAAATGTGGTAGACAGCAATGGATATGATATTTCGTTGTCTGTCAAATCAGTGCAAGATGCATTGGATGAGATTTCTCGACGCCTGAAAGACGCGGCTTCGCAACTGAGCCATCTCAGTTCATCAAACTATAACCCTAACAATCTGTTCCTGAATGACATCACTGTCAGTAAATTTGGCGCGATTATGTTCCAAGACAAAGATTTGGCACAGTCCAGGAACCGCACGGCAGTCATTGATGCTTTGGCTCGGGCTAAAGATCAGGCTGCTGGAGGTAAGAATGCAGGTGATCTGGCCACCTATGCCGAATCCATTCGTGACAGCGCTCCTAATGGACGAGATCTGGATTGGCAGGTATACACAGCCAGTAATGGTACAGTTCTGAATGTTGCTTGGGATATCACTTTCCGTCGCAATACGACCGAAGGAGCATATCGTGAATTCAAGGATCAGATCAACCGTGCCAACCAATACCTGCAAACGGTATACAACGACGCGAAATCTAAAGGCTATAATCCTACCGAGCCAAATCTCATGACTCTTGAACGCGCTCGCCAATCCGACGAATGGGCTATGAGTAATGGTGATAGTGCATACAGTGAATATGAACAATCACTGGGTGGTAATCTTCAGATTAGTCTGAAATAA
Genome Context
Genome Context
Tertiary structure
PDB ID
ef1c4b6161eb9e01fafbe749dcc50b8c2fe8a3fe821934ac92a7777d60b37e1b
Model Confidence
Very high
pLDDT > 90
pLDDT > 90
High
90 > pLDDT > 70
90 > pLDDT > 70
Low
70 > pLDDT > 50
70 > pLDDT > 50
Very low
pLDDT < 50
pLDDT < 50
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 |