Genbank accession
QDJ97392.1 [GenBank]
Protein name
tail fiber protein
RBP type
TF
Evidence Phold
Probability 1,00
Protein sequence
MSYEDDLGLDDWDDPFAGDFDLDGDFDIDPFKGKGFVSSMASGFLGGLVNETVGSGAAITRSLRTILPNTFSNAFDRTNRAIERYDELKTELKEQNYESVRSLQSIAGQLSNRFGEKLPGGLRNKMDDFSQKDFSDWEKSDGSYNSMEGIEEESDYDLTLVLDSVMSRQEGLFSEMTNSLNVMSANVGGQISSAVMAGNRQLVNIETSVRDLNDYQRNVQFKIEQTKLNLMAKGYVANVKYYKFMEKGMHAQVAELKKILKGTMMSDYQKTSNFTASKQYMRDSLFSTVGRRVGGLTGLIRDRFGKEARQDASDSASSVLGMVADMLEMSDGMPVSAGMLGDMAGRGLAGAAVRNLPNFFARGPGKRMLESLAKKNPAEAKALRRQWERLSNTGSKASYMSNAGVGLINFMAEDYQAMDEMPFIDYEDYVASLPPDKQPMSKARWTIQNAASNRAKAAMNSFMSEMNQAKGTQYTLKKRNPRDLVDAGIWTQGNNVTLNEVIPGLISRTNQLLEMIRTGDSNAELVTYNYMRGQFQNETNKQIAVQADLMPAAEFDRYATAALEFVDDLDPKKTLSQGARKAFAKVIARDVDREKNFNPFYYIGDIPGISGPMLDEIHAVVRRHFGLRDQDIARFNETTGFERMQVMTEMRNSRYQERLNKAGSAATNLKDLAPNIAERIDMLRATGNEQLLRDLGVIYTENGIDKVDMEVFHERIGMFMDDPNNPALRGMNPSDKTQGKKTRNSFHIPDRPAPTNDGKRTEGASFAGLSSSLNTLTEKLDVLASSNMSSKSGKPDTAYMDTQTGEIVSNTSKIAESNQRMETILSSLLDLANKGKLFSGAPKNANEERQEEQAKEGLMSKIKGLFPEGMFGRGMDLLVKNSPIVLGGVLGGIASNFASNPIAAASMAVGGLALGGLVQYWGNKDRKENVSANEPSDDEDIVDENGESILKSAKLKAGEYIDAITKRVINTYREIKGPVIDVVSKAIITVRELGGRIFGPDGRAVVLRGIETAKGMIVNAYNFVNPIGKLRAGIDMGKEIIYQQDVFVKGDLQNPRLRAVGFKNVEYWKDENGTFKPVKGWNEISGPVYDEEGNELISQAEFDEGLVTRTGQRIRQVGTMGSNMAGAAVGMGKQLFTNMMGKLGFERSNEQASSHVSAVRGRGTNMNGVERRLDRIYKLLSQKFGMEIEDEELDDAGGPAMRKNSLEDKARQAAASQSDRVQKAIIDIGDTLTGKSKKKGEGEEKGKKPGLFGKLYDMMGSIGGFFKNPLGSLLGMVGGSMAASVKRLGTIGSALFSGVLGIGSPIFKLLSGGIKMLGGLLGPIARMAGSGIGGLLGMGGPGGRGGKLNKGMGRVGALLGGSALAYNLLTGDDSSSTPTEENMFNQKRPVTTADQIEDAANWIPQIGIGTTVLEAVMPKSWIDGIKNTGVYWTDDGQLFTDRRDAEQHMANSEGYKYNGTTYRTTLLANSIQKRLRFAMYGIREWRSDLAERVQRLEMMLLPHVNVGSGSAGFSKPEAVAEVFRQFVENSAPVPRDNINTWFQARFKPIFLTFVAAANAARFGDLQEYDAGQTHEVVLVAERVQEAVGHMSTNPYTIDVPIDQDTGTMSRIATTGEVADLMNELRKAYPAEKKADGLKLRTYDEQRQANLNPEVSDNKVVAWFQNKFGNESLIRSQEHIDKTFAVTAEIKDIDISDLHKDGDTEIEPFTLARLAVYGNDANINWRVDAVLKLERYCEENMVLSNGLGKLEIPLESVLALFKPMFRIKTELMMANWKAWFESRFLPVLQKYYALVYKQRGSSPKQGWRQLSNSNKAEIAKVLSEIMVMVDGEETSVWNVKASPFEGAQSGTDSDRADTYIKSLNSDAMKAALRDPVMEEAASKAIGEQLQDRSETRKQAEQARIAELTAMRMKRREQAGKQGGTFGGNNYASNGFANAFPPGGMGTTPGTVGAGSGGQYSGGFSEGWEMDPTLKAGDDQGLSMTPEQGEQLLLQGLLRAGITDNKQIALALALAKVETGNYKSTVENTNWSAPTLKKYFRNIPDMATAEKVAAMPPEQRAMYVYGRAPKGPTLGNEKPEDGWLYRGRGLFQLTGKANYEKYKRETGIDVVSNPRLVSEDPNVVADSAVRYLLGNKAIKSIATTGDFDSAVRGINGGNSVPFTDERRKAYTEYLAKLQNGQIKAAGPTKTSDFAPTSGGEDKIADVPNAADQNVPKAAEEKVASTKKTHKQEVDELLDKSSVNQQKAATASPPVSPSAAPTAAVTNPVPSPAPVQAPAPKPSAPAPVSQPAGPTTVSSVGPAPKPAPKQTGTGTQAVSDEGAQQLLSGIISQLGRLNDLMASQGKGGRPNTVGLG
Physico‐chemical
properties
protein length:2353 AA
molecular weight: 256284,52640 Da
isoelectric point:6,10271
aromaticity:0,07012
hydropathy:-0,47382

Domains

View on InterPro
QDJ97392.1
1 2353 aa
STR 1997–2176 ·

ATT Attachment Domain STR Structural Domain RBD Receptor-Binding Domain CBM Carbohydrate-Binding Module LEC Lectin-like Domain ENZ Enzymatic Domain CHP Intramolecular Chaperone LNK Linker/Spacer Domain TAS Tail-Associated Structural TTP Tail Tubular Protein UNK Uncharacterized Domain Unmapped

Taxonomy

Coding sequence (CDS)

Genbank protein accession
QDJ97392.1 [NCBI]
Genbank nucleotide accession
MN131137.2 [NCBI]
CDS location
range 220075 -> 227136
strand -
CDS
ATGTCATATGAAGATGATCTCGGTCTCGATGATTGGGATGACCCGTTTGCGGGTGATTTCGATCTCGATGGAGATTTTGATATCGATCCTTTCAAAGGTAAAGGATTCGTGTCAAGTATGGCGTCGGGGTTCTTGGGTGGACTCGTTAATGAAACAGTAGGGTCAGGTGCGGCGATCACTAGATCACTCCGCACTATTTTACCCAACACTTTCAGTAACGCTTTCGACCGAACCAACCGTGCCATCGAACGCTACGATGAACTCAAGACAGAGCTCAAAGAGCAAAACTACGAATCGGTCAGATCATTACAAAGCATTGCCGGCCAGCTTTCCAACCGTTTCGGTGAGAAGTTACCTGGCGGCCTTCGTAACAAAATGGATGACTTTTCCCAGAAAGATTTCTCTGACTGGGAGAAGAGTGATGGGTCTTATAATAGCATGGAGGGTATTGAAGAAGAGTCTGATTATGACTTGACTTTGGTGCTCGACAGCGTTATGAGTCGTCAAGAAGGGTTGTTCTCAGAAATGACGAACTCCCTCAACGTAATGTCTGCAAACGTTGGTGGTCAAATCAGTTCTGCCGTCATGGCCGGTAACCGCCAACTTGTCAATATCGAAACCAGTGTTCGTGATCTTAACGATTACCAGCGCAACGTACAGTTCAAAATCGAACAGACCAAATTGAACTTGATGGCGAAAGGCTATGTGGCTAACGTCAAGTACTACAAGTTCATGGAAAAGGGCATGCACGCCCAGGTTGCTGAACTGAAGAAGATCTTGAAAGGGACGATGATGTCTGATTACCAAAAGACATCGAACTTCACCGCTTCCAAACAGTACATGCGGGATTCCCTGTTTAGTACAGTAGGGCGTCGTGTAGGCGGCCTGACTGGTCTCATCAGGGATCGTTTTGGTAAAGAAGCCAGGCAAGATGCTTCAGATAGCGCCAGTAGTGTGTTGGGAATGGTCGCCGACATGCTCGAGATGTCTGACGGTATGCCAGTATCTGCTGGCATGTTAGGAGACATGGCTGGTCGAGGGTTAGCGGGTGCTGCTGTCCGTAACCTCCCCAACTTCTTTGCCCGAGGTCCTGGTAAAAGAATGTTGGAAAGCCTTGCCAAGAAAAACCCAGCTGAAGCAAAGGCATTGCGACGTCAATGGGAGCGACTCTCCAACACAGGTTCGAAAGCTTCGTACATGTCTAACGCCGGAGTTGGCTTGATCAACTTCATGGCTGAAGACTACCAAGCAATGGACGAGATGCCGTTCATTGACTACGAAGACTACGTTGCCAGTCTTCCTCCCGACAAACAACCCATGAGTAAAGCCAGGTGGACAATTCAGAACGCCGCGAGTAACCGCGCTAAAGCCGCAATGAACTCGTTTATGTCTGAGATGAACCAGGCTAAAGGTACACAGTACACTCTCAAGAAACGTAACCCACGTGATTTGGTCGATGCTGGTATCTGGACTCAGGGTAACAACGTCACACTGAATGAAGTAATACCTGGTTTGATTTCTCGTACCAACCAACTGTTGGAGATGATCAGAACTGGTGACAGTAATGCCGAGTTGGTTACTTACAACTACATGCGTGGTCAGTTCCAGAACGAAACCAACAAACAGATCGCTGTTCAAGCCGACCTGATGCCCGCCGCTGAATTCGATCGGTATGCGACTGCTGCTCTTGAGTTCGTTGATGACCTGGATCCCAAGAAGACGTTGTCCCAGGGAGCCCGTAAAGCATTTGCTAAGGTGATCGCAAGAGACGTTGACCGAGAGAAGAACTTTAACCCGTTCTACTATATCGGGGACATTCCTGGTATCTCTGGTCCGATGCTCGACGAGATCCATGCGGTGGTACGTCGTCACTTTGGACTGCGTGATCAAGACATTGCTCGCTTCAACGAGACCACAGGTTTCGAGCGGATGCAAGTGATGACAGAGATGCGGAACTCCAGGTATCAAGAGCGTCTCAATAAAGCAGGGTCCGCAGCAACCAACCTGAAAGACCTCGCTCCGAATATCGCTGAACGTATCGACATGCTCAGGGCCACTGGTAATGAACAGTTGCTTCGTGACCTTGGTGTGATCTATACAGAGAACGGTATCGACAAGGTTGATATGGAAGTATTCCACGAACGTATCGGCATGTTCATGGACGATCCTAACAACCCAGCGCTCAGAGGGATGAACCCCAGCGACAAAACTCAAGGTAAGAAAACCAGGAACAGTTTCCACATTCCTGATCGCCCCGCTCCGACCAATGATGGAAAGCGTACTGAAGGTGCCTCCTTCGCTGGTCTCTCCAGTTCTCTCAACACACTGACAGAGAAACTGGACGTGCTGGCTAGCAGCAACATGTCTTCCAAGTCCGGTAAGCCGGATACGGCATACATGGACACTCAGACCGGAGAGATCGTTTCCAACACATCCAAGATTGCAGAAAGTAATCAGCGGATGGAAACAATCCTTTCTTCACTTCTGGATCTTGCTAATAAAGGCAAGTTGTTCTCAGGTGCTCCAAAGAACGCCAATGAGGAACGCCAAGAAGAGCAGGCTAAAGAAGGTCTGATGAGTAAGATCAAAGGTCTGTTCCCGGAAGGTATGTTCGGTCGCGGTATGGACTTACTGGTCAAGAACTCTCCGATAGTGTTGGGTGGCGTACTTGGTGGCATTGCCTCCAACTTTGCATCTAACCCTATTGCCGCTGCATCTATGGCGGTGGGTGGACTGGCTCTGGGTGGTCTCGTTCAGTACTGGGGTAACAAGGATCGTAAAGAAAATGTCAGTGCAAACGAACCTTCTGATGATGAAGACATCGTAGATGAAAACGGTGAAAGCATTCTGAAGTCAGCAAAGCTCAAAGCTGGTGAGTACATTGACGCGATCACTAAACGTGTTATTAACACGTACCGTGAAATTAAAGGTCCTGTCATTGACGTGGTATCCAAAGCAATCATCACAGTTCGTGAACTGGGTGGGCGCATCTTCGGTCCTGATGGTCGCGCTGTAGTGCTTCGTGGGATCGAAACCGCTAAGGGCATGATTGTCAATGCCTACAACTTTGTGAACCCAATAGGTAAACTCCGCGCCGGTATCGACATGGGTAAAGAAATCATCTATCAACAAGACGTCTTTGTGAAAGGTGATCTCCAGAACCCCCGTCTCCGTGCAGTAGGGTTTAAGAACGTTGAATACTGGAAAGATGAGAACGGAACTTTCAAACCTGTCAAGGGTTGGAACGAAATCTCTGGTCCAGTTTACGATGAAGAAGGTAACGAACTTATCTCCCAAGCCGAGTTTGATGAAGGTTTGGTGACTCGTACAGGCCAACGTATCAGACAAGTGGGAACCATGGGTTCTAACATGGCTGGTGCTGCTGTCGGTATGGGTAAACAACTCTTTACCAACATGATGGGTAAGCTTGGTTTCGAGCGTTCTAACGAGCAAGCCAGCTCACACGTCTCTGCGGTTCGTGGTCGTGGTACCAACATGAACGGGGTTGAGCGTCGTCTTGATCGTATCTACAAACTCCTTTCCCAAAAGTTTGGCATGGAGATTGAGGACGAAGAACTTGATGACGCTGGTGGTCCGGCGATGCGTAAGAACTCCCTTGAGGATAAAGCGCGTCAGGCCGCAGCATCGCAATCTGACCGAGTCCAGAAAGCAATCATCGATATTGGTGATACACTCACCGGTAAGAGTAAGAAGAAAGGGGAAGGTGAAGAGAAGGGTAAGAAACCTGGTCTCTTTGGCAAGCTCTACGACATGATGGGTTCCATCGGCGGATTCTTCAAGAACCCACTGGGTTCATTACTCGGGATGGTTGGCGGTTCCATGGCTGCCAGTGTGAAACGTTTAGGGACGATTGGAAGTGCGTTGTTCTCTGGTGTGTTGGGTATCGGCTCTCCCATCTTTAAACTTCTTAGCGGAGGTATAAAGATGTTGGGTGGTCTGTTAGGTCCCATTGCCAGGATGGCCGGTAGCGGTATCGGCGGACTGCTTGGTATGGGCGGTCCTGGTGGACGAGGGGGTAAACTCAATAAAGGGATGGGTCGTGTTGGCGCACTCCTTGGTGGTAGTGCTCTAGCATACAACCTGTTGACAGGTGACGACAGTTCTTCCACACCTACTGAAGAGAACATGTTCAACCAGAAACGTCCAGTGACCACTGCTGATCAGATAGAGGATGCTGCAAACTGGATTCCTCAGATCGGTATCGGGACCACGGTTCTTGAAGCAGTAATGCCCAAGAGTTGGATTGACGGTATCAAGAACACTGGTGTGTACTGGACTGATGATGGACAGTTGTTCACAGACCGTCGTGACGCCGAACAGCATATGGCTAACTCGGAAGGGTACAAGTACAACGGCACCACTTACCGGACAACTCTGCTGGCCAACTCCATTCAGAAACGTCTTCGTTTCGCGATGTACGGTATTCGTGAATGGCGGAGTGATTTAGCAGAACGTGTACAACGTCTCGAGATGATGTTGCTCCCGCATGTTAATGTGGGTAGTGGGTCGGCAGGTTTCAGTAAACCCGAGGCGGTCGCTGAAGTCTTCAGACAGTTCGTTGAGAACTCGGCTCCGGTTCCACGTGACAATATCAACACTTGGTTCCAGGCACGGTTCAAGCCCATCTTCTTGACTTTCGTTGCCGCGGCTAACGCTGCAAGGTTTGGCGATCTTCAAGAGTACGATGCCGGTCAGACCCATGAAGTAGTTCTTGTCGCAGAGCGTGTACAGGAAGCCGTTGGCCACATGTCGACCAATCCTTACACTATCGACGTCCCGATTGACCAAGATACTGGGACGATGTCAAGAATTGCTACCACTGGCGAAGTCGCTGATTTGATGAATGAACTTCGTAAAGCTTATCCAGCCGAGAAGAAGGCAGACGGTCTCAAGTTGAGGACTTATGATGAGCAACGTCAAGCCAACCTGAATCCGGAAGTATCGGACAATAAGGTCGTCGCTTGGTTCCAGAATAAGTTCGGTAACGAGTCGTTAATCAGGTCACAAGAGCACATCGACAAAACCTTCGCTGTCACAGCGGAAATTAAGGACATCGACATATCTGACCTCCACAAAGATGGAGACACAGAAATCGAACCATTCACGCTTGCTCGTCTTGCCGTGTACGGTAACGATGCCAATATCAACTGGCGTGTAGATGCAGTTCTGAAACTTGAACGTTATTGCGAAGAGAACATGGTTCTTTCCAATGGGCTGGGGAAACTCGAAATCCCACTGGAGTCTGTACTGGCTCTCTTCAAGCCGATGTTCAGGATCAAAACAGAACTGATGATGGCGAACTGGAAGGCTTGGTTCGAATCACGTTTCCTCCCTGTACTCCAGAAGTACTACGCACTGGTTTACAAACAACGTGGGTCATCTCCGAAACAAGGTTGGCGTCAGCTCTCTAATAGCAACAAAGCCGAAATAGCTAAAGTGCTGTCAGAGATCATGGTAATGGTTGATGGTGAAGAGACTTCTGTCTGGAACGTGAAAGCGAGTCCGTTCGAAGGTGCTCAATCCGGTACCGACAGCGATAGGGCTGATACTTACATTAAGTCGCTTAACAGCGATGCAATGAAAGCAGCGCTGCGCGACCCGGTAATGGAGGAGGCCGCTTCTAAAGCAATCGGTGAGCAACTCCAAGATAGGTCCGAAACCAGGAAACAAGCTGAACAGGCCCGTATTGCCGAACTGACTGCCATGCGTATGAAACGCAGGGAACAAGCCGGTAAGCAAGGTGGGACTTTCGGTGGAAACAACTACGCAAGCAATGGCTTTGCTAATGCCTTCCCTCCTGGTGGAATGGGAACTACCCCAGGGACAGTAGGTGCTGGTAGCGGTGGTCAGTATAGTGGTGGGTTCAGTGAAGGTTGGGAAATGGATCCCACTCTGAAGGCAGGTGATGACCAAGGTCTCTCCATGACTCCGGAACAGGGTGAACAACTCCTCCTTCAAGGTCTGCTCCGTGCTGGTATCACAGACAACAAGCAGATTGCTCTCGCTCTGGCACTTGCCAAGGTTGAAACGGGGAACTACAAGTCCACGGTAGAAAACACCAACTGGTCTGCACCAACCCTGAAGAAGTATTTCAGGAACATACCAGACATGGCTACAGCGGAAAAGGTAGCAGCAATGCCACCAGAACAACGTGCGATGTATGTGTATGGTAGAGCGCCCAAAGGTCCCACACTCGGTAACGAGAAGCCTGAGGATGGTTGGTTGTATCGTGGTCGTGGTTTGTTCCAGCTCACTGGTAAAGCCAACTACGAAAAGTACAAGCGTGAGACAGGGATAGACGTCGTAAGTAACCCACGACTGGTATCTGAAGATCCTAACGTTGTAGCAGACTCCGCTGTTCGTTACCTTCTGGGTAATAAAGCGATCAAGTCCATTGCGACGACTGGTGACTTCGATAGTGCTGTTCGTGGCATCAACGGTGGTAACTCTGTTCCATTTACTGACGAACGTCGTAAGGCATATACCGAATATCTTGCTAAACTCCAGAACGGTCAAATCAAAGCAGCGGGTCCGACAAAGACCTCCGACTTTGCACCGACCTCTGGCGGTGAAGATAAGATAGCGGATGTTCCTAACGCTGCCGATCAGAATGTCCCCAAGGCCGCTGAAGAGAAAGTCGCATCTACCAAGAAGACTCATAAGCAGGAAGTCGATGAGCTCTTGGATAAGAGCAGCGTTAATCAACAGAAAGCTGCGACAGCGTCTCCGCCGGTATCTCCTAGTGCGGCACCAACCGCCGCTGTTACTAACCCAGTTCCGAGTCCGGCACCAGTTCAGGCTCCGGCTCCCAAACCGAGTGCTCCGGCACCAGTAAGTCAACCGGCAGGTCCCACCACTGTTTCTAGTGTTGGTCCAGCCCCCAAACCAGCTCCCAAACAGACTGGCACGGGAACACAAGCAGTCAGTGATGAAGGAGCTCAGCAATTGTTGAGTGGGATCATCAGTCAGCTTGGTAGGTTGAATGACCTGATGGCCAGCCAAGGTAAAGGTGGTCGACCGAACACCGTTGGATTAGGTTAA

Genome Context

Tertiary structure

QDJ97392.1
ColabFold structure
Source ColabFold
pLDDT 50.5
Oligomeric state monomer

Literature

Title Authors Date PMID Source
Complete genome sequence of Aeromonas hydrophila bacteriophage D6 Rai,S., Tyagi,A., Kumar,N. and Singh,N. 2020-06-10 GenBank