UniProt accession
A0A1B2IDJ1 [UniProt]
Protein name
Putative tail fiber protein
RBP type
TF
Evidence GenBank
Probability 1,00
TF
Evidence Phold
Probability 1,00
Protein sequence
MAKKKNGVDDFNFDNLDLDWNDFDEPPRNKDKKRNPIMETGRTIKRSALSAIWPEGKRDQVILKGMPDSATDAYKGYQDAKSVAKDVYAHTKDELVKTERVIKNQARQLGPTMKKYLPDAITRRVDKWARSDEIQGGKYDPEQAGLDRMMAEVFNGQGGGGSEAPMSAQEQRDAQQQATENRIRDGVKDMKSDAMLNAVLSIARDTNSTAALTRGVLLNVERKQLELGYRTLFALQDLSKLKQTEFDRNTPALEAIVKNTALPDYAKEDFSEVRWAHVRRQAAEWMNPLKYAEGFMDSIRQKATKKISGAFSDGRGILETIMGMGVEDDFGMEDSSSLSPDARKKNGRDKATGWATKFLAKKLLGPLVEKGQGKSKAWLEDNPQAMSAIERAKFLARGATDGTISNSAIAGESEGFLANLFRMGNTLGIVDPMKRENVFLDERNVENLNRAAKFDRKFYLTVVESLPALLSEINKSIRRGYGEHADVEYDMTTRGITSRRDLADRVRKGLADDKGRQKTQESINGVVDYIDQKKTLEPKERQQLADYIESRAATGKSMDVDAIIKDQTQLFRYMGGNTARKVVDALKHVAAGTAGENWGLSNELHDRISSVQVHYKRRQEAVDQAATIYGERILRDAGIFNYDKKNNVFAADKDFVDPYTMFNDTRMGKTRTGRALTREQELQRKLQNGSATADYIRRKFGEDAGIEDTLSAGSALNDVAGGKGRYGGGITARQMARVLYGETETNLVDLLGGQDRKNASGETDRLIEAIRATNVTTYVQEILKHVKNMDEEGVLLASLEGGSGPDGAGTGGGDGDGPAPRGGGPRRRRIILGESGLLRRWGGILFDTAGSGFNLAKRGVLGAKDRLGKFGSWARGKFSAGDGPGIFSKLKGLASGSISGAFGSALEFGKGLLGVRDVYDERGKVVLQGKRLEAGEYWQLSEDGNHLHNPKTLDEIQLGMDILDNAGNVILSAADLAAAGKLSYYKGGKLQSLFKAMSHKSGNFLRKVIEAPKKVLDRLSPKAKSIKEWFTTAPDIYVKGETFPRMTSMLMRQGKYLLKATKTPVFSVKDITGPIVDDAGNDIITAQEMQNPDFKLVDKWGRDIKSPLQRIIGRVGSLLSRGKDLVMGIPDMLRKGAGRLKHLATNNPIANWFKGKGGGDFFSNNSLFGGLNTTGKKTNHILIRIYKLLNRRMPGEPEDEGWTEEMEKGAGGGKGVKDAFKSAQRFGRGVRARLNRRWGRRFRNGRAGVSDWFRGKRDGLMGWAGGVRDRFNNFSDSMRESEFDIGTRYDVERRLAGRDDETADFYRSRLHRKGKFSRNKFKDAIHDDITAAGEAGSEAINAAKGKAQSIGSKLLDRMNRMVNLQEVSWFNTMRSSLEENGAQEGFIRGMYAKFSRRMKFKEGGEKRDYLQFFRRKRADHEGASAGSGGRSGGKAKGIMDMFKSIPVIGPLVSILGTVASVMGTIAKWGILKPAKLLGQGAWWLASGGARMLGGAAMRGLIMPVATAAGAVVTAVGWPVILAVGAVVGLTWAAFKIATTTYTEYLDTLRLAQYGFQDYDKWSSDDGAKARYLEKQLKQYVSFNETGQATCRGLGAKEVQELAVGFGVAEDDKSGMLAFQAMMLQRFIPIYLRWLSALYAQERDIQLADVGNANKVSKSEMKSIFNKVQLTKDAPHLRALTDPRNVDRSLWQKFKDAVTFTSPDLLDADDVMDVQEDVLRGINRRMEDKKNRKFNKGALEARGIEESGVKEAFSALAATDKETRENAPRPNGWEDGTEQIQIQVDQFAVLNQKDVDALESIRFKTYGLKELDPAIVGQLKMLERFVLPNIDIKNASYKGKWTEAMDVIEPQGWKDPNRSEKLRLWFTSRFLPTFMFYVCGYHRFVPTGDPLNVKLTGGYLFELGLLTSRAYNMKADIRQSVWEVAINPFGQDPNMDPGSVSKELETLKVLSKEADLAVRNLLNDKKPMGKRAKWADKNTNTSFYQTKDDGESTFFTAEDQKAAKAAGGFGGGTFTGTPTDINQAVDAMGGAKNYAAISTGSVGIKLGDVEPGSYKQLAEKYPVGSLNSEERVKQMISDVARSMGVPPSVALGMAYAESKFNYKAKNPYASAAGLFQFINSTWDSQLGQYGRQFGIPGQLMASSGGQFDPHANTILGVQFIRDNIMKAQKDLGGKAPPPAVAYLYHFLGPGGGRQFMQAWAKNPNAPATAAPPVTRKVLAGNQSVFYTKQGRLRTLDEVIRELNGRMGAVTANEMTADPSKTKQAINGLSPGAPTSSSPAVSSGAAANDPSMEGTAAGAGQNLPADNENRRDGAMETKGAMAADNAVATMSNGPALPGGTASGSSDMSNVADEVAKQAAADGLSPKDVEKVKAGAAQRAAQTGGGGQAPLSSDMSPAAGGFSNATVADQQLQVTKDIKAILEDMRKLMQSGAPMGPSSPPSGPAPKSTQTYPQPAPSLNVSRKTG
Physico‐chemical
properties
protein length:2463 AA
molecular weight: 269052,52790 Da
isoelectric point:9,43670
aromaticity:0,07592
hydropathy:-0,54032

Domains

View on InterPro
A0A1B2IDJ1
1 2463 aa
STR 2070–2189 · RBD 2190–2248 ·

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

Phage
Erwinia phage vB_EamM_Huxley [NCBI] · taxon 1883373
Host No host information

Coding sequence (CDS)

Genbank protein accession
ANZ49333.1 [NCBI]
Genbank nucleotide accession
KX397368 [NCBI]
CDS location
range 204071 -> 211462
strand -
CDS
ATGGCAAAAAAGAAAAATGGTGTCGATGATTTTAACTTCGACAACCTTGATCTTGATTGGAATGACTTTGACGAGCCGCCTCGGAACAAAGACAAAAAACGTAACCCAATCATGGAGACCGGCCGCACGATTAAGCGTTCCGCGCTGTCAGCAATTTGGCCAGAAGGCAAACGCGACCAGGTCATTTTAAAGGGTATGCCTGATTCTGCCACCGATGCGTACAAGGGCTACCAAGACGCCAAATCGGTCGCAAAAGATGTTTACGCTCATACCAAAGACGAGCTGGTCAAGACAGAGCGTGTAATTAAGAACCAAGCCCGTCAGCTTGGCCCAACAATGAAAAAATATTTACCCGATGCGATTACGCGTCGTGTAGATAAATGGGCGCGCAGTGACGAGATTCAGGGCGGTAAATACGATCCTGAACAGGCTGGCTTAGACCGCATGATGGCGGAAGTCTTTAACGGTCAGGGTGGTGGGGGCAGTGAAGCCCCGATGAGCGCGCAAGAACAACGCGATGCGCAGCAACAAGCCACCGAAAATCGTATTCGTGATGGCGTGAAGGACATGAAGTCCGATGCGATGCTCAATGCCGTACTGAGTATTGCCCGTGACACGAACTCCACAGCAGCCTTAACCCGTGGGGTGTTGCTCAACGTTGAACGTAAGCAACTCGAACTGGGTTACCGTACCTTGTTTGCGTTGCAAGATTTATCCAAACTCAAACAGACCGAGTTTGACCGTAACACCCCGGCGCTGGAAGCCATCGTCAAAAACACCGCGCTGCCGGACTATGCCAAAGAGGACTTCTCAGAAGTTCGCTGGGCACACGTTCGTCGTCAAGCAGCTGAGTGGATGAACCCCCTGAAATACGCCGAAGGGTTCATGGACTCCATTCGTCAGAAAGCCACGAAGAAAATCTCGGGTGCCTTCTCTGATGGTCGTGGGATTCTTGAGACAATAATGGGGATGGGTGTTGAAGATGACTTTGGGATGGAAGACAGTTCCTCCCTGTCACCGGATGCCCGTAAGAAGAACGGCCGTGACAAGGCCACCGGTTGGGCCACCAAGTTTCTTGCCAAGAAGCTGTTGGGGCCACTGGTTGAAAAAGGCCAAGGGAAATCCAAGGCGTGGTTAGAAGATAACCCGCAGGCGATGTCCGCGATTGAGCGTGCAAAGTTCCTTGCGCGTGGTGCCACCGACGGGACAATTTCCAACTCCGCGATTGCGGGAGAAAGCGAAGGGTTCTTAGCTAACCTGTTCCGCATGGGGAACACCCTCGGTATCGTCGACCCCATGAAACGGGAGAACGTGTTCCTCGATGAGCGTAACGTCGAGAACCTAAACCGTGCGGCGAAGTTTGACCGCAAGTTCTATCTCACCGTGGTCGAATCACTTCCTGCGTTGCTGTCTGAAATCAACAAATCGATTCGTCGTGGTTACGGCGAACACGCTGACGTTGAATACGACATGACAACCCGCGGCATCACCAGTCGCCGCGATTTAGCTGACCGTGTCCGTAAAGGACTGGCGGATGATAAAGGGCGTCAGAAGACGCAGGAGTCTATTAACGGTGTCGTTGATTACATCGACCAGAAGAAAACGCTTGAACCGAAAGAGCGTCAACAACTGGCGGACTATATCGAGTCGCGTGCTGCGACCGGCAAGTCCATGGACGTCGATGCCATCATCAAAGACCAAACCCAACTCTTCCGTTACATGGGCGGTAACACAGCCCGTAAGGTTGTCGATGCCCTGAAACATGTCGCGGCCGGAACCGCGGGTGAGAACTGGGGCCTGTCGAATGAGTTGCACGATCGTATCTCGTCAGTGCAGGTGCATTACAAACGCCGTCAGGAAGCTGTTGACCAAGCCGCGACCATTTACGGGGAACGTATCCTCCGTGACGCCGGTATCTTTAACTACGACAAGAAGAACAACGTCTTTGCCGCAGATAAAGATTTCGTTGACCCGTACACGATGTTCAATGACACCCGCATGGGTAAGACCCGTACCGGTCGTGCATTGACCCGTGAGCAAGAACTGCAACGCAAATTGCAAAACGGTTCTGCTACTGCGGATTACATCCGTCGTAAGTTCGGGGAAGATGCTGGGATCGAAGACACCTTATCAGCCGGTTCCGCATTGAATGATGTGGCTGGAGGTAAGGGACGTTACGGTGGTGGCATTACAGCCCGTCAAATGGCGCGTGTGCTCTACGGAGAGACCGAGACGAACTTAGTCGACCTGTTAGGTGGTCAAGACCGTAAAAACGCGTCAGGAGAGACTGACAGGCTTATAGAGGCTATCCGTGCAACGAACGTAACCACCTACGTCCAGGAAATCCTCAAACATGTGAAGAACATGGATGAAGAGGGTGTGTTATTAGCATCACTGGAAGGTGGTAGTGGTCCTGACGGTGCCGGTACTGGCGGTGGTGATGGTGATGGTCCGGCCCCACGCGGGGGTGGTCCACGTCGTCGACGTATCATACTCGGTGAGTCAGGTTTGCTGCGTCGCTGGGGCGGTATTCTGTTCGATACGGCTGGCAGTGGGTTCAATCTGGCCAAGCGCGGTGTCTTGGGTGCCAAAGACCGCTTAGGGAAATTCGGCAGTTGGGCAAGGGGCAAGTTTTCCGCTGGCGACGGTCCGGGTATCTTCTCCAAACTCAAAGGCTTAGCGTCCGGTAGCATCTCGGGTGCCTTTGGTTCCGCGCTGGAATTCGGGAAGGGTTTGCTTGGCGTGCGTGATGTGTACGACGAGCGGGGCAAAGTGGTCTTGCAAGGGAAACGTTTAGAAGCTGGGGAATACTGGCAGCTGAGCGAAGACGGCAACCACCTTCACAATCCGAAGACGTTGGATGAGATTCAGTTGGGGATGGACATCCTTGACAACGCCGGTAACGTGATTCTCTCTGCGGCTGATTTAGCGGCAGCGGGTAAACTCAGTTACTACAAAGGCGGGAAACTCCAGTCGCTGTTCAAAGCGATGTCCCACAAATCCGGTAACTTCCTGCGGAAAGTCATCGAGGCACCGAAGAAGGTACTCGACCGCTTATCCCCGAAAGCCAAGAGCATCAAAGAGTGGTTCACCACGGCACCGGACATCTACGTGAAAGGGGAAACCTTCCCGCGTATGACGTCTATGCTGATGCGTCAAGGCAAGTACCTGCTCAAAGCCACGAAGACCCCGGTCTTCTCTGTGAAGGACATCACAGGGCCAATCGTGGACGATGCCGGTAATGACATTATTACCGCACAAGAGATGCAGAACCCGGACTTCAAACTGGTGGACAAATGGGGACGTGACATCAAGTCACCGCTTCAGCGTATCATCGGTCGGGTAGGTAGTCTGTTGTCTCGCGGCAAAGACCTTGTGATGGGTATCCCGGATATGCTCCGTAAAGGGGCCGGGCGACTCAAGCATCTGGCAACCAACAACCCGATTGCCAACTGGTTTAAAGGGAAAGGAGGAGGCGACTTCTTCAGCAACAACTCCCTGTTCGGTGGTCTGAACACCACCGGCAAGAAAACCAACCACATCCTTATCCGTATCTACAAACTCTTGAACCGCCGTATGCCGGGGGAACCAGAGGATGAAGGTTGGACTGAGGAAATGGAAAAGGGTGCCGGGGGTGGAAAGGGTGTGAAGGATGCATTCAAATCCGCGCAGCGTTTTGGTCGTGGGGTAAGAGCCCGTCTGAACCGTCGTTGGGGTCGTCGTTTCCGTAACGGCCGTGCCGGTGTGTCCGATTGGTTCCGGGGCAAACGTGACGGCCTCATGGGTTGGGCAGGTGGTGTTCGTGACCGCTTTAACAACTTCAGCGATTCCATGCGCGAGTCTGAATTTGACATCGGTACACGCTACGATGTGGAACGCCGCTTAGCGGGCCGTGATGATGAGACCGCCGATTTCTATCGCAGTCGACTTCACCGTAAAGGCAAGTTCAGCCGGAACAAGTTCAAAGATGCGATCCACGACGATATCACCGCAGCCGGTGAAGCCGGTTCAGAAGCGATCAATGCGGCCAAAGGGAAAGCCCAGTCTATCGGGTCGAAACTCTTAGACCGTATGAACCGGATGGTGAACCTGCAAGAAGTGAGCTGGTTTAACACCATGCGTTCGTCGTTGGAAGAGAACGGTGCTCAGGAAGGGTTCATCCGCGGCATGTATGCCAAGTTCTCGCGACGTATGAAGTTCAAAGAGGGGGGTGAAAAACGCGACTACCTCCAATTCTTCCGCCGTAAGCGTGCTGACCACGAAGGGGCCTCTGCGGGCTCTGGTGGTCGTTCCGGTGGAAAGGCCAAAGGGATTATGGACATGTTCAAGTCCATCCCGGTCATTGGGCCATTGGTGAGCATTTTGGGTACGGTTGCGTCAGTCATGGGAACCATTGCAAAATGGGGCATCCTGAAACCGGCAAAACTGTTAGGCCAAGGTGCATGGTGGTTGGCGAGCGGGGGTGCACGTATGCTCGGGGGTGCCGCGATGCGTGGGCTTATCATGCCAGTTGCGACAGCGGCGGGTGCGGTAGTCACCGCGGTCGGTTGGCCGGTGATTCTGGCCGTGGGTGCAGTGGTTGGCCTGACATGGGCTGCCTTTAAGATTGCGACCACGACTTACACCGAATACCTCGATACTTTACGTCTGGCACAGTACGGTTTCCAAGACTACGATAAGTGGTCGTCGGACGACGGTGCTAAAGCCCGCTACCTCGAGAAACAGTTGAAGCAGTACGTGAGCTTCAATGAAACGGGACAAGCCACTTGTCGTGGTTTAGGCGCGAAAGAAGTGCAGGAGTTAGCCGTTGGGTTTGGTGTGGCCGAGGATGACAAGTCCGGGATGCTCGCCTTCCAAGCGATGATGCTCCAGCGTTTCATTCCGATTTATCTGCGTTGGTTGTCTGCGCTCTATGCCCAAGAGCGTGATATCCAGTTAGCGGATGTCGGGAACGCAAACAAAGTCAGCAAGTCCGAGATGAAGTCTATCTTCAACAAAGTCCAGCTCACCAAAGATGCCCCACATCTGCGTGCGCTGACTGACCCTCGGAATGTTGACCGGAGTTTGTGGCAGAAGTTTAAGGACGCGGTGACCTTCACCTCGCCTGACTTACTCGACGCCGATGATGTCATGGACGTGCAGGAAGACGTGCTCCGTGGCATTAACCGCCGTATGGAAGACAAGAAGAACCGGAAGTTCAACAAAGGCGCACTGGAAGCCCGAGGCATTGAAGAGTCCGGTGTGAAAGAAGCCTTCAGCGCACTTGCCGCCACCGACAAAGAAACCCGCGAGAACGCCCCACGTCCAAACGGGTGGGAGGACGGTACGGAGCAAATTCAGATTCAGGTCGATCAGTTCGCGGTCTTGAATCAGAAAGATGTGGATGCCCTTGAATCGATTCGTTTCAAAACGTACGGTTTGAAGGAACTCGACCCTGCGATTGTAGGTCAGCTGAAAATGCTGGAACGCTTCGTGTTGCCGAACATCGACATCAAGAACGCATCGTACAAAGGGAAATGGACAGAAGCGATGGACGTTATCGAACCGCAAGGGTGGAAAGACCCGAACCGGTCTGAGAAGTTGCGTCTGTGGTTCACCAGTCGTTTCCTGCCGACCTTTATGTTCTACGTCTGTGGTTACCATCGGTTCGTGCCAACGGGTGATCCGTTGAATGTGAAACTGACCGGGGGTTATCTGTTTGAGCTGGGCTTACTGACCAGCCGTGCTTACAACATGAAAGCGGATATCCGACAGTCAGTCTGGGAAGTGGCGATTAACCCGTTTGGTCAAGACCCGAACATGGACCCCGGTTCGGTCTCGAAAGAACTGGAAACCTTGAAGGTGCTCTCGAAAGAGGCTGACCTTGCGGTGCGCAACTTACTCAACGACAAAAAGCCGATGGGCAAACGTGCGAAGTGGGCAGACAAGAACACCAACACGAGCTTCTACCAGACCAAGGACGACGGTGAGTCGACGTTCTTTACGGCAGAAGACCAGAAGGCCGCAAAAGCAGCAGGTGGGTTCGGGGGCGGTACTTTCACCGGTACACCAACGGACATCAATCAAGCTGTGGATGCGATGGGGGGTGCGAAGAACTATGCGGCTATTTCCACGGGCAGTGTCGGTATCAAGCTCGGGGATGTGGAACCGGGTAGTTATAAGCAGTTGGCAGAGAAGTACCCGGTTGGCTCACTGAACAGTGAGGAGCGCGTCAAACAGATGATATCCGATGTTGCGCGTTCCATGGGGGTACCACCGAGTGTGGCATTGGGGATGGCGTATGCCGAGTCGAAGTTTAACTACAAGGCGAAAAACCCGTATGCGTCTGCCGCTGGTCTCTTCCAGTTCATTAACTCCACTTGGGATTCACAACTGGGGCAATATGGACGACAGTTTGGTATTCCTGGACAGCTGATGGCCAGTTCAGGGGGGCAATTCGACCCACACGCGAACACCATTCTGGGTGTGCAGTTCATTCGTGATAACATCATGAAAGCCCAGAAAGACTTGGGTGGTAAGGCACCACCGCCTGCGGTGGCATACCTCTACCACTTCTTAGGTCCGGGTGGTGGGCGTCAGTTCATGCAAGCATGGGCGAAGAACCCGAACGCACCAGCCACTGCGGCACCGCCGGTTACCCGCAAAGTGTTGGCTGGGAACCAGAGTGTGTTCTACACCAAACAAGGAAGACTTCGTACGTTGGATGAGGTCATTCGTGAATTGAATGGCCGTATGGGTGCGGTAACTGCGAACGAAATGACGGCTGATCCGTCGAAGACAAAACAAGCTATTAATGGGTTGTCTCCGGGCGCGCCAACGTCATCAAGTCCTGCGGTTTCCTCGGGTGCTGCTGCAAACGACCCGTCCATGGAAGGTACTGCGGCCGGTGCAGGCCAAAACCTGCCCGCCGATAACGAAAACCGCCGAGACGGGGCAATGGAGACAAAAGGGGCAATGGCCGCAGACAATGCAGTCGCCACTATGTCGAACGGCCCCGCACTGCCGGGTGGTACGGCGTCAGGCAGTTCCGATATGTCAAACGTTGCCGACGAGGTTGCGAAACAAGCGGCTGCGGATGGTCTCTCTCCGAAGGATGTGGAGAAGGTCAAAGCAGGCGCGGCACAGCGCGCTGCGCAGACTGGAGGCGGAGGTCAAGCACCATTGTCTTCAGATATGTCTCCAGCCGCTGGCGGGTTCTCGAACGCCACGGTTGCGGATCAGCAACTGCAAGTCACGAAGGATATCAAAGCGATTCTGGAGGACATGCGGAAACTGATGCAGTCGGGTGCACCGATGGGGCCATCCAGCCCACCGAGTGGCCCTGCACCGAAGTCAACGCAGACATACCCACAACCAGCCCCAAGTCTGAACGTCTCACGTAAGACGGGCTAA

Genome Context

Tertiary structure

A0A1B2IDJ1
ColabFold structure
Source ColabFold
pLDDT 45.3
Oligomeric state monomer