Genbank accession
WVQ00135.1 [GenBank]
Protein name
tail fiber protein
RBP type
TF
Evidence Phold
Probability 1,00
Protein sequence
MPIQKNLNVAPYYDDFDPNKNFYKVLYKPGHPVQARELTTQQTITADQIEQLASRFLKEGDNIIPGEVTYLAPQSYVRLSSFTQGVSAQDFVGYNLTGVTSGVVAEVVFAVEATEDDDATLYVSYSGSGGDGATSTFLEGEVLESTNPNNLTATVGVNTISKPITSNPLGQGALYKVSEGSFYVDGMMVRNTEQTIVVGKFTHRPTAEVGFLVTEEVVTSSEDASLLDNSQGSSNFAAPGADRLKITLTLVAREQNAVDPNFIRLSTITQGNILSTPSETVKWDWLYEILARRTYDESGDYIVTEFPVTTMEYWNSDGEEKGLYDADAQTGLYPAVPGDADQTGLTYNQANDVYVLNVSPGKAYVKGFEVEYKQPNFMYGDKARSTAFRADALTQFTEGYNLNITNLYGTPDFTNITGEGTSVAFDDIIIYRNFIDGFVGEAEDGNGRPLNIGNAPWKTFHIIADGDIGSNPTGYVEVYKEGNTCVVNASVDLVRGDAIGDATILAATAIEAIPAGVMRPRYLTPDGTVDLGDGFYGYNSTYNMGVMTSVYFTELDVVGINNPTVPWTVGELVRGEDSGALGTVESGSTTTNLLVSNVVGSFLPGEEVIQTQSATVTKVSRILRPGEVSEFVFTNKGAGGSTIDLSSQTAVTLSALGSTKTLTAAAGDIVVSSSGISITETGRSKLTNFPLPTLEQNLGITYELSTVPSAVTGYAVSRGSNLTNTLQLAKSFYSPLADTNDFSADISIQNASDSEITDVANGSGFSAAAGSNTLLCDVFSGDPSQQLIPGDLITFVDDSGNTINRIVQYATKPVGYGTKRSRARIFLTTTVPNTVSSNTVQRIRVRTKGTPTETLLYTLPQQVVATLETNPDATEISYQVKKEFIVNVPSGSSTITLTTGKNNETFIASDSQTTIAIAENISNATDPTNLEGRVLVPSNIDVTQDDGRKVIYTIPNPLAYSVKMKVIAPIFVANAISKRKILRSNQTITVSAADAAKALISLGKADATAVHSITQSGKDISDNYTFDNGQRDNIYDIARVVLKTGRPPATGEVQIVFDYFEHSGEGDFFSVDSYTADDTFNYANIPTYTPTFVVGKKGVFEKNKNQQKIQLRDAIDFRPVVSASTSVIASVTDGTDSQSSTNYRDSSNGGDGFVPRIPIAESLFRCDMEYYLARYDSLFLSSNGSMALVAGEDSIDPEPVPDLANSIRLYDVFLPAYTFTLDDIYIRKFNYKRYQMKDIAVIDRRVERLEEVVTLSLLEQAALNTSVRDAVTGLDRFKNGIVVDSFRDHARGEVGTDQYRCSIDSENDQLRAPYFIDQAELEEKAQTEDARFNANYVIKDGIATLTHENEFYLNQPHATRWINLQPYMVFTYDGELELNPPIDTFADQNRLPTLVIEDNAVFDATSGLANAMNRGGMGTVWGRWNTNGNTRTRTQTTTTINTRTARRERTSYGDRVTDVQLAETMRSIAVEFRGTNLKPETRYYAFFDEIEVSNWISPDTIQTNFDDGLGRYQGAPNRNRGGFGLPIMSDSVGTIQGIFIVPNGRAPVEGSRYNGRMRDLQYRSSGTSRSFNTGTKVLRFTDNPDNPEDLDLVGGICEADFTSSGVISDVQQTVVSTRLPAFATRTRVTDRETLQIPRPVINNITNVTNNVTNVTNVTNRTTVVNNNITRVERPQRTGGGDPVAQSFYISFPDDIPPAEGIFITELDLYFRTKDPVHGVTAYLVPTEAGQRPTDQIIPHGSVTKKPNTTLRVVCTSLDGNTTQLATGTEVRGSTSGAVGTLRSSTTFRSPSNNATENVNNFVYTLIIDQYDGDFVAGEELIPLVTPRLADKFFVASDEVEVTRVDLQTFGENYTEATVTFSEPELPGGTAASASVTIADGKIYQIQLEDPGSGYTKTPTISITGDGTGATAGVRSKDSIPAVEMGITTSDDATLKTTFKFPAPVFLKADTYYAFVAYAPASLNYTIWTAKLGENLVGTETRMTTQPLLGSMFKSQNQGLWTEDQTQDVKFDLRRAKFDTSRPGVVTLQNAPLGLRGLEIDPIETNTLGSNDDSDVFGDNPKIVRIYHHMHGLAVGDLVAIDGVVNNPGGIPNEEFNTLHTVLAADFETFTIKTTTAATESVKDGGHLVACSYNRPYEVINTYTGAMVMTGTSLDAYTRSVQAAGITNYNVANAYRKNSYGATKLSESFYYGDAQQVAGYLNEVNNTLKLGGERSLEEAIVLSSSTDYLSPVIDVTRTNANLIRNLIDNPSVDGDIYGVTSRTVTFSGDVSPTTLTVGDLAEFTQGALTSNLTVREIDTSANKITFTGQYVGSLTTSSTFSDATLSGLTIVKVSTGTSGSFYPETTNAGSTWAKWVSKLFVFENPCDGLELKLSAIFYDTSSIKVYYRPRNIGFDGELANVNWIPFNGTGLPNQVEKIEPRSSEDVNPTLIPDEDYQSLTFNIQDVPKFDGVAIKIVMTANNPAQAPLIDDLQLITTE
Physico‐chemical
properties
protein length:2477 AA
molecular weight: 269052,44670 Da
isoelectric point:4,60159
aromaticity:0,08801
hydropathy:-0,26605

Domains

View on InterPro
WVQ00135.1
1 2477 aa
STR 175–312 · STR 1140–1389 · STR 2057–2133 ·

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
Synechococcus phage MA10 [NCBI] · taxon 3117465
Host

Coding sequence (CDS)

Genbank protein accession
WVQ00135.1 [NCBI]
Genbank nucleotide accession
PP110483.1 [NCBI]
CDS location
range 140428 -> 147861
strand -
CDS
ATGCCAATCCAGAAGAACTTGAACGTCGCTCCTTACTATGACGACTTCGACCCAAACAAGAACTTTTACAAAGTTCTTTATAAGCCAGGTCACCCAGTCCAAGCAAGGGAACTGACGACGCAGCAGACTATCACTGCTGACCAAATTGAGCAGCTTGCTTCTCGCTTCCTGAAAGAAGGTGATAATATCATTCCTGGTGAGGTTACCTACCTCGCACCGCAGTCTTACGTCCGTCTGTCCTCCTTTACCCAAGGCGTAAGTGCTCAAGACTTTGTCGGTTACAACCTGACCGGCGTTACTTCTGGTGTCGTTGCTGAAGTCGTCTTTGCTGTTGAAGCAACCGAAGACGACGACGCTACTTTGTATGTGTCCTACAGTGGTTCCGGTGGCGACGGTGCTACTTCCACCTTCCTGGAAGGTGAAGTTCTGGAGTCCACCAACCCCAACAACCTGACCGCTACTGTTGGTGTCAACACCATCAGTAAGCCCATCACCTCCAACCCTTTGGGTCAAGGTGCCCTCTACAAGGTTTCTGAGGGTTCCTTCTATGTTGACGGCATGATGGTCCGCAACACAGAGCAGACTATCGTTGTTGGTAAGTTCACCCACCGCCCTACCGCCGAGGTTGGTTTCCTTGTAACCGAGGAAGTCGTTACTTCTTCCGAAGACGCTTCACTTCTGGACAACTCCCAGGGTTCCAGCAACTTCGCTGCTCCCGGTGCTGACCGTCTGAAGATCACACTGACCCTGGTCGCCCGTGAGCAAAACGCTGTTGACCCTAACTTCATTCGTCTGAGCACGATTACTCAGGGCAACATCCTCTCCACCCCCTCCGAGACTGTCAAGTGGGACTGGCTCTATGAAATTCTTGCTCGTCGTACCTATGACGAGTCCGGTGACTACATCGTCACCGAGTTCCCTGTAACTACTATGGAGTACTGGAACTCCGACGGAGAAGAGAAAGGTCTCTATGACGCCGACGCACAAACTGGCCTCTACCCTGCTGTTCCTGGTGACGCAGACCAGACGGGTCTAACCTACAACCAAGCGAACGACGTTTATGTACTGAACGTATCCCCCGGTAAGGCATATGTAAAAGGTTTCGAAGTTGAGTATAAGCAACCCAACTTTATGTACGGCGACAAGGCAAGGAGTACCGCCTTCCGTGCTGACGCTCTTACCCAGTTCACCGAGGGTTACAACCTCAACATCACCAACCTGTACGGCACCCCCGACTTCACCAACATCACCGGTGAAGGTACTTCGGTTGCGTTCGATGACATCATTATCTACCGTAACTTTATTGACGGTTTCGTAGGTGAAGCGGAAGACGGCAACGGTCGTCCCCTGAACATCGGTAACGCTCCCTGGAAAACTTTCCACATTATTGCTGACGGAGATATCGGTTCCAACCCAACCGGTTATGTTGAGGTCTATAAGGAAGGTAACACCTGTGTTGTTAATGCTTCTGTTGACCTGGTCCGTGGTGATGCCATCGGTGACGCAACTATTCTCGCAGCCACCGCTATTGAAGCGATCCCTGCTGGTGTTATGCGCCCTCGCTACCTGACCCCCGACGGTACTGTTGATCTGGGTGACGGTTTCTACGGTTATAACTCCACCTATAACATGGGTGTTATGACCTCGGTCTATTTCACTGAACTGGACGTTGTTGGCATCAACAACCCAACCGTTCCTTGGACTGTCGGTGAGTTGGTTCGTGGTGAAGACTCCGGTGCTCTTGGTACTGTTGAGTCTGGCTCTACCACCACCAACCTGCTCGTATCCAACGTTGTCGGTTCTTTCCTCCCCGGTGAGGAAGTTATCCAAACCCAGTCTGCAACAGTAACCAAGGTTTCGCGCATCCTCCGTCCCGGTGAGGTTTCTGAATTCGTATTCACCAACAAGGGTGCTGGTGGATCCACCATTGACCTTTCTTCCCAGACTGCTGTAACCCTATCTGCCCTGGGTTCCACTAAGACCCTGACTGCCGCCGCCGGTGACATCGTCGTTTCTTCTAGCGGAATTAGCATTACCGAGACCGGTCGCTCTAAACTGACCAACTTCCCTCTGCCTACTCTTGAGCAGAACCTGGGTATTACCTACGAACTCAGCACCGTTCCTTCTGCTGTTACCGGTTATGCCGTATCCCGTGGATCTAACCTGACCAACACTCTGCAGCTCGCTAAGTCTTTCTACTCACCTCTGGCCGATACGAACGACTTCTCTGCTGACATCTCTATCCAGAATGCCTCTGACTCTGAGATTACCGACGTCGCTAACGGTTCCGGTTTCAGTGCCGCCGCTGGCAGCAACACCCTTCTGTGCGACGTGTTCTCTGGCGACCCCAGCCAGCAGCTAATCCCAGGTGACCTGATCACCTTCGTCGATGACAGCGGCAACACTATCAACCGTATTGTTCAGTACGCCACCAAGCCCGTTGGTTATGGTACTAAGCGTAGCCGTGCTCGTATCTTCCTGACCACCACTGTTCCTAACACGGTCAGCAGCAACACCGTTCAACGTATCCGCGTTCGCACCAAGGGCACCCCTACCGAGACCCTCCTGTATACTCTCCCCCAACAGGTTGTTGCTACTCTGGAAACCAACCCTGACGCCACTGAGATCAGCTACCAGGTTAAGAAGGAGTTCATCGTTAACGTCCCTTCAGGTTCTTCCACCATCACCCTGACGACAGGTAAGAACAACGAGACCTTTATTGCTAGCGACAGCCAGACCACTATTGCTATTGCCGAGAACATCTCTAACGCAACTGACCCCACCAACTTGGAAGGTCGTGTTCTGGTTCCTAGTAACATCGACGTAACTCAGGACGACGGTCGTAAGGTTATCTACACAATTCCTAACCCCCTGGCCTATTCGGTCAAGATGAAGGTTATTGCACCTATCTTCGTCGCTAACGCTATCTCCAAGCGTAAGATCCTCCGTTCCAACCAGACTATCACTGTTTCTGCTGCTGACGCAGCTAAGGCTCTGATCTCCCTGGGTAAGGCTGACGCCACTGCCGTTCACTCTATCACCCAGAGCGGTAAGGACATTAGCGACAACTATACCTTTGATAATGGTCAGCGCGATAACATCTATGATATTGCTCGTGTTGTTCTGAAGACCGGTCGTCCTCCTGCTACCGGCGAAGTCCAAATCGTCTTTGACTACTTTGAGCACTCCGGTGAAGGTGACTTCTTCTCTGTTGACTCCTACACCGCTGACGACACCTTCAACTACGCCAACATCCCCACCTACACTCCTACTTTCGTTGTAGGTAAGAAGGGCGTCTTTGAGAAGAACAAGAATCAGCAGAAGATCCAACTGCGCGACGCTATTGACTTCCGTCCTGTTGTAAGTGCCAGCACTTCTGTTATTGCCTCCGTAACTGACGGAACTGACTCCCAGAGCTCCACCAACTATCGCGACAGCTCCAACGGTGGTGACGGCTTCGTTCCCCGTATTCCTATCGCCGAGAGTCTGTTCCGCTGCGACATGGAGTATTACCTCGCCCGTTACGACTCACTGTTCCTGAGCTCCAACGGCTCCATGGCTCTTGTTGCAGGTGAAGACTCTATCGATCCAGAACCCGTACCCGACCTGGCGAACTCTATCCGTCTGTATGACGTCTTCCTGCCCGCTTACACCTTCACGCTGGACGACATCTACATCCGTAAGTTCAACTACAAGCGCTACCAGATGAAGGACATCGCGGTTATTGACCGCCGTGTTGAGCGTCTGGAAGAAGTTGTAACCCTGTCTCTGCTGGAGCAGGCAGCACTCAATACTTCTGTTCGTGACGCTGTAACTGGACTCGATCGCTTCAAGAACGGTATCGTTGTTGATTCCTTCCGCGACCATGCGCGTGGTGAGGTCGGAACCGACCAGTATCGTTGTTCCATTGACTCTGAGAACGACCAACTCCGTGCTCCTTACTTCATCGACCAGGCTGAACTGGAAGAGAAGGCACAGACCGAAGACGCCCGCTTCAACGCCAACTATGTCATTAAGGACGGTATCGCTACTCTGACTCACGAGAATGAGTTCTACCTGAACCAGCCTCACGCTACCCGTTGGATCAACCTCCAGCCTTACATGGTCTTCACCTATGACGGTGAGTTGGAACTGAATCCTCCTATTGATACTTTTGCCGACCAGAACCGTCTACCCACTCTGGTTATTGAAGACAACGCTGTATTTGACGCAACTAGTGGTCTAGCCAATGCTATGAACCGTGGCGGTATGGGAACAGTATGGGGCCGCTGGAACACCAACGGTAATACCCGTACCCGTACCCAGACCACTACCACAATCAACACCAGGACTGCTCGTCGCGAGCGCACCTCTTACGGTGACCGCGTAACCGACGTCCAGTTGGCTGAAACTATGCGTTCTATCGCGGTCGAGTTCCGCGGCACGAACCTGAAGCCCGAGACCCGTTACTACGCTTTCTTTGACGAGATTGAGGTTTCTAACTGGATCTCCCCCGACACCATCCAGACCAACTTCGACGACGGTCTCGGACGCTACCAGGGTGCCCCTAACCGTAACCGTGGCGGATTCGGTCTGCCTATTATGAGTGATAGTGTTGGTACTATTCAGGGTATCTTCATTGTCCCTAACGGCCGAGCTCCTGTTGAGGGTTCTAGGTACAACGGAAGGATGCGTGACCTCCAGTATCGTTCCTCCGGCACTTCCCGCTCGTTCAACACCGGAACCAAGGTTCTGCGTTTCACCGACAACCCCGACAACCCAGAAGATCTGGATCTGGTTGGTGGCATCTGTGAGGCGGACTTCACTTCCTCTGGTGTTATCTCCGACGTTCAGCAGACTGTCGTTTCTACTCGTCTCCCCGCTTTCGCTACTCGCACCCGAGTAACTGACCGCGAGACTCTGCAGATCCCACGTCCCGTTATCAACAACATCACGAACGTTACCAATAACGTAACGAACGTAACGAACGTAACGAACCGCACCACGGTTGTTAATAACAACATCACCCGTGTAGAGAGACCCCAACGAACTGGTGGTGGCGACCCTGTTGCACAGTCGTTCTACATCTCCTTCCCAGACGACATTCCACCCGCAGAAGGTATCTTCATCACAGAACTGGATCTTTACTTCCGAACGAAGGATCCCGTCCATGGCGTCACTGCCTATCTGGTTCCCACCGAAGCAGGTCAGCGACCTACCGACCAGATCATCCCCCACGGTTCTGTAACCAAGAAACCAAACACCACTCTACGTGTTGTTTGTACCAGCCTTGACGGAAACACCACCCAGCTCGCTACCGGCACTGAGGTTCGTGGTTCTACTTCCGGTGCTGTCGGTACGCTAAGGTCTTCTACGACTTTCCGCTCACCTTCAAACAACGCCACCGAGAACGTCAACAACTTTGTCTACACTCTGATTATCGATCAGTATGACGGTGACTTCGTTGCTGGTGAGGAACTGATTCCTCTCGTAACTCCTCGCCTGGCGGACAAGTTCTTCGTTGCCTCCGACGAAGTTGAAGTAACCCGAGTAGATCTTCAGACCTTCGGTGAGAACTACACGGAAGCAACCGTTACTTTCTCCGAACCCGAACTGCCCGGTGGTACTGCTGCTTCCGCTAGCGTAACTATCGCTGACGGTAAGATCTACCAGATCCAACTTGAGGACCCAGGTTCAGGTTACACCAAGACCCCAACCATCTCTATCACTGGTGACGGCACGGGCGCAACCGCAGGCGTAAGGTCCAAGGATTCTATCCCCGCCGTTGAGATGGGTATTACCACCTCCGACGACGCAACTCTGAAGACCACCTTCAAGTTCCCCGCTCCTGTATTCCTAAAAGCAGACACTTACTACGCTTTCGTTGCTTACGCTCCCGCTTCGCTGAACTACACGATCTGGACCGCTAAACTGGGTGAGAACCTGGTTGGCACTGAGACCAGGATGACTACCCAGCCACTCCTCGGTTCTATGTTCAAGTCGCAGAACCAGGGTCTCTGGACCGAAGACCAGACGCAAGACGTTAAGTTTGACCTCCGCAGGGCCAAGTTTGACACCTCCCGTCCTGGTGTTGTTACTCTCCAAAACGCACCTCTTGGTCTCAGGGGTCTGGAGATCGATCCTATTGAAACCAATACCCTCGGCTCTAACGACGACAGCGACGTCTTCGGCGACAACCCCAAGATCGTCCGTATCTACCACCACATGCACGGTCTGGCGGTCGGTGACCTGGTTGCTATCGACGGTGTTGTCAACAACCCAGGTGGAATTCCCAACGAAGAGTTCAACACACTTCACACCGTTCTGGCTGCTGACTTCGAGACCTTCACTATCAAGACGACGACGGCTGCGACCGAAAGCGTCAAAGACGGTGGTCACCTGGTCGCTTGTTCCTACAACCGCCCCTACGAAGTTATCAACACTTACACGGGAGCGATGGTTATGACCGGAACTTCACTGGACGCCTACACCCGAAGCGTCCAGGCTGCTGGTATTACCAACTACAACGTCGCTAACGCCTACCGCAAGAACAGCTACGGTGCCACTAAACTCAGTGAGTCCTTCTACTACGGTGACGCACAGCAAGTCGCTGGTTACCTGAACGAGGTCAATAACACCCTCAAGCTCGGCGGAGAAAGGTCACTGGAAGAGGCTATTGTTCTCAGTTCCTCTACCGACTACCTCTCACCTGTCATCGACGTAACGCGAACCAACGCTAACCTGATCCGTAACCTGATCGACAACCCCTCTGTTGACGGTGACATCTACGGCGTAACCAGCAGGACCGTTACTTTCTCCGGTGACGTTTCTCCAACTACCTTGACTGTCGGCGACCTGGCTGAGTTCACACAAGGCGCTCTGACCTCCAACCTGACGGTTCGTGAGATCGACACCAGTGCGAACAAGATCACCTTCACCGGCCAATACGTCGGAAGTCTCACCACAAGCTCCACCTTCTCGGACGCAACGCTGAGCGGTCTGACTATCGTCAAGGTCAGCACCGGAACCTCTGGAAGCTTCTACCCAGAGACCACCAACGCAGGCTCAACCTGGGCGAAGTGGGTATCCAAACTGTTTGTCTTCGAGAACCCTTGTGACGGTCTGGAACTGAAACTGTCGGCTATCTTCTACGACACCTCAAGTATCAAGGTTTACTACCGACCCAGGAACATCGGCTTCGACGGCGAACTGGCAAACGTCAACTGGATCCCCTTCAACGGAACCGGACTTCCCAACCAAGTCGAGAAGATCGAACCTCGTTCCTCGGAAGACGTCAACCCAACGCTTATCCCCGACGAAGACTATCAGTCACTGACCTTCAATATTCAGGACGTGCCCAAGTTCGACGGAGTAGCTATCAAGATCGTCATGACGGCGAACAACCCAGCACAAGCTCCACTAATCGACGACCTACAACTTATCACCACCGAGTGA

Genome Context

Tertiary structure

WVQ00135.1
ColabFold structure
Source ColabFold
pLDDT 75.5
Oligomeric state monomer