Genbank accession
WAP91190.1 [GenBank]
Protein name
tail spike protein
RBP type
TF
Evidence Phold
Probability 1,00
TSP
Evidence DepoScope
Probability 1,00
TSP
Evidence RBPdetect
Probability 0,91
TSP
Evidence RBPdetect2
Probability 0,97
Protein sequence
MSPSLQTMGFFMSEINFCNTKEQLNHLGEVVTGKVDGSPSGADIDTSTLPYTGQVRKTLPALEGEYEQSITTKESEADAAIDEYRLTNKGPYAAGITLESKFEYITYNGESYFATNPPYTTTAITPDSDGNLFAGGYTTIETVANKIGNPNLLSNSNFLTPSPEDITHPSATPTTYTAGTQIFSGVYAGSSGVTVTLINGRVNCSAGSYEYRVSNTNGLEHVPVFTSSVSDYNGNPVTTGVSHALVSDEHVVIVTPAAGDVFSVKFEEGDIATRHGLDFPNSHTLEYFGVSQLSTPQNNAKALIRSVAILGKAITSGGPYVFDFDGIDILPISHSNVVFDLGLERHVIRNYSGINPTEATHATVNIVADCDDTWFSHFFRFEKIEVFSSSIIDIKNVQLDLTNNEAWFARVNQGNDVETTFNLGIVKTTNWKGFDDKPTTLSVMSLFGQFHSGLPKLKAHTYNIGVCYVDEWYTIDSNTGDISDGESDWFRAFTNPHYINIGVLVTKNFAKRFVKSQNETHITVGTMLSTLDDRFIGSVNHIATFDMQILNGSGNEPSSLTVNNLHIDYELSSGNPIFFAATSSGAHSLTINNGTYNKFAVAGSGPVEISVDNFKGASTFINTPDSALVKFTNYIDESPVDYRCPNLSMENCTLYGQAVNANSIFDVAPASLTNVTFEDWDIGRKIGLIQHMDNVTFNFTSGTLDNRPVAPSEGENFYSNVTVNNTSGTPCILLFRSSAVTGTVNITNAKLGQDMNLAFMTSGSWDFVLNNCDNETITGTAVNSKVKAEYVSF
Physico‐chemical
properties
protein length:793 AA
molecular weight: 86096,29340 Da
isoelectric point:4,68884
aromaticity:0,10340
hydropathy:-0,18462

Tail Spike Domain Segmentation

Segmented into three structural domains: N-terminal, central, and C-terminal.

WAP91190.1
1 793 aa
Domain Start End Length (AA) Confidence
N-terminal 1 294 294 0,6810
Central domain 295 704 411 0,9676
C-terminal 705 793 88 0,4993
N-terminal Central domain C-terminal

View these domains on the 3D structure via the Color by → Tail spike option in the Tertiary structure section below.

Taxonomy

Phage
Vibrio phage vB_VviC_ZQ26 [NCBI] · taxon 3003827

Coding sequence (CDS)

Genbank protein accession
WAP91190.1 [NCBI]
Genbank nucleotide accession
OP918135.1 [NCBI]
CDS location
range 9785 -> 12166
strand +
CDS
ATGAGCCCATCACTACAAACGATGGGCTTTTTTATGTCTGAAATAAATTTTTGCAACACCAAAGAGCAGCTAAATCATCTTGGTGAAGTTGTCACTGGTAAAGTTGACGGCTCACCGAGTGGCGCTGATATCGACACATCTACACTTCCTTATACTGGCCAGGTGCGTAAAACCTTGCCAGCGCTTGAGGGTGAGTATGAGCAATCAATCACAACCAAAGAGTCAGAAGCTGACGCGGCAATTGATGAATACCGATTAACTAATAAAGGTCCATACGCTGCTGGTATCACTCTAGAGTCAAAGTTTGAATACATTACATACAACGGTGAGTCTTACTTTGCTACGAATCCGCCATACACAACAACAGCAATCACTCCTGATTCTGACGGAAATTTGTTTGCAGGCGGTTACACTACGATTGAAACCGTAGCAAATAAAATCGGCAATCCTAACCTGCTATCAAACTCTAACTTCCTAACTCCGTCACCGGAAGATATCACACACCCTAGCGCAACTCCGACAACATACACAGCGGGCACGCAGATATTTAGTGGTGTTTATGCTGGTTCATCTGGCGTTACCGTTACGCTAATAAATGGCCGAGTTAATTGCTCTGCGGGTTCATATGAGTACCGTGTATCTAATACGAACGGACTTGAGCACGTTCCGGTTTTCACTTCTAGCGTTTCGGATTATAACGGCAATCCAGTTACGACAGGCGTTAGTCATGCGTTAGTTAGTGATGAGCACGTAGTAATCGTTACACCCGCTGCTGGTGACGTGTTTAGCGTTAAGTTTGAAGAGGGCGATATCGCCACTAGGCACGGATTGGATTTCCCAAACTCTCACACTCTAGAATACTTCGGGGTTTCTCAGCTTTCAACACCGCAAAATAACGCAAAAGCACTAATAAGAAGTGTTGCCATACTAGGCAAGGCGATCACAAGTGGTGGTCCTTATGTTTTTGATTTCGATGGTATTGACATATTACCGATAAGCCACAGTAACGTTGTGTTTGATTTAGGACTTGAGAGACATGTTATTAGGAATTACTCAGGAATTAACCCAACAGAAGCGACACATGCGACTGTAAATATAGTCGCAGACTGTGACGATACATGGTTTAGTCACTTCTTTAGATTTGAAAAGATAGAGGTATTTTCATCCAGCATTATCGACATTAAGAATGTTCAGTTAGATTTAACTAATAATGAAGCTTGGTTTGCTAGGGTTAACCAAGGAAATGACGTAGAAACAACATTCAACCTCGGAATCGTAAAGACAACAAACTGGAAAGGCTTTGATGATAAGCCAACAACTCTATCTGTTATGTCACTATTTGGTCAGTTCCACAGCGGATTACCAAAACTAAAAGCTCACACATATAATATAGGTGTTTGTTACGTCGATGAGTGGTACACGATAGATAGCAATACAGGTGACATATCAGACGGGGAATCAGATTGGTTTAGAGCCTTTACAAACCCTCATTACATCAATATTGGCGTCTTGGTTACGAAGAACTTCGCCAAGAGATTTGTTAAATCTCAGAATGAGACTCACATTACTGTCGGGACTATGCTTTCCACACTAGATGATAGGTTTATAGGGTCAGTTAATCATATAGCAACGTTTGATATGCAAATACTAAATGGGTCTGGAAACGAGCCTAGCTCGCTAACAGTCAATAACTTACATATAGATTACGAGCTAAGTTCCGGCAACCCTATATTTTTCGCTGCTACATCATCCGGCGCGCACTCGCTAACAATTAATAACGGAACTTACAATAAATTTGCAGTTGCAGGTAGTGGCCCAGTTGAAATATCCGTGGATAATTTTAAAGGAGCCAGTACATTTATTAACACTCCTGATTCTGCTTTGGTTAAGTTTACAAACTATATCGATGAGAGTCCTGTTGATTACCGCTGCCCTAACCTGTCAATGGAGAATTGCACCTTGTACGGACAAGCGGTTAACGCAAACTCAATATTTGATGTGGCCCCAGCTTCGTTAACGAATGTTACCTTTGAGGATTGGGACATAGGTAGAAAGATCGGTTTAATTCAGCACATGGATAACGTGACATTTAACTTTACATCTGGAACCTTAGACAATAGACCAGTAGCCCCTAGCGAGGGCGAGAATTTTTATTCTAATGTTACTGTAAATAACACGTCAGGGACCCCGTGCATACTACTATTTAGAAGCTCCGCCGTTACAGGTACTGTGAATATTACAAACGCCAAGCTCGGGCAAGATATGAACTTGGCGTTTATGACCTCCGGTAGTTGGGATTTTGTGTTAAATAACTGCGATAACGAAACCATTACCGGAACGGCTGTAAATTCAAAAGTCAAAGCGGAGTACGTTTCTTTTTAA

Genome Context

Tertiary structure

WAP91190.1
ColabFold structure
Source ColabFold
pLDDT 33.8
Oligomeric state monomer