Protein
View in Explore- Genbank accession
- QBX21529.1 [GenBank]
- Protein name
- tail fiber protein and host specificity
- RBP type
-
TFTFTF
- Protein sequence
-
MLLTIHDMNLRQVASIDNDKQDALNYTNDKWHRYLETGSSTFEFTVFKRSLKKDTGSKHAYHYLNNKAFVSFEYEGEVQLFKVRKIVENEKTITCSCVNLNLELINEYANPFKSEQPKTFKEYCEAMDLLNFTLLTIGVNEISDKRIKAEWTGQDTKLARLLSLANKFGAELEFKTYLNDDSSIKSFVVNIYHENDDTHHGVGRIHAKPLRYGKDFKSLIRTVDNTNIYNAVRPTGKAENGDIVTIGGMEAWSVNNEYGEREFYQQGELLYAPLSMQMFPSAFTSGTTADQWIRKDITVDSADKKVIRATAYRELKKHAYPDVSYEVEGFIDRGIGDTVFVYDDGFVPTLLLRMRVVEQEISSTNPSSNRTRFANFKTLDNLLPDDLQKRIDELFEASQPYLIKLATDNGVIFKNGIGQSIVTPTLYKGGKPLTANVTWRWSLDGAVKTGMTHTVRGADVTDTSTLTVAAYIGNDEVAVDELTFVNVLDGRDGATGAKGDRGATGPQGLQGPKGDQGIAGPKGADGRTQYTHIAYADNATGGGFSQTDQTKAYIGMYQDFTATNSTNPTSYRWTKWKGSDGAQGIPGPKGADGRTPYIHWAYSDSADGTGLTTSDNGQRYIGHYSDYTQADSTDKTKYRWADRWAKIEVGGRNILRNATFSNPKERSETFTVGGTTYKNIEIPNWGSMYNSGITNPTTSYHAFYRESFNGTGPVIEFNESNGQRNRKALNQALQASDLRVGKYTFSADIFATGIGTKIQFGIYYYNKAGQRDFHSGKTTINISTTNKWHRVSGNLKLNDDIDFTKEIMFFIYAFEFTTNSILYLAKPQLEEGMVATTFGEAQADVEKRIDAKADQALTQEQLNLLNERAQILDAELKAKASMDALSDLEKAYQSFVKSNADSRAKAEADLAEAGRRIELLVTQFGGFKELKTFIDTYMSSSNEGLIIGKNDASSTIKVSSDRISMFSAGKEVMYISQGVIHIDNGIFTASVQIGRFRTEQYHLNADMNVIRYIG
- Physico‐chemical
properties -
protein length: 1014 AA molecular weight: 113241,02870 Da isoelectric point: 6,00086 aromaticity: 0,10651 hydropathy: -0,52239
Domains
Domain architecture
QBX21529.1
1
1014 aa
ENZ 136–377 · STR 489–551 ·
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
Proteins with similar domain architecture
Taxonomy
Coding sequence (CDS)
Genbank protein accession
QBX21529.1
[NCBI]
Genbank nucleotide accession
MK448812.1
[NCBI]
CDS location
range 31954 -> 34998
strand +
strand +
CDS
ATGCTTTTAACGATTCATGACATGAATTTACGCCAAGTCGCTTCAATTGATAACGATAAACAGGATGCCCTAAATTATACAAACGACAAGTGGCACAGGTATCTGGAAACGGGGTCGTCCACTTTTGAATTTACGGTTTTTAAACGTTCTCTGAAGAAAGATACTGGATCGAAGCATGCTTATCATTACCTTAACAATAAGGCTTTTGTCTCGTTTGAATATGAGGGTGAGGTTCAATTATTTAAGGTTCGAAAAATTGTAGAAAACGAGAAAACAATCACTTGTTCTTGTGTCAATCTTAACCTGGAGCTAATTAACGAATACGCCAATCCTTTCAAATCGGAGCAACCAAAAACGTTTAAAGAGTATTGCGAGGCAATGGATTTACTGAATTTCACTTTGTTGACTATTGGTGTGAATGAGATTTCAGATAAACGAATTAAAGCTGAGTGGACAGGTCAAGATACAAAATTGGCACGTTTATTGAGTTTGGCAAATAAATTTGGTGCAGAACTTGAATTTAAAACTTACCTTAATGATGATTCTTCTATCAAGTCGTTCGTGGTAAATATCTATCATGAAAATGATGATACACATCATGGTGTTGGGCGCATCCATGCTAAACCATTGCGTTATGGAAAAGATTTTAAGAGTCTGATTCGAACGGTAGATAATACAAACATTTACAATGCCGTACGACCAACTGGAAAAGCTGAGAATGGCGATATTGTCACTATCGGTGGCATGGAGGCTTGGTCTGTAAATAACGAATATGGAGAGAGGGAATTTTATCAACAAGGGGAACTTCTTTACGCTCCGTTATCTATGCAAATGTTTCCCTCTGCATTCACAAGCGGTACCACGGCTGACCAATGGATTCGAAAAGATATTACTGTTGATAGTGCCGATAAGAAAGTTATTCGAGCTACAGCTTATCGTGAACTGAAAAAACATGCTTATCCAGACGTGTCGTATGAGGTAGAAGGCTTTATTGATCGAGGGATTGGCGACACGGTCTTTGTATATGACGATGGATTTGTACCGACGCTTTTACTTCGAATGAGAGTGGTTGAGCAAGAGATTAGTTCCACTAATCCATCTAGCAATAGGACGAGGTTTGCTAATTTCAAGACGTTAGACAATTTGTTGCCTGATGATCTCCAAAAACGAATTGATGAATTATTTGAAGCGTCACAGCCCTACCTTATCAAACTGGCTACTGACAATGGCGTTATTTTCAAGAATGGAATTGGTCAATCCATTGTAACGCCTACTCTTTACAAGGGCGGTAAGCCTCTGACTGCCAATGTGACTTGGCGCTGGTCTTTGGATGGCGCTGTTAAAACGGGGATGACCCATACTGTCCGTGGCGCAGATGTTACAGATACATCTACTTTGACGGTGGCAGCATACATAGGTAACGATGAGGTAGCGGTTGATGAGCTGACGTTTGTAAACGTATTGGATGGTCGAGATGGTGCTACAGGCGCAAAGGGTGACCGAGGAGCTACAGGTCCGCAAGGTCTTCAGGGTCCTAAGGGAGACCAGGGGATAGCTGGCCCTAAAGGTGCTGATGGTCGTACTCAATATACCCATATTGCTTATGCTGATAATGCAACTGGTGGTGGCTTTAGTCAGACAGACCAAACTAAAGCCTATATTGGCATGTATCAAGATTTCACTGCTACCAACTCTACAAACCCAACAAGTTATCGCTGGACTAAATGGAAAGGCTCTGACGGCGCTCAGGGCATACCTGGCCCTAAGGGTGCAGACGGTAGAACTCCATACATCCATTGGGCTTACTCGGATAGTGCGGACGGTACAGGCTTGACCACATCAGATAATGGTCAGCGATATATCGGGCATTACTCAGATTACACACAAGCTGATAGCACGGATAAGACAAAGTATCGTTGGGCAGATAGGTGGGCGAAGATTGAGGTAGGTGGACGGAATATTTTACGTAACGCTACTTTCTCGAACCCGAAAGAGCGCTCTGAGACATTTACGGTCGGAGGTACTACCTACAAGAATATAGAGATTCCGAATTGGGGTAGTATGTACAACAGTGGAATCACTAATCCGACAACATCTTATCATGCATTTTATCGTGAATCGTTTAATGGTACTGGGCCAGTTATTGAATTTAATGAGTCTAATGGTCAGCGCAACCGGAAAGCGCTTAACCAAGCATTGCAAGCAAGTGACCTTAGAGTGGGTAAATATACTTTCTCCGCAGACATTTTTGCTACTGGCATTGGTACTAAAATTCAGTTTGGTATTTACTACTACAATAAGGCTGGCCAGCGAGATTTCCATTCTGGGAAAACGACAATCAATATATCTACGACTAACAAGTGGCACAGAGTATCTGGTAATCTAAAATTAAATGATGATATTGATTTTACAAAAGAAATAATGTTTTTTATCTATGCCTTTGAGTTTACTACAAACTCCATCCTATATTTGGCCAAGCCACAACTAGAGGAAGGGATGGTTGCGACAACGTTTGGCGAAGCGCAGGCGGATGTTGAAAAACGTATCGACGCCAAAGCGGACCAAGCATTGACCCAAGAACAGCTCAATTTACTAAACGAGCGGGCACAGATACTTGATGCAGAGCTTAAAGCAAAGGCATCTATGGATGCGCTTAGTGACCTCGAGAAAGCTTATCAATCATTTGTAAAATCAAATGCTGATAGCCGAGCAAAAGCAGAAGCGGATTTGGCAGAGGCAGGCAGACGGATTGAGTTGCTGGTTACGCAGTTTGGCGGCTTTAAAGAGCTGAAAACATTTATTGATACTTATATGTCAAGCTCTAACGAGGGTTTGATTATCGGTAAGAATGATGCAAGCTCAACCATTAAAGTGTCAAGCGATAGAATTTCCATGTTTTCGGCTGGTAAAGAAGTTATGTACATTTCGCAAGGTGTTATCCATATAGACAATGGTATCTTTACCGCCTCTGTACAGATTGGACGGTTCCGCACAGAACAATATCATCTCAACGCCGATATGAATGTCATACGGTATATTGGGTAG
Genome Context
Tertiary structure
QBX21529.1
ColabFold structure
Source
ColabFold
pLDDT
30.0
Oligomeric state
monomer