UniProt accession
A0ABX8SNV6 [UniProt]
Protein name
Lateral tail fiber protein with fibronectin type III domain
RBP type
TF
Evidence UniProt/TrEMBL
Probability 1,00
TF
Evidence GenBank
Probability 1,00
TSP
Evidence RBPdetect
Probability 0,72
TF
Evidence RBPdetect2
Probability 0,94
Protein sequence
MPIAMIDNIVASARSSSYDWNASKAALADSLNTVTTRTLDKIFEGNKSYRSQQDRQKLLRSSAAPCSVVYGKTRTSGLLAFLEQDRDRTLHCAIVLANHSLEGIEDILIDGNPISSYGDLVSWELHNDRKTSDPFMGTHCPSWSPDMIGRGISWLRASFRFDPNKFPFGLPNVTLVKVGKKCYDPRISKEVYTNNAALVILDYLRTYLKCPDETINWESFKEAANICDEAVKNADGTSERRYTINGEFDMDEAPASIMAEMLKACGADLSYVAGKYGLLVGAYYGPATMTLSEDCVCGEVKIYPEASFDKRSNTITGRFTSPTKGYSETDFPSVFVPEWIGKDGERKIIDIDYRFVTSPYQAQRVSAIFLRRARAGRIIEVTCNMRGFKFKPGRYVTMDLPSIGIVGQEMRVLEWEFTKKGGVKVKLRQDAKEWNDATGQLPDSGDVDIPISPSGVAQPQNFRYSVLQAGEVTHGVLAWDNVGTYAQNIVQVRKNGEIVWTAQTVEQFVRVEGLTKGSYTATVVATSYKGGVSPEAYCEFNIQAPEAPVSVEVKQGYFAITLIPHSRDLASVSTQYDFWTSGMTRLPDTSDATVTSNATRMGVGSTWTSEGLQNDKVYYWYIRTTNTFGSSQFVECAARCYTSIEDLMPQIDAEFKKTETYKELMSTLDSSIEEVENRVTELNRYMDGRVDEAFQQLGDRIGAVVTETTQKFEDVNGNITALDRKLVAAQNKFTNDLNTESGRLASLIETTNKATTDLLNKKTEALDEKLVAAKGELVEQIEGVESGYLAGDKTLDGKINTQRTELDASILSTNQATVDLLNRTSETLDQKISQTNATVSKNYTTLDGKITTAKTDLNTLIANTNKATTDLLNQKTSALSEQITSARGEISTNKQAIDALDGKLTSTKTALDATISDTNKATVDLINGTASAIRQELAVAKQEIMNDVGDVSEIRAAVATTSKAVTDLEGKVNAQWGTKIQVDSAGNKYVAGIQLGMEGSGGQVQSYFMVSANNFAVYNPGNGTATLAFAIKNNQAFLKDAFIENGTISSAKIAQEISSNNYDGNGYHKYGWYINKNGHAQFMDVWVKGNINASSGNFTGAVNATSGTFRGDVYANNGSFRGTIDATGGTFRGRVEASVIRANQFEGAIVAHRTYGDCAPVYNSQQRVCRWRWRYVDNVSGQGKNVTFFFKLNGTLASSQLNVWIAGHQILAGKKYGNDNNGMCAVGITGLGEQTIDIVVEIYTPWSTSSVTGVAISCPTVVVSRSNSSFQGPWNESHD
Physico‐chemical
properties
protein length:1279 AA
molecular weight: 140076,10260 Da
isoelectric point:5,44673
aromaticity:0,08679
hydropathy:-0,34973

Domains

Domains [InterPro]
DC_0187
STR
1–819
IPR053171
Unmapped
470–1119
IPR057587
ATT
547–651
A0ABX8SNV6
1 1279
Architecture
STR
ATT
STR
RBD
STR 1-546 | ATT 547-651 | STR 652-819 | RBD 846-1227 |
Legend: ATT STR RBD CBM LEC ENZ CHP LNK TAS TTP UNK Unmapped

Tail Spike Domain Segmentation

Tail Spike Domain Segmentation

This protein has been segmented into three structural domains: N-terminal, central domain, and C-terminal.

Domain Layout
N-terminal
Central
C-terminal
A0ABX8SNV6
1 1279
Domain Start End Length (AA) Confidence
N-terminal 1 1075 1075 0,8369
Central domain 1076 1268 194 0,3809
C-terminal 1269 1279 10 0,9798
Legend: N-terminal Central domain C-terminal
3D Structure with Domain Coloring

The structure is colored according to the domain segmentation: N-terminal (blue), Central (green), C-terminal (pink).

Domain Coloring
N-terminal
1-1075
Central
1076-1268
C-terminal
1269-1279

Taxonomy

  Name Taxonomy ID Lineage
Phage Escherichia phage EduardKellenberger
[NCBI]
2852031 Uroviricota > Caudoviricetes > Vequintavirinae > Vequintavirus eduardkellenberger >
Host Escherichia coli K-12
[NCBI]
83333 Bacteria > Proteobacteria > Gammaproteobacteria > Enterobacteriales > Enterobacteriaceae > Escherichia

Coding sequence (CDS)

Coding sequence (CDS)
Genbank protein accession
QXV77724.1 [NCBI]
Genbank nucleotide accession
MZ501061 [NCBI]
CDS location
range 27749 -> 31588
strand +
CDS
ATGCCAATTGCAATGATTGATAACATCGTTGCTTCTGCAAGATCTTCAAGTTATGACTGGAACGCATCCAAGGCAGCTCTGGCTGACAGCCTGAACACTGTTACCACCAGAACTCTGGATAAGATTTTTGAGGGCAACAAATCTTACAGAAGTCAGCAAGATAGACAAAAGCTTCTCAGATCTTCTGCTGCACCTTGCTCTGTAGTGTATGGGAAGACACGCACATCTGGATTACTTGCGTTTTTGGAGCAGGACAGGGACAGGACCCTCCATTGTGCTATTGTTCTTGCCAATCATTCCCTGGAAGGTATAGAAGATATACTCATCGACGGTAATCCTATTTCCTCGTATGGAGATCTGGTATCGTGGGAGCTACATAACGACAGAAAAACATCTGATCCTTTCATGGGTACACACTGCCCATCATGGTCACCTGACATGATAGGTAGAGGGATCAGTTGGCTACGTGCCAGCTTCAGGTTTGACCCTAACAAGTTTCCTTTTGGGTTGCCAAACGTTACACTCGTTAAGGTTGGTAAAAAATGCTATGATCCTCGCATCAGTAAAGAGGTGTATACCAATAACGCGGCCTTGGTGATTCTAGACTATTTAAGAACGTACCTTAAATGTCCTGACGAAACCATCAACTGGGAGTCCTTCAAGGAGGCCGCTAACATATGCGACGAGGCGGTAAAAAACGCAGACGGAACCAGTGAGCGCCGATACACCATTAATGGCGAGTTTGACATGGACGAGGCTCCGGCAAGCATTATGGCAGAAATGCTGAAAGCTTGTGGCGCAGATCTCAGCTATGTAGCTGGTAAGTATGGTTTGCTGGTTGGTGCATACTATGGCCCGGCAACAATGACGCTGAGTGAGGATTGTGTCTGTGGTGAGGTCAAGATCTATCCGGAAGCCTCATTTGACAAAAGATCCAACACAATAACTGGCAGATTCACTAGTCCGACCAAAGGGTATTCTGAAACAGATTTTCCATCAGTGTTTGTCCCAGAGTGGATAGGGAAGGATGGAGAAAGAAAGATAATCGATATAGACTATCGCTTTGTTACCAGTCCTTATCAAGCTCAACGTGTTTCTGCAATCTTCCTAAGACGTGCCAGAGCTGGCAGGATTATTGAAGTCACCTGCAATATGCGAGGTTTCAAATTTAAACCTGGTCGTTACGTTACAATGGACCTCCCAAGTATTGGTATAGTGGGCCAAGAAATGAGAGTTCTTGAATGGGAGTTTACCAAAAAGGGTGGTGTCAAGGTAAAACTTCGTCAAGATGCTAAAGAGTGGAATGATGCCACAGGGCAACTTCCGGATTCTGGCGATGTAGATATTCCGATATCTCCATCTGGTGTAGCTCAACCGCAAAACTTCAGATATTCCGTTCTCCAAGCTGGAGAAGTAACTCACGGTGTTTTGGCTTGGGACAACGTTGGGACTTATGCTCAAAACATTGTGCAGGTAAGAAAGAACGGAGAGATTGTTTGGACAGCACAGACAGTTGAGCAGTTTGTCAGAGTAGAAGGTTTGACCAAAGGGTCATACACAGCAACCGTGGTTGCAACATCTTATAAAGGTGGTGTATCTCCAGAAGCGTACTGTGAGTTTAACATTCAGGCACCTGAAGCTCCGGTTTCTGTAGAGGTTAAGCAAGGATACTTTGCTATCACCTTGATTCCGCATAGTAGGGATTTAGCAAGTGTTAGCACCCAGTATGACTTTTGGACATCTGGTATGACAAGGTTGCCCGACACCAGTGATGCAACCGTTACTTCAAACGCCACCCGTATGGGTGTTGGTTCAACTTGGACATCTGAAGGTCTGCAGAACGATAAGGTTTATTATTGGTATATTCGAACCACAAACACTTTTGGTAGTTCTCAGTTTGTAGAATGCGCTGCACGCTGCTACACCTCTATTGAGGATTTGATGCCTCAGATAGATGCTGAATTCAAAAAGACAGAAACTTATAAAGAGCTGATGAGCACTTTGGATTCCTCTATTGAAGAGGTTGAAAATCGTGTCACAGAACTTAACAGGTACATGGATGGTAGGGTAGATGAGGCATTCCAGCAACTTGGAGACAGAATAGGTGCGGTAGTTACAGAGACAACTCAGAAGTTTGAGGATGTCAATGGCAATATCACAGCGCTGGATAGGAAACTTGTTGCTGCACAGAACAAGTTCACCAACGATCTGAACACTGAAAGTGGAAGATTGGCATCCCTGATTGAGACAACCAATAAAGCAACTACTGATCTTCTGAACAAAAAGACAGAGGCTTTAGATGAGAAATTGGTTGCCGCCAAAGGTGAGCTGGTAGAGCAGATAGAGGGAGTTGAGAGCGGATATTTAGCCGGAGATAAAACTCTAGATGGTAAGATCAATACTCAGAGAACAGAACTTGACGCAAGCATCTTGAGCACTAACCAAGCCACTGTGGATCTTTTGAACAGGACATCTGAAACTCTGGATCAAAAGATTAGTCAGACAAACGCGACGGTATCTAAAAACTATACCACTCTTGACGGCAAGATAACTACCGCAAAAACTGACCTCAACACCTTGATTGCCAATACCAACAAGGCCACCACTGACTTGCTGAATCAGAAAACATCTGCACTGTCAGAGCAGATAACTTCTGCACGTGGGGAGATTTCTACCAATAAGCAAGCGATTGATGCTTTGGATGGAAAACTGACCTCCACAAAAACAGCGCTGGATGCTACAATTTCCGATACCAACAAAGCCACTGTGGACCTTATCAACGGCACAGCGTCAGCTATTCGTCAAGAACTTGCTGTTGCTAAGCAGGAGATCATGAATGATGTTGGAGATGTGTCTGAGATCAGGGCTGCAGTAGCTACAACATCTAAGGCTGTAACCGACTTAGAGGGCAAAGTAAATGCTCAGTGGGGAACAAAAATACAGGTAGACTCCGCAGGGAATAAATATGTTGCAGGTATCCAGTTGGGGATGGAAGGGTCTGGGGGCCAAGTTCAATCCTACTTCATGGTTAGTGCAAACAATTTTGCGGTATACAACCCCGGCAATGGAACAGCAACCCTTGCTTTCGCAATCAAGAACAACCAAGCATTCTTGAAAGACGCTTTTATAGAGAATGGCACGATCTCCTCTGCCAAGATCGCACAAGAAATTTCGTCAAACAACTACGATGGCAACGGGTACCATAAATACGGTTGGTATATTAACAAGAACGGGCACGCCCAATTTATGGATGTGTGGGTGAAAGGCAACATCAACGCCAGTTCTGGTAACTTCACAGGGGCAGTTAACGCCACTAGTGGTACCTTCCGTGGGGATGTTTATGCCAATAATGGTAGCTTTAGAGGCACCATAGACGCAACCGGAGGTACCTTCCGTGGTCGTGTAGAAGCTTCTGTTATCCGCGCTAACCAGTTCGAAGGTGCAATTGTTGCACACAGGACTTATGGGGATTGTGCTCCAGTATATAACTCCCAGCAAAGGGTTTGCCGTTGGAGGTGGAGATACGTAGATAACGTTTCAGGTCAGGGTAAGAACGTAACATTCTTCTTTAAACTGAATGGTACTCTTGCCAGCTCCCAGCTCAACGTTTGGATAGCCGGACATCAAATCCTTGCAGGTAAGAAGTACGGAAACGACAACAACGGCATGTGTGCGGTAGGGATAACAGGTCTTGGTGAACAAACCATAGATATTGTTGTTGAAATCTACACACCATGGTCAACGTCTTCTGTAACAGGGGTCGCAATATCCTGTCCTACTGTTGTGGTAAGCCGTTCTAACTCAAGCTTCCAGGGACCTTGGAACGAGTCTCACGACTAA

Genome Context

Genome Context

Tertiary structure

PDB ID
1c01a16d94b916d2db994d37edd040d6bf51aecbb67d80553ea72454f6b1551f
ESMFold
Source ESMFold
Method ESMFold
Resolution 0,6533
Oligomeric State monomer
Model Confidence
Very high
pLDDT > 90
High
90 > pLDDT > 70
Low
70 > pLDDT > 50
Very low
pLDDT < 50