UniProt accession
A0A291LFM3 [UniProt]
Protein name
Hinge connector of long tail fiber distal connector
RBP type
TSP
Evidence DepoScope
Probability 1,00
TF
Evidence GenBank
Probability 1,00
TF
Evidence Phold
Probability 1,00
TSP
Evidence RBPdetect
Probability 0,70
TF
Evidence RBPdetect2
Probability 0,96
TF
Evidence UniProt/TrEMBL
Probability 1,00
Protein sequence
MADLKSSSTAGGGLVWTQTNLPFSPQDVKLFYNGNEVIDSVSNQSIGGAKTFTGTLTYKTPVNSNEVAIKGYVDNLDSTSVKSVTGTLPIVVTTGVSPRVSINNATQSAHGAMSKEDKTKLDGLPVRAVNRDGDTMTGNLMVNGQVEANRIKSNGQVEVYDSATNTYAQRMVASGSLLYFQGGKVDRDVTDQRVAFSGWYGTPLTQVRFNMATGVNPQVSYGNTNYDIFHKGNLPSAEEVKAMAVYDRPPEDDCDKAIMPGNYGVFANTKNTPNDGGTGPSGSTLLVTRWGNGANAQIFFSYTQDRVWVRRQYIGVWQPWAEMYTSLNKQSVGGMGLGVGDSPNAITVTGGVRDFNLIKTNGVFTVDGNWANGTDNTATATTHTGIVEVKQRSFDNLTVQKFSNWVTVGGFVEPREFTRVWINAVEGWQPWLPTGVWEQVNTYRTGILRHNNSTNDDSVYPYVSYTKEKYRDGVAAGIPYTIGEVSFRVGATNRYDPHSGDQLSRIIGQATNTNTTGEYEGTLFLASRYRKGSDGSTADTSTLRISRDVGAEFTHAGKKVQIETGNVNAEKFIVTTTGYALQYSGNANQGIYLDNRTIIGGGSSGVVIRPNGSGTVTGETVFNANGTISNNQVPTLAMHLTNKAYVDGVALGGFSSIITLRDTDNLNDIKTAGIYSQVANAKALTSLNYPVEKAGNLIVTTSAGVIQKYWVYNSSEVWSRAQYSSGAWKPWYRDYNEEFKPTSADVGALSLTGGTVTGDVRFNSGNTTRLTLGSGSDYYVERSPSGLTLASGTINPKVKVNNTDYDIYHTGNKPSAADVGTLTTTQINTELNKKLNLSGGIMTGAIRWDATDEYINAASNNIYLAAKTGTVYLESKNNPMVRIGSNDYTIYHTGNKPSAGDFNAYTKTETDNLLNTKLNLSGGTLTGAVTTATIKNAVMINNGASISFQDGANARFHILTEGNTFKLKHGDNADNQLLYVSPTVMELQTQLSARTAMFVSGADGTRVFGIGAQESNGINPYVYVRRSGDTGNIRVLTFDQGEIIANQDRIAAPTFRVINNAGLQFSPNSNRSGVTWGMGMDLSNGNLGIHRYQDGVWNLQPFMIGSNGVVTMSTGFNTTSGTMSGSLSVNGNIEVGGSVGVNSGYASIISNNNNRLEFHRPGFWATMIYMNTDGQLRFTSSNGAGGETKLRMSIDNNGNTGIAGSVNANGGVHDVGQRVYSPSNPIPDGVILRSVVNGGGNMDIGSYAMVTVKSNLGPQGPGTVLQGTQIAFSNAEGTNMVACNYGTWRLMGVSRANSQNGDGWGSWNVTLAQRIT
Physico‐chemical
properties
protein length:1316 AA
molecular weight: 140986,52640 Da
isoelectric point:6,94552
aromaticity:0,08739
hydropathy:-0,36261

Domains

Domains [InterPro]
DC_0505
ATT
1–496
cd19958
STR
260–324
A0A291LFM3
1 1316
Architecture
ATT
STR
RBD
ATT 1-496 | STR 595-953 | RBD 1081-1316
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
A0A291LFM3
1 1316
Domain Start End Length (AA) Confidence
N-terminal 1 759 759 0,2495
Central domain 760 958 200 0,4111
C-terminal 959 1316 357 0,8452
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
1-759
Central
760-958
C-terminal
959-1316

Taxonomy

  Name Taxonomy ID Lineage
Phage Aeromonas phage AS-sw
[NCBI]
2026113 Uroviricota > Caudoviricetes > Pantevenvirales > Emmerichvirinae > Ceceduovirus
Host Aeromonas salmonicida subsp. salmonicida
[NCBI]
29491 Bacteria > Proteobacteria > Gammaproteobacteria > Aeromonadales > Aeromonadaceae > Aeromonas

Coding sequence (CDS)

Coding sequence (CDS)
Genbank protein accession
ATI18206.1 [NCBI]
Genbank nucleotide accession
MF498775 [NCBI]
CDS location
range 57716 -> 61666
strand +
CDS
ATGGCAGACCTTAAGAGTTCGTCTACCGCTGGGGGTGGATTAGTTTGGACACAGACTAACCTACCATTTTCCCCGCAAGACGTTAAGCTGTTTTATAATGGTAATGAGGTTATTGATAGTGTTAGTAATCAATCTATTGGTGGGGCTAAAACCTTTACCGGAACATTGACATATAAAACTCCTGTCAATTCTAATGAAGTTGCCATTAAAGGTTATGTTGATAACCTAGATAGTACATCGGTGAAATCTGTAACCGGGACTCTCCCAATCGTCGTTACTACTGGTGTAAGTCCGCGAGTTTCAATTAATAACGCAACGCAATCCGCTCATGGGGCAATGAGCAAAGAAGATAAGACAAAGCTAGACGGTTTACCTGTTCGAGCTGTTAATAGAGATGGCGATACTATGACTGGAAACCTAATGGTTAATGGTCAGGTTGAGGCGAATAGAATCAAATCCAACGGTCAAGTTGAAGTTTATGATTCTGCTACCAATACATACGCACAGCGTATGGTTGCATCTGGTTCATTACTTTATTTCCAAGGTGGTAAAGTAGATAGAGACGTTACTGACCAACGAGTTGCTTTTAGTGGTTGGTATGGTACACCTCTCACTCAAGTAAGATTTAATATGGCTACTGGGGTTAATCCCCAAGTGTCTTATGGAAATACAAACTATGATATTTTCCATAAAGGTAATTTGCCTAGCGCGGAAGAAGTAAAGGCAATGGCTGTATATGATCGTCCACCGGAAGATGATTGCGATAAAGCAATTATGCCCGGTAACTATGGTGTTTTCGCAAACACAAAAAATACTCCTAACGACGGTGGTACTGGTCCTAGTGGATCAACTCTCCTTGTTACCCGTTGGGGTAACGGGGCGAATGCACAAATATTCTTTTCTTATACACAAGATCGTGTATGGGTTCGTCGTCAATATATCGGTGTTTGGCAGCCATGGGCGGAAATGTATACCTCTCTGAACAAACAGTCTGTGGGTGGTATGGGTCTTGGTGTTGGTGATAGTCCCAACGCGATCACAGTAACCGGTGGTGTTCGTGACTTCAACCTAATTAAGACCAACGGTGTTTTTACAGTTGATGGTAACTGGGCTAATGGAACTGACAATACCGCAACTGCAACTACTCATACGGGTATTGTTGAGGTTAAACAACGATCTTTCGATAACTTGACTGTTCAGAAATTCAGTAACTGGGTAACAGTCGGTGGATTTGTAGAACCAAGAGAGTTTACAAGGGTATGGATTAATGCAGTTGAAGGTTGGCAACCATGGTTACCGACTGGTGTGTGGGAACAGGTAAACACATACAGAACTGGTATTCTAAGACACAATAACTCTACTAATGACGACTCTGTTTATCCTTACGTATCTTATACCAAGGAAAAATATCGTGATGGTGTTGCTGCTGGTATTCCATACACAATAGGTGAGGTTAGTTTTAGAGTTGGTGCTACAAACCGATATGATCCCCATAGTGGCGATCAGTTGTCTAGAATTATAGGTCAAGCAACAAACACAAACACAACCGGTGAATATGAAGGTACTTTGTTCTTAGCTTCTAGATATCGCAAAGGGTCTGATGGTTCGACTGCTGACACTAGTACACTAAGAATAAGTAGAGATGTTGGTGCTGAATTTACCCATGCAGGTAAGAAAGTACAGATCGAAACCGGTAATGTGAATGCAGAGAAATTTATTGTAACCACAACTGGTTATGCACTTCAATATTCCGGTAATGCAAACCAAGGAATCTATTTAGATAATAGAACAATTATTGGTGGTGGTTCATCTGGTGTTGTGATTCGTCCAAATGGTTCGGGAACTGTAACTGGGGAAACTGTCTTTAATGCAAACGGTACTATATCAAATAACCAAGTTCCGACGTTGGCAATGCATTTAACAAACAAGGCATATGTTGATGGTGTTGCTCTTGGTGGTTTTAGTTCTATTATCACACTGAGAGATACAGATAACCTCAACGATATTAAAACCGCTGGTATATATAGCCAAGTTGCTAACGCTAAAGCATTAACTAGTTTGAACTATCCAGTTGAGAAAGCTGGTAACCTTATTGTTACTACTTCCGCTGGCGTTATTCAAAAATATTGGGTATATAACTCGTCCGAAGTTTGGTCTAGAGCACAATATTCAAGTGGTGCGTGGAAGCCTTGGTATCGTGACTATAACGAAGAGTTTAAACCTACTTCCGCTGATGTTGGGGCGTTGTCTTTAACTGGTGGTACTGTAACTGGGGATGTTAGATTTAACTCTGGCAACACCACTAGATTGACTCTTGGTAGTGGTTCTGATTATTACGTCGAACGCTCACCATCTGGATTGACATTAGCTTCTGGAACTATCAATCCGAAGGTTAAAGTTAATAACACAGATTATGACATATATCATACCGGCAATAAACCATCAGCCGCCGACGTTGGTACATTAACAACTACACAGATAAACACAGAGCTTAACAAAAAGCTTAATCTGTCTGGTGGTATCATGACTGGCGCAATTCGTTGGGATGCAACAGATGAATATATCAACGCCGCGAGCAACAATATATATCTGGCTGCTAAGACTGGTACTGTATATCTTGAAAGCAAAAATAACCCAATGGTAAGGATTGGAAGTAACGATTACACCATATATCACACTGGTAATAAACCTTCTGCTGGTGATTTTAATGCATACACAAAAACTGAAACAGATAATTTACTTAATACTAAATTAAATCTGTCTGGTGGCACTCTAACTGGAGCGGTAACTACTGCAACCATAAAGAATGCTGTTATGATTAACAATGGTGCATCGATTAGTTTCCAAGACGGAGCTAATGCTAGATTCCATATACTGACAGAAGGTAACACCTTTAAACTAAAACATGGAGACAATGCCGATAATCAGCTACTATACGTTAGCCCCACAGTAATGGAATTACAAACACAATTAAGTGCAAGAACTGCAATGTTTGTGAGTGGAGCTGATGGAACTCGGGTGTTTGGGATTGGTGCTCAAGAATCCAACGGAATAAACCCATACGTGTATGTACGAAGATCTGGTGATACTGGAAACATACGTGTTCTGACATTTGATCAGGGTGAGATTATTGCTAACCAAGATCGAATCGCTGCTCCAACTTTCCGAGTTATTAACAACGCAGGATTACAGTTCTCCCCAAATAGTAACCGGAGTGGTGTGACTTGGGGGATGGGTATGGATCTATCTAATGGTAACCTTGGTATCCATCGTTATCAAGATGGTGTATGGAATCTCCAACCATTTATGATAGGTTCGAACGGTGTGGTTACTATGAGTACGGGTTTCAACACAACCAGCGGAACAATGTCTGGTTCCCTAAGTGTTAATGGAAACATTGAGGTTGGTGGATCTGTAGGTGTTAATAGTGGTTATGCCTCTATCATTAGCAATAATAATAACAGACTAGAATTTCATCGTCCCGGATTTTGGGCAACAATGATTTACATGAACACAGACGGTCAACTTCGATTTACATCAAGTAATGGTGCCGGTGGTGAAACTAAACTCAGAATGTCTATTGATAACAATGGTAATACCGGAATAGCAGGTTCTGTTAACGCTAATGGTGGTGTTCACGACGTAGGTCAACGAGTTTATTCACCAAGTAACCCAATTCCAGATGGTGTAATACTGAGATCAGTCGTCAATGGCGGCGGCAATATGGATATTGGTTCATATGCGATGGTCACAGTCAAATCCAACCTTGGTCCACAAGGTCCGGGGACTGTTCTCCAAGGTACTCAGATTGCATTCTCGAACGCGGAAGGTACTAATATGGTTGCCTGTAACTATGGTACATGGCGTCTGATGGGTGTTTCTAGAGCAAATTCCCAAAACGGCGACGGTTGGGGTTCTTGGAACGTAACATTGGCACAGCGGATAACTTAA

Genome Context

Genome Context

Tertiary structure

PDB ID
8a636a353870afcc8428211e1374d83bca8e93dd972a2460aca3f614559540cb
ESMFold
Source ESMFold
Method ESMFold
Resolution 0,5414
Oligomeric State monomer
Model Confidence
Very high
pLDDT > 90
High
90 > pLDDT > 70
Low
70 > pLDDT > 50
Very low
pLDDT < 50