Protein

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UniProt accession
A0A8S5NBE5 [UniProt]
Protein name
Tail protein
RBP type
TF
Evidence RBPdetect
Probability 0,84
Protein sequence
MGKTVTSVVSAGLMIAGVIATGGLGTALIVAGIAVQAASAFIFKDKVPGSGYRDQSERKQMLRSASAPETVVVGKTMMSGLLFFAEEEEGEQDENEELYMALAIASHPIHKLGQIYFNDDKIEDLGDNAQYEFHNGRTEADPYLLKHAPSWKEDMIGRGLAWLRLTLRFDQEKFPYGVPNVKSELWGKEIYDPRTEKTAWSNNGALVILDYYRHYLGVPDSDIDWDAFKSAADICDETVQTPDGKSEPRYTLNGAYELEESPASVLEMMHKCIAGEPTYIAGKHGILMQVYNGPALLTIDESQIIDTVTVTPELSLRDATNAIYGTFVDAEQQYNKTDFEPVVIEEWIEEDGLEIKENMDYRFVTSPYQANRLANLYLRKKRAGRRIQLRMNLDGYAYRPGDVIKLELPSLGISDLEFRIADWKFHPSEGVEITLEEDGPYIYEDLASKPFVRPPFTKLPTGGVPAPINLAFVPLAVTDIVQGYISWQNVASDIRYNTVNILQNGKVIQSIQVPGERVDINGLTRGTYRVEVRAINVAGAMSAPAISDFAIQAPPAPISVEITPGMFSLTASPRQGDSAVFGYTFEFWFSEKKLTSLSENEVITKTNKVGQGNFWTQENLKAGHTYYFYIRTINSYGKSVFVEASGVPVSLPTDIFDDLDNTVRETEAFKQLSEELKWNTESIAVLTNATYSLSTDVLQRSANAQAGITQLQQLRVSDNEARAQEIKEIYSAVGENKSAIKETQTSITKLDEAIGQRFTAIRTDMDNAQADIISNSQAISNTNKAFAENKTQVQAKFDEQEGMIQEKMQATFEQSGDGVVTHSINITIKHNGVSYNAAGQVISAQVKNGKLESYIGYNANNFAWYNPVNGKMELFMYAKNGQFFIRDLFIEDGSITNAKIGNVIQSNNY
Physico‐chemical
properties
protein length:909 AA
molecular weight: 101024,29060 Da
isoelectric point:4,83344
aromaticity:0,09681
hydropathy:-0,32145

Domains

Domains [InterPro]
DC_0187
STR
1–909
DC_0187
IPR032876
ATT
297–423
IPR032876 IPR053171 IPR015406
IPR003961
STR
464–541
IPR003961 IPR013783
IPR036116
STR
508–643
IPR036116
IPR003961
STR
552–639
IPR003961
IPR003961
STR
553–654
IPR003961
IPR003961
STR
554–643
IPR003961
IPR057587
ATT
556–658
IPR057587
A0A8S5NBE5
1 909
Architecture
STR
ATT
STR
ATT
STR
STR 1-296 | ATT 297-423 | STR 424-555 | ATT 556-658 | STR 659-909
Legend: ATT STR RBD CBM LEC ENZ CHP LNK TAS TTP UNK Unmapped

Taxonomy

  Name Taxonomy ID Lineage
Phage Siphoviridae sp. ctOqH1
[NCBI] 		2826316 Uroviricota > Caudoviricetes >
Host No host information

Coding sequence (CDS)

Coding sequence (CDS)
Genbank protein accession
DAD91748.1 [NCBI]
Genbank nucleotide accession
BK015121 [NCBI]
CDS location
range 1 -> 2728
strand -
CDS
ATGGGTAAGACTGTCACAAGCGTTGTCTCCGCGGGCTTAATGATAGCAGGTGTTATTGCTACGGGTGGTTTGGGGACTGCATTAATTGTTGCTGGCATTGCTGTTCAAGCTGCAAGTGCGTTTATCTTTAAAGATAAGGTGCCCGGCTCAGGCTATCGGGATCAGTCCGAACGTAAACAGATGTTGCGTTCAGCATCAGCACCAGAAACGGTCGTTGTAGGTAAAACAATGATGTCAGGTTTGCTTTTCTTTGCTGAAGAGGAAGAGGGCGAACAAGACGAAAATGAAGAACTCTACATGGCGTTAGCCATAGCCTCTCATCCCATTCATAAATTAGGTCAAATTTATTTCAATGATGACAAAATTGAAGATTTAGGCGACAACGCACAATACGAATTTCATAACGGTAGAACTGAGGCGGATCCATACCTATTAAAACATGCCCCTTCATGGAAAGAGGATATGATTGGTCGAGGGCTTGCATGGTTACGCTTAACATTACGCTTTGATCAAGAAAAGTTCCCTTATGGTGTGCCTAATGTTAAAAGTGAACTATGGGGAAAAGAAATTTATGATCCCCGTACCGAAAAAACAGCGTGGTCAAATAATGGTGCTTTGGTCATATTAGATTATTACCGTCACTATTTGGGGGTTCCAGACTCCGATATTGATTGGGATGCATTTAAAAGTGCAGCAGATATTTGTGATGAAACCGTACAAACGCCTGATGGAAAAAGTGAGCCTCGATATACATTAAATGGTGCCTATGAACTTGAAGAGAGTCCCGCTTCTGTATTAGAGATGATGCATAAATGCATTGCCGGCGAACCGACCTATATTGCAGGTAAGCACGGTATTTTGATGCAGGTTTATAATGGGCCTGCATTACTCACAATTGATGAGTCACAAATTATCGATACGGTAACGGTGACACCGGAACTTTCTTTGCGTGATGCGACTAATGCGATTTACGGTACTTTCGTTGATGCAGAGCAACAATATAACAAAACTGATTTTGAACCCGTAGTTATTGAGGAGTGGATAGAAGAAGACGGCTTAGAAATTAAAGAAAATATGGACTACCGTTTTGTAACCAGTCCATACCAAGCCAATCGACTAGCCAATCTTTATTTACGTAAAAAACGTGCCGGTCGTCGTATTCAATTACGCATGAATTTAGATGGCTATGCGTATCGCCCTGGTGATGTTATCAAGCTCGAGTTACCTTCATTAGGGATCAGTGATTTAGAATTTCGCATTGCTGATTGGAAATTTCACCCATCAGAGGGGGTAGAGATTACTCTCGAAGAAGATGGTCCTTATATCTATGAAGACTTAGCCAGTAAACCTTTTGTTAGACCTCCATTCACTAAACTACCCACTGGTGGCGTACCAGCACCGATCAATCTGGCTTTTGTTCCTCTTGCTGTCACCGATATCGTTCAAGGTTACATATCATGGCAGAACGTGGCATCTGATATTCGCTATAACACGGTTAATATTCTCCAGAATGGCAAGGTTATACAGTCTATTCAAGTTCCGGGGGAGCGTGTTGATATAAACGGTTTAACAAGAGGCACTTATCGTGTTGAGGTGAGAGCAATTAATGTGGCCGGCGCCATGTCTGCACCCGCTATCAGTGATTTTGCTATTCAGGCACCTCCTGCACCGATTAGCGTTGAAATAACACCGGGTATGTTCAGTTTAACAGCATCACCAAGGCAGGGGGATAGTGCTGTATTTGGTTATACCTTTGAGTTTTGGTTTAGTGAAAAGAAACTCACCAGTCTTTCTGAAAATGAGGTGATCACCAAAACAAACAAAGTTGGTCAAGGGAATTTCTGGACGCAAGAGAATTTAAAAGCTGGCCACACGTATTATTTCTATATCAGAACAATCAATAGCTACGGTAAATCTGTTTTCGTAGAAGCTTCTGGTGTTCCAGTTTCGCTACCCACAGATATTTTTGATGATTTAGATAACACGGTTAGAGAAACGGAGGCTTTCAAACAACTCAGCGAAGAACTGAAATGGAACACCGAGTCTATTGCGGTACTGACAAACGCCACTTACTCGCTCTCTACGGATGTATTGCAACGTTCTGCTAATGCGCAGGCCGGTATTACTCAACTACAACAACTCCGAGTTTCTGATAATGAAGCACGGGCGCAGGAAATCAAAGAAATTTATTCTGCTGTTGGTGAGAATAAATCGGCGATTAAGGAGACTCAAACCTCTATTACTAAACTTGATGAGGCTATCGGTCAGCGTTTTACCGCAATCCGAACTGATATGGATAATGCTCAAGCTGATATTATTTCAAACTCCCAAGCCATCTCTAACACAAACAAGGCTTTTGCTGAAAACAAAACTCAAGTTCAGGCTAAGTTTGATGAGCAAGAGGGCATGATACAGGAGAAGATGCAGGCCACGTTTGAGCAATCAGGCGACGGTGTTGTGACCCACTCGATTAATATCACCATTAAACACAATGGCGTGAGTTATAACGCAGCAGGACAAGTGATTAGCGCCCAAGTTAAGAACGGGAAATTAGAGTCATACATTGGCTATAACGCGAATAACTTTGCTTGGTATAACCCTGTAAATGGCAAGATGGAATTATTCATGTATGCCAAAAATGGGCAGTTTTTTATTCGAGACTTATTTATCGAAGATGGCTCTATTACAAATGCAAAAATAGGGAATGTGATTCAATCTAATAATTATG

Genome Context

Genome Context

Tertiary structure

PDB ID
a7534b1b079a1006e784ef2aa933ebb6f9ea650cbcd4e20b337f6dab6e4e1d29
ColabFold
Source ColabFold
Method ColabFold
Resolution 0,8044
Oligomeric State monomer
Download PDB
Model Confidence
Very high
pLDDT > 90
High
90 > pLDDT > 70
Low
70 > pLDDT > 50
Very low
pLDDT < 50