Genbank accession
XTP78261.1 [GenBank]
Protein name
tail fiber protein
RBP type
TF
Evidence Phold
Probability 1,00
Protein sequence
MVDLVAGTPASVAYSGSAVEYVVKAAGQVDIYLWGGAGSGGYYANGSGNANKFGGAGGYTNARFMVDVGDIITVEVGQGGRVPTGSGTTASAGGLGGWPDGGFGAINSGAAWVAPGGGGGSTRIYKNGDLVAVAGGGGGATGFYSGGNGGGALGMASTDASSGAGGTQLAGGVAGSGTLAVQSGGYFRGGQASTAANVSNAYTGGGGGGGFYGGASNGGGSGAHGSGGGGSGWLSQATDVAGACRVAPQDGTGAPINPAGITIPAGTAQGGVGPTVASTGWASITPGGNGFAYLALTDIGATASALPSGSSTLSYTGTRQVYEVTDICSVDFEMWGGGGGGGFYTSGGNAARFGGAAGYTKLTRILYPGDIVEVEVAQGGQAPSGVSQTGGAGGWPNGGSGGRPAAAAPNFGGGGGSTNVWVNGRLLAIAAGGGGSTGFYYGGVGGGRFGLQSTDQTTNNGTGGTWGGVNAVSSQGRGYFLQGGHGSPIEIPDRRDRHGWRGRRRRLLRRRGAKGGSGTHGSGGGGCGYTSGDNTYNRVMQAGTPATGAPYDPGTKPAGVGVGGTGGSSAGTTGPGGDGAINLTVTPLTSLPTLPTGKTVFSFTNAAEHYVAGTTGLMALKVWGAGGGGCTRSSGTLRRGGGGGFFKVDIVKINQGDIVTFVVGEGGKGMPGPNLGGRGGFPNGEYGNAGDATGGNAGGGGSSHVYINGKLVGVAGGGGGGAISFDGGTAGLASYPPSGDGFGPSGSSLFYGGFSPQRGAEGNNRGVFMLAGIGQIDGGTIDTPNNLAGGGGGGGYWGGAGSAPNNSRFQPGGPGSTYITANYVGTQQAGTTSGTNLSDPDWGSSASVGGQGSNTPGNSVTNGGHGRIVCSFDIPTLLNESVSANVPVASAVQTFMVGNDGTITLKAWGAGGGGSMMTANSGSELAGGGGYAAATLDLKKGQILRVYNGAGGNGAVYTSGVSGAFVGTGGPGGWPDGGQGGMHVSGIFGGGGGSSRVYVDDILLLVAGGGGGGGIHTATTTAGGGGGTTGGNSDTVTVFNTGGQTYRGGWNTGRTTDATTSGSGFKGGAGYLAGSTASTSNIAHGGGGGGGLYGGSGSGSTNASSTGWLGGAGGSGFVADGWDVTEYDYLRDYVVLQYSFDTPSGVADDARKLNTLLLDTAPTTTTSGPKFGTTCLTMSAGHLTTDIPAIGQQDFTLEGWFNPASLTTGVMMIIGDQSINGLSLHYYPSATVLGLRYNNADPSGATLDTKYTDSARAANVWAHYAISRDINGTRVYKDGILVSTTTGSPFSITATTLTLGNYRSIAGASTRFVGKIDEVRLTVGVARYRQNFKPQQFRNKRTLGLTGASTVQAGSSGNGLPASTGVSGYAAGRGVGAAVKTTPANGNPGGDGQINYFLATSTVAATGPIGTVQVGGLITAAAGAFYPLPAAGTTVVHPYTGSRYNYSVDDPGGARIKVEMWGAGGGGCSATNSSTSTGGGGGGYTVYEMDLVQGDKITLQTPSGGFGSNTAGGSDASGINAGGYPDGGNGYRPAFTAFNGGGGGSARMWAGGDLAAVAGGGGGGAYGSVAYDFAGGPGGGSSGGSGGYDGVNATFPNTGGTQSVGGTGTPNGVSGSFMQGGVGGTTISVANNGPGGGGGYYGGGGGGAYKAAGGGSGYINTTLSGYRTGSTSGGSGNLPGGMGSPNYASGIGVGSNGKAGVRDGGNGRIVLTVITPTPGNAAGLIGTVNVSGLNTFGTLVGTPTGAIGTVNVVVPVGTSGQPAFASGVLPVIGLGPPETIPQAQAIVIVPINDQTSLLVSPPDHAPFAIDAEGTGDLGTITVTSFNSTQTAAANATPALPTVTLTAPEADAVEIPPVLASGALVTIPVTAPEASTQVIPPVETSGDIGTITLVTLNGDASTNNNVATSGDIGTITLTALDGSAQGDDLAEGLIGTITVTVPTAVVQQSAEATGDIGTISVYAIEGGQPADASGDIGTIQIVPLGVSVNASSGDDVNLYVDPGLIYVVAPFGQGFWISEDNFVHALPDPLVVSVTTPTGSARGDVRMVGSFAPIILSKLDGSAGGDGLAEPYTGDWIILVSPPVPQTELNANVNVAMPPPIVINGNDAEASLDITVPFSDTAVFITGPEALGLGFHGGQLGPPILVTPPAGGPEISANGIGQIGTIGVEPPRFHYIPPITVIPPEGVALDAKSAQASGSLGTITIGVPTGGYQAAVAINLPLPTIFVTTPQAMVFASVAISGALSTITLTPPVASLTAGANASFTLPGPIVLTSPEATATAGTAASTSGALTTITLTAPTGSVATGSAASATGSIGTITVTPFDGSVFISYPGFATGAIGTITLTPPAATVSNGRNLSLAFPGPIVVTSPVAVPRGSVAITGTIGTITLTAPIGTATGDTIFGTGDIGTITVTGINGAATGRGLGTGAIGTIVVTPPAATLTTGANKSVALPGPIVVTAPTGVGRVPSATSGALGTITITSTPEATVSAGQGLSGQIGTITITPPEAQGQGAVFIQATDELVVQTLPPQAILFQEATVIVGFPTIYLVAPEAITYSLAEFASITLLPPDAYVTVPLPLGKNRIRYRRNNTAGHAPASLLPHEIALNETDGLLFTRDGAGAVKSTPLGFMHGEGLPPPATDDGKVLSGGMSWETPFTQYLLPVRNAPPAGARIALAEGVVGTTTFTPTLDVTYTRPFFVAKTIDIQALSIEVVGTAVSTAELGLIGWSLTGTPGAAIVTGTVSTSTAGVKSAAGTATVLTPGWYAATFKVTGAAGASFRAPTTPTAIAPDFTTAPGAPAPVMATLET
Physico‐chemical
properties
protein length:2805 AA
molecular weight: 271816,17400 Da
isoelectric point:4,94519
aromaticity:0,06845
hydropathy:0,07786

Domains

Domains [InterPro]
IPR013320
STR
1131–1321
PF13385
LEC
1181–1321
XTP78261.1
1 2805
Architecture
STR
STR
STR 3-1321 | STR 1324-2805
Legend: ATT STR RBD CBM LEC ENZ CHP LNK TAS TTP UNK Unmapped

Taxonomy

  Name Taxonomy ID Lineage
Phage Caulobacter phage RBC63
[NCBI]
3411844 No lineage information
Host Caulobacter crescentus CB15
[NCBI]
190650 Bacteria > Proteobacteria > Alphaproteobacteria > Caulobacterales > Caulobacteraceae > Caulobacter

Coding sequence (CDS)

Coding sequence (CDS)
Genbank protein accession
XTP78261.1 [NCBI]
Genbank nucleotide accession
PV231352.1 [NCBI]
CDS location
range 37910 -> 46327
strand +
CDS
TTGGTCGATCTCGTCGCCGGCACGCCCGCTTCCGTTGCCTATTCCGGCAGCGCGGTGGAGTATGTCGTCAAGGCTGCGGGTCAGGTCGACATCTACCTGTGGGGTGGCGCGGGCTCGGGCGGCTACTATGCCAACGGTTCGGGCAACGCCAACAAGTTCGGCGGCGCGGGCGGCTACACCAATGCCCGCTTCATGGTCGATGTCGGCGACATCATCACCGTCGAGGTGGGCCAGGGCGGGCGCGTCCCGACCGGCTCGGGCACCACCGCGTCTGCCGGTGGCCTGGGCGGCTGGCCTGATGGCGGCTTCGGGGCGATCAACTCTGGCGCGGCTTGGGTTGCTCCTGGCGGCGGCGGCGGTTCGACCCGCATCTATAAGAACGGCGATCTGGTCGCCGTCGCGGGCGGCGGCGGCGGCGCCACGGGCTTCTACAGCGGCGGCAACGGCGGCGGCGCGCTCGGCATGGCGTCGACCGACGCCTCGTCCGGCGCGGGCGGCACGCAGCTTGCCGGCGGCGTGGCCGGCTCGGGCACGCTGGCTGTCCAGTCCGGCGGCTACTTCCGGGGCGGTCAAGCCAGCACCGCCGCGAACGTCTCCAACGCCTACACGGGCGGCGGCGGCGGCGGCGGCTTCTATGGCGGCGCGTCCAACGGCGGCGGCTCGGGCGCGCACGGCTCGGGCGGCGGCGGCTCGGGCTGGCTGTCCCAGGCCACCGACGTCGCGGGCGCGTGCCGTGTTGCGCCGCAGGACGGCACGGGCGCTCCGATCAACCCGGCGGGCATCACCATTCCGGCCGGCACCGCGCAAGGCGGGGTCGGCCCCACGGTCGCAAGCACGGGCTGGGCCTCGATCACGCCGGGCGGCAACGGCTTTGCCTACCTCGCCCTGACCGACATCGGGGCCACGGCCTCGGCCCTGCCGTCGGGCAGTAGCACGCTCAGCTATACCGGAACCCGGCAGGTCTACGAGGTCACCGACATCTGCTCGGTCGACTTCGAGATGTGGGGCGGCGGCGGCGGCGGCGGCTTCTATACCTCTGGCGGCAACGCCGCGCGCTTCGGCGGCGCGGCCGGCTACACCAAGCTCACCCGCATCCTCTATCCGGGCGACATCGTCGAGGTCGAGGTCGCCCAGGGCGGTCAGGCCCCGAGCGGCGTCAGCCAGACCGGCGGCGCGGGCGGCTGGCCCAATGGGGGCTCCGGCGGACGCCCGGCGGCGGCGGCGCCCAACTTTGGTGGCGGCGGCGGCTCGACCAACGTCTGGGTCAACGGACGTCTGCTGGCGATCGCGGCCGGCGGCGGCGGCTCGACCGGCTTCTACTACGGCGGTGTGGGCGGCGGGCGCTTTGGCCTCCAGTCGACCGACCAGACGACCAACAACGGCACCGGCGGCACCTGGGGCGGCGTCAACGCGGTCAGCAGCCAGGGTCGCGGCTATTTCCTGCAAGGCGGCCACGGCTCGCCGATCGAGATCCCCGACCGTCGCGATCGCCACGGCTGGCGCGGGCGGCGGCGGCGGCTATTACGGCGGCGGGGCGCCAAGGGCGGCTCGGGCACGCACGGCTCGGGCGGCGGCGGCTGCGGCTACACCTCGGGCGATAACACCTACAACCGCGTTATGCAGGCGGGGACGCCTGCCACCGGCGCGCCCTACGATCCGGGCACCAAGCCGGCTGGCGTGGGCGTGGGCGGAACGGGCGGCTCGTCGGCTGGCACCACCGGCCCTGGCGGCGACGGTGCGATCAACCTGACCGTCACCCCCCTGACGAGTCTGCCGACCCTGCCGACTGGCAAGACGGTCTTCAGCTTCACCAACGCGGCTGAGCATTACGTCGCCGGAACCACGGGCCTGATGGCCCTGAAGGTCTGGGGCGCGGGCGGTGGCGGCTGCACGCGCTCGTCTGGCACGCTGCGGCGCGGCGGCGGCGGCGGCTTCTTCAAGGTCGACATCGTCAAGATCAACCAGGGTGACATCGTCACCTTCGTGGTCGGCGAGGGCGGCAAGGGCATGCCCGGCCCGAACCTGGGCGGACGCGGTGGCTTCCCGAACGGCGAATACGGCAACGCCGGCGACGCCACGGGTGGCAACGCCGGCGGCGGCGGCTCCTCCCACGTCTACATCAACGGCAAGCTTGTTGGGGTCGCGGGTGGCGGTGGCGGTGGCGCGATCTCGTTCGACGGCGGCACGGCGGGTCTGGCGTCCTATCCGCCCAGCGGCGACGGCTTTGGCCCCTCCGGCTCGTCCCTCTTCTATGGCGGCTTCTCGCCCCAGCGCGGCGCGGAAGGCAACAACCGTGGCGTCTTTATGCTGGCCGGCATCGGTCAGATTGACGGCGGCACGATCGACACGCCCAACAACCTCGCGGGCGGCGGCGGTGGCGGCGGCTACTGGGGCGGCGCCGGCTCGGCGCCCAACAACTCCCGCTTCCAGCCCGGCGGCCCTGGCTCCACCTACATCACCGCCAACTATGTGGGCACCCAGCAGGCGGGCACCACCAGCGGCACCAACCTGTCCGATCCCGATTGGGGGTCCTCGGCCAGCGTGGGTGGCCAGGGCTCTAACACGCCCGGCAACTCCGTCACCAATGGTGGGCACGGGCGCATCGTCTGCTCGTTCGACATCCCGACTCTGCTGAACGAAAGCGTCAGCGCCAACGTCCCCGTGGCCTCGGCGGTCCAGACCTTCATGGTCGGCAACGACGGCACCATCACGCTCAAGGCCTGGGGCGCGGGCGGCGGCGGCTCGATGATGACCGCCAACAGCGGCTCGGAACTGGCCGGCGGCGGCGGCTATGCGGCGGCGACGCTCGACCTCAAGAAGGGCCAAATCCTGCGCGTCTATAACGGCGCGGGCGGCAATGGCGCGGTCTATACCAGCGGCGTCTCTGGGGCCTTCGTTGGCACCGGCGGTCCCGGCGGCTGGCCCGATGGTGGTCAGGGCGGCATGCACGTCTCGGGCATCTTCGGCGGCGGCGGCGGCTCCTCGCGCGTCTATGTCGACGACATCCTGCTTCTGGTCGCGGGCGGCGGCGGCGGCGGCGGCATCCATACGGCCACGACCACCGCCGGCGGCGGCGGTGGCACGACGGGCGGCAACTCCGACACCGTCACGGTCTTCAACACCGGCGGCCAGACCTATCGCGGCGGCTGGAACACCGGCCGCACGACCGACGCGACCACCTCGGGCAGCGGTTTCAAGGGCGGCGCGGGCTATCTGGCAGGCAGCACGGCCTCGACCAGCAACATCGCCCATGGTGGCGGTGGCGGCGGCGGCCTCTATGGCGGTTCGGGCTCCGGTTCCACCAACGCCTCCTCGACCGGCTGGCTGGGCGGCGCCGGCGGCTCGGGCTTCGTCGCGGACGGCTGGGACGTCACCGAGTACGACTACCTGCGCGACTACGTGGTCTTGCAGTATAGCTTCGACACGCCCAGCGGCGTGGCCGACGATGCGCGCAAGCTGAACACCCTGCTGCTCGATACGGCCCCGACGACGACGACCTCCGGCCCGAAGTTCGGCACCACCTGCCTGACCATGTCTGCCGGCCACTTGACGACGGACATCCCGGCGATCGGCCAGCAGGACTTCACCCTGGAAGGTTGGTTCAACCCCGCGTCCTTGACGACCGGGGTCATGATGATCATCGGGGACCAGAGCATCAACGGCCTGTCCCTGCACTACTACCCCTCGGCCACGGTCCTGGGCCTGCGGTACAACAACGCCGATCCCTCGGGCGCCACGCTCGACACCAAGTACACCGACTCTGCGCGCGCCGCCAACGTCTGGGCGCACTATGCGATCTCGCGCGACATCAACGGCACGCGCGTCTACAAGGACGGCATCCTCGTCTCGACGACGACCGGCTCGCCGTTCTCGATCACCGCCACCACCCTGACCCTGGGCAACTACCGGTCGATCGCGGGGGCCAGCACGCGCTTCGTCGGCAAGATCGACGAGGTGCGCCTGACGGTGGGTGTCGCCCGCTACCGCCAGAACTTCAAGCCCCAGCAGTTCCGCAACAAGCGCACCCTGGGCCTGACGGGTGCGAGCACGGTCCAGGCCGGCAGCAGCGGCAACGGCCTGCCGGCCTCCACGGGCGTCTCGGGCTATGCCGCCGGTCGCGGTGTCGGCGCGGCCGTCAAGACCACGCCCGCCAATGGCAACCCTGGCGGCGACGGGCAGATCAACTATTTCCTGGCGACCTCGACGGTCGCGGCGACGGGTCCGATCGGCACCGTCCAGGTCGGTGGACTGATCACGGCCGCCGCCGGCGCCTTCTATCCGCTGCCGGCGGCCGGCACCACCGTCGTCCATCCCTATACCGGCTCGCGCTACAACTACTCGGTCGACGATCCGGGTGGGGCGCGCATCAAGGTCGAGATGTGGGGCGCGGGCGGCGGCGGCTGCTCGGCGACCAACTCCAGCACCTCGACGGGTGGCGGCGGCGGCGGCTATACCGTCTACGAGATGGACCTTGTCCAGGGTGACAAGATCACGCTCCAGACGCCGTCCGGGGGCTTCGGCTCCAACACCGCCGGCGGCAGCGACGCCTCGGGCATCAATGCCGGCGGCTATCCCGACGGTGGCAACGGCTATCGCCCCGCCTTCACCGCGTTCAACGGCGGCGGCGGCGGCTCTGCGCGCATGTGGGCGGGCGGCGATCTGGCGGCCGTGGCGGGCGGCGGCGGCGGCGGCGCCTATGGCTCGGTCGCCTATGACTTCGCGGGCGGCCCCGGTGGCGGTTCGTCGGGCGGCTCGGGTGGCTACGACGGCGTCAACGCGACCTTCCCCAACACCGGCGGCACCCAAAGCGTCGGTGGCACGGGCACGCCCAACGGTGTCTCGGGCTCGTTCATGCAAGGCGGCGTGGGCGGCACCACGATCAGCGTCGCCAACAACGGCCCCGGCGGCGGCGGTGGCTATTACGGCGGCGGCGGCGGCGGCGCCTACAAGGCGGCCGGCGGCGGCTCGGGCTACATCAACACCACCCTGAGCGGCTATCGCACCGGCTCGACCTCGGGCGGCTCGGGCAACCTGCCGGGCGGCATGGGCTCGCCCAACTACGCCTCGGGCATCGGGGTCGGTTCGAACGGCAAGGCGGGCGTTCGCGACGGCGGCAACGGCCGGATCGTCCTGACGGTCATCACGCCCACGCCCGGCAACGCCGCCGGTCTGATCGGCACCGTCAACGTCTCGGGCCTGAACACCTTCGGCACCCTGGTCGGCACCCCGACCGGCGCGATCGGCACGGTCAATGTCGTCGTCCCGGTCGGCACGTCCGGTCAGCCGGCCTTTGCGTCGGGCGTCCTGCCGGTCATCGGGCTGGGTCCGCCCGAGACGATCCCGCAGGCCCAGGCGATCGTCATCGTTCCGATCAACGACCAGACCTCGCTCCTGGTCAGCCCGCCCGATCACGCGCCGTTCGCCATCGACGCCGAGGGCACGGGTGATCTGGGCACGATCACCGTCACGTCGTTCAACTCGACCCAGACGGCCGCCGCCAACGCCACCCCCGCCCTGCCGACGGTCACGCTCACCGCGCCCGAGGCTGACGCGGTCGAAATCCCGCCGGTCCTGGCGTCGGGCGCGCTCGTCACCATCCCGGTCACCGCGCCCGAGGCGTCCACCCAGGTCATCCCCCCGGTCGAGACCAGCGGCGACATCGGCACGATCACGCTCGTCACGCTCAACGGCGACGCCTCGACCAACAACAACGTCGCCACCTCGGGCGACATCGGCACGATCACGCTCACCGCGCTGGATGGCAGCGCCCAGGGTGATGATCTGGCCGAGGGCCTGATCGGTACGATCACGGTCACCGTCCCCACGGCGGTCGTTCAGCAGAGCGCCGAGGCGACCGGCGACATTGGCACCATCTCGGTCTACGCGATCGAAGGGGGTCAACCGGCTGACGCCAGCGGCGACATCGGCACGATCCAGATCGTCCCGCTGGGCGTCTCGGTCAACGCCAGCAGCGGCGACGACGTCAACCTCTACGTCGATCCGGGCCTGATCTATGTCGTGGCCCCGTTCGGCCAGGGCTTCTGGATTTCCGAGGACAACTTCGTCCACGCCCTGCCCGATCCGCTGGTCGTGTCGGTCACCACGCCGACCGGCAGCGCGCGCGGCGACGTGCGCATGGTCGGCTCGTTCGCGCCGATCATCCTGTCCAAGCTGGATGGATCGGCTGGCGGCGACGGCCTCGCCGAGCCCTATACGGGCGACTGGATCATCCTGGTCTCGCCGCCGGTTCCGCAAACGGAACTGAACGCCAACGTCAACGTGGCGATGCCGCCGCCGATCGTCATCAACGGCAACGACGCGGAAGCCTCGCTCGACATCACCGTGCCGTTCAGCGACACGGCGGTGTTCATCACCGGCCCCGAGGCGTTGGGTCTGGGCTTCCACGGCGGGCAACTGGGTCCGCCGATCCTGGTCACGCCCCCGGCGGGCGGCCCGGAGATCAGCGCCAACGGCATCGGCCAGATCGGCACGATCGGCGTTGAGCCGCCGCGCTTCCACTACATCCCGCCGATCACCGTCATCCCGCCCGAAGGCGTGGCGCTGGACGCCAAGTCGGCCCAGGCCTCCGGCTCGCTGGGCACGATCACCATCGGCGTGCCGACGGGCGGCTATCAGGCCGCTGTCGCCATCAACCTGCCGCTGCCGACGATCTTCGTCACCACGCCGCAGGCCATGGTCTTCGCCTCGGTCGCCATCAGCGGCGCCCTGAGCACGATCACGCTCACCCCGCCCGTCGCCAGCCTGACGGCCGGCGCGAACGCGTCCTTCACTCTGCCCGGTCCCATCGTCCTGACCTCGCCCGAGGCGACGGCGACGGCCGGCACGGCGGCCTCGACCTCCGGCGCACTGACCACCATCACCCTGACGGCGCCGACTGGTTCGGTCGCGACCGGCAGCGCCGCCTCGGCCACCGGCTCGATCGGCACGATCACGGTCACGCCGTTCGACGGCAGCGTCTTCATCTCCTACCCCGGTTTTGCCACGGGCGCGATCGGCACGATCACCCTGACGCCGCCGGCCGCGACCGTCAGCAACGGCCGTAACCTCTCGCTCGCTTTCCCCGGCCCGATCGTCGTCACCTCGCCGGTCGCCGTACCGCGCGGCTCGGTCGCCATCACCGGCACCATCGGCACGATCACGCTCACCGCGCCCATCGGCACGGCGACCGGCGACACCATCTTCGGCACCGGCGACATCGGCACGATCACCGTCACGGGGATCAATGGCGCGGCGACCGGGCGCGGCCTGGGCACGGGCGCGATCGGCACGATCGTCGTCACCCCGCCGGCCGCGACGCTCACCACCGGCGCCAACAAGTCCGTCGCCCTGCCCGGCCCGATCGTCGTCACCGCCCCGACGGGCGTGGGCCGCGTGCCCAGCGCTACCTCGGGCGCGCTCGGCACGATCACGATCACCAGCACGCCCGAGGCTACGGTCTCGGCCGGGCAGGGTCTGTCGGGTCAGATCGGCACGATCACGATCACCCCGCCCGAGGCGCAAGGCCAGGGCGCGGTCTTCATCCAGGCGACCGACGAACTCGTCGTTCAGACCCTGCCGCCGCAGGCGATCCTCTTCCAGGAAGCCACGGTCATCGTCGGCTTCCCGACGATCTACCTTGTCGCGCCCGAGGCGATCACCTACTCGCTGGCCGAGTTCGCCTCGATCACCCTGCTGCCGCCGGACGCCTATGTGACCGTGCCGCTGCCGCTGGGCAAGAACCGCATCCGCTATCGCCGCAACAACACGGCGGGACATGCGCCCGCGAGCCTGCTGCCCCACGAGATCGCGCTGAACGAGACCGACGGCCTGCTGTTCACCCGCGACGGCGCGGGCGCGGTCAAGTCCACGCCGCTGGGCTTCATGCACGGCGAAGGCCTTCCGCCGCCGGCCACCGACGATGGCAAGGTGCTGTCGGGCGGGATGTCCTGGGAGACGCCGTTCACCCAGTACCTGCTCCCGGTCCGCAACGCCCCGCCGGCCGGCGCGCGCATCGCCCTGGCCGAGGGCGTGGTCGGCACCACGACCTTCACGCCGACGCTCGACGTCACCTACACCCGTCCGTTCTTCGTGGCCAAGACCATCGACATCCAGGCGCTGTCGATCGAGGTCGTGGGCACCGCCGTCTCGACGGCCGAACTGGGCCTGATCGGCTGGTCGCTCACCGGCACGCCGGGCGCGGCGATCGTCACCGGCACGGTCAGCACCAGCACGGCGGGCGTCAAGTCCGCCGCCGGCACGGCCACGGTCTTGACGCCGGGCTGGTACGCCGCCACCTTCAAGGTCACCGGCGCGGCGGGGGCTTCGTTCCGGGCTCCCACCACCCCGACGGCGATCGCGCCGGACTTCACCACCGCGCCGGGCGCGCCCGCGCCGGTCATGGCGACCCTGGAGACCTAA

Genome Context

Genome Context

Tertiary structure

PDB ID
8335c3d1f8bdf851254d97b657729b9e5ee30f718c45e2abf4c6dad0fb2e4da4
ColabFold
Source ColabFold
Method ColabFold
Resolution 0,3621
Oligomeric State monomer
Model Confidence
Very high
pLDDT > 90
High
90 > pLDDT > 70
Low
70 > pLDDT > 50
Very low
pLDDT < 50

Literature

Title Authors Date PMID Source
Dolichocephalovirinae Phages Are Present as Episomal Pseu-dolysogens Within a Wide Range of Soil Bacteria Mohammadi,T. and Ely,B. 2025-05-28 GenBank