Genbank accession
CAB4130464.1 [GenBank]
Protein name
central tail fiber J
RBP type
TF
Evidence Phold
Probability 1,00
TF
Evidence RBPdetect2
Probability 0,76
Protein sequence
MTQIQEAVRAAMPVHSAAIFQPHPFSATAYQMQSPEGQPISAVVAQAKLPEIYRQYLRVWINDREVSRDEWGSRIVEAGETLYIRVVPQKGGKDIFRAIIMVVITIVAIYTGQEWAIGEGWTTVAGGTTLSLGGSIAAGLMAAGISALGYMALNALIPPPGLNNNRQDSQAERFHLTGTSNQFSPYANIPRVFGKRRLFPLMAARPYSENSGDDEYIRIALCVGWGPLKLTNIKIGETPIASFDGVEIETREGWSTDTPLTLFSRTVTEEGLSISLAPFSYSGTYYPGGYGYNGDNYSYDPSTDGYTGEAPIETNNWATRTTATNAVEFSVDIAFPQGLFTFDNSGNKTNATVNVGCQYRLVGASTWIDAAWANHADTGFGTAGHISITAADSTAFRKTGRVILPAAGQYEVTVRRESQAAPTNKTVDLTWWTALRTIKGDYPVLQTGVALIALRIKATGQLNGVPSAINCEAESYLPVWSGSAWAYTLTHNPAWAFCDLLRRRGGQSYIADSRIDLTGIKAWADACDTTAPNASEPYWEFNSVLEGGSVFENLKLVAANGRAAYTLKDGKHSVTRDISQSTPIQHITPRNSWGYSGTKVFANYPHAIRALFTNAANGYQSDERIVYYDGYNSSNATIFETLDLIGCTSSTQAYREARYHMAVARLRPEEHTINMDVENLRCTVGDLVRFAHDAVAIGIQATRVKDISGSSITLHDDVYFEAGHSYALRVRKSDGSSIVVSLSNPGAGYATVVTATSSVSGVAAGDLAMYGESGLETAPMLVKKIEPGADMSAKLTLVDAQAGVYTADTGTIPAFTTYITVQSLPGGGTAQRVGISNVRSDDSAIIINDDGSIVYRMFVQLQPPTGTYAERLDHFELQWRLTGNPIWNTMILDRSVGFAYITDVKVGSTYDLRVRGVAESDADSLWSTIITHTIVGKTHFSGLPSGLTATAISGGISLAWTNPTNDDFWQTEVWENSTNNYATAVKRTVTTGIRYDRMGLSAADGVKYFWIRSLDTSGNPSTQVGPASATANNKALTATLSRAAIVLVADTAGTVASFAEAIGQMTVYDGDTDVTAAATFSASATNATGTINTATNTPVGSQPRGYYRVTAMSADTGRLDLTATYNGQSITKSFSLAKALAGAAGSDSVTILMTRTSAEVMAYADGSVPSWAGIDGQITVYSGITDVTGSASFGSSTSGLTGAVNTSTNTPVTGPKGYYSVTAMSGDAGTLTITIVYGGVTYTRLFTVTKGRYGYEIVSTLPTTNLFEGRIVYLSTDGKLYRYHSGAWIKEVDGADIAAGSIAVAKFASGIEPVSIVSSIPGSLTTHSIFNTADGKLYRWNGSAYVATVAGADIDAASIALTKFASGIEPVGIVSSVPGSLSTKTILNTADNKLYRWDGSAYVASVDGADILATSITAGKIAAASISATEIASQAITAEKIAIASFGESALLNGGFEQVFSGDTTLPAGWSRNLYFGGSSATVYRAASGGKSGAACVEIITGSGGQGDLTGTPIPVVPGEQWYLSFWAKASGTNAGSSPGFYARLAGGATQTDFNYQTTVNIENVVVPASWTFYETVITVISGQQWAAPMFIQHVANTGVKITIDDVVMKKLVVSAVIADGAITTPKLVAGAVTANEIAANAITTGKIQAGAVTASEIAAGAITAEKLAVVSFSDSAILNGSFEDVAEADATLPSHWQRNNTYGGTSGTAFRNSSSGSIAGTCRVDMVPGAGSSCDMRADGIPVVAGDVWYVSCRAIASGTNAGSSPGFYLRVSGGANSPDCAVHLTGGVEGVTVPTSWTKYEGVFTIPSGMKFAAPTMLVYTTNTGATISVDDVVFKKVVGSTLIADGAITTGKLTAGAVTANEIAAGAITAAKIGANEVTAAKIDARGLSIKDASGNIIFNAGAGVTGLNPLTQGGGNNILDTSSWVTDATVPPTGFSTSSPSSGGYQDFPIVTAPDGSHRPAWRAVSGSGAVFEGGPASSYFPIDPQRMYRFSCWMRVDGAGGYAYLGADITSNCEGISGGGLGGGDYFIYEPRGSMTAGRWYLFTGYVMPHSYSYGQNNLGGVYDGATGTKIANCTDYRWKAAATQALFQAFQYYNTASGQETAFISPRVDLCDGTEPTLQELLSVALPSAQNPITSTNVSTYIASAAIQNAQIANLDATKITTGYLDAARINAETITSGMIVSASATAFERITQDCVAGHGWYTIPFYMDHAGMAMICMACNFQFSSAGNYDVRLGTGASLGSYEQLTGNVAAPGVFITTGDTFPAGWHNIYVYAEHANYSGDQGCHLLLLKSYR
Physico‐chemical
properties
protein length:2300 AA
molecular weight: 241823,29770 Da
isoelectric point:5,22398
aromaticity:0,09435
hydropathy:-0,00122

Domains

Domains [InterPro]
NF040662
Unmapped
324–805
IPR053171
Unmapped
376–1022
CAB4130464.1
1 2300
Architecture
STR
ATT
STR
ATT
STR
RBD
STR
STR 1-313 | ATT 314-438 | STR 439-602 | ATT 603-704 | STR 705-1160 | RBD 1243-1448 | STR 1449-2237 |
Legend: ATT STR RBD CBM LEC ENZ CHP LNK TAS TTP UNK Unmapped

Taxonomy

  Name Taxonomy ID Lineage
Phage uncultured Caudovirales phage
[NCBI]
2100421 Uroviricota > Caudoviricetes > Peduoviridae > Maltschvirus maltsch >
Host No host information

Coding sequence (CDS)

Coding sequence (CDS)
Genbank protein accession
CAB4130464.1 [NCBI]
Genbank nucleotide accession
LR796238.1 [NCBI]
CDS location
range 54876 -> 61778
strand +
CDS
ATGACCCAGATTCAGGAAGCAGTGCGCGCAGCAATGCCGGTGCATAGCGCCGCGATCTTTCAGCCGCACCCGTTCTCCGCGACCGCTTACCAGATGCAGTCGCCAGAAGGGCAGCCGATCTCGGCCGTCGTCGCGCAGGCAAAGCTCCCTGAAATTTATCGCCAGTACCTTCGCGTGTGGATCAACGATCGCGAGGTATCGAGGGACGAGTGGGGCAGCAGGATCGTCGAGGCCGGCGAGACTCTCTACATCCGCGTCGTTCCGCAGAAGGGCGGCAAGGATATCTTTCGGGCGATCATCATGGTCGTCATCACCATCGTCGCGATCTACACCGGGCAGGAGTGGGCGATCGGGGAGGGATGGACGACTGTTGCGGGCGGTACGACGCTGTCCCTCGGCGGCAGCATCGCGGCCGGCCTGATGGCCGCAGGCATTAGCGCGCTCGGCTACATGGCGCTCAATGCGCTGATCCCGCCGCCGGGGCTGAACAACAACAGGCAGGATTCGCAAGCCGAACGCTTCCACCTCACCGGCACATCGAATCAGTTCTCGCCATACGCGAACATCCCGCGTGTCTTCGGCAAGCGCCGGCTCTTCCCGCTCATGGCGGCGCGGCCGTACTCCGAGAATTCCGGCGATGATGAATACATCCGCATTGCGCTGTGCGTCGGCTGGGGTCCGCTGAAGCTCACGAACATCAAGATCGGCGAGACACCGATTGCATCGTTCGATGGCGTGGAGATCGAGACACGCGAGGGCTGGTCAACCGATACGCCGCTCACGCTGTTCTCGCGCACGGTCACGGAAGAAGGGCTTTCGATCTCGCTCGCGCCGTTCTCTTACTCAGGCACCTACTACCCGGGCGGATACGGCTACAACGGTGACAACTATAGTTATGATCCGTCAACCGACGGATACACCGGCGAAGCTCCGATCGAGACAAACAATTGGGCAACGCGCACCACGGCGACGAATGCTGTGGAGTTTTCCGTCGATATCGCCTTCCCGCAGGGCTTGTTCACCTTCGACAACAGCGGCAACAAGACGAATGCCACGGTCAATGTGGGCTGCCAGTATCGGCTCGTCGGCGCATCAACGTGGATCGATGCGGCGTGGGCGAACCATGCCGATACCGGCTTCGGCACCGCTGGCCACATCTCGATCACGGCCGCAGACTCGACGGCCTTCCGCAAGACTGGCCGCGTAATCCTGCCGGCCGCAGGGCAGTACGAAGTGACCGTGCGCCGCGAGTCGCAGGCCGCGCCGACAAACAAGACAGTCGATCTAACGTGGTGGACCGCGCTGCGCACCATCAAGGGCGACTATCCGGTGCTGCAAACTGGCGTGGCGCTGATCGCGCTGCGCATCAAGGCGACCGGGCAACTCAATGGCGTGCCATCGGCGATCAACTGCGAAGCCGAGAGCTACCTTCCAGTCTGGAGCGGCAGCGCGTGGGCGTACACGCTGACCCACAACCCGGCATGGGCCTTCTGCGATCTGCTGCGGCGGCGTGGCGGCCAATCGTATATCGCCGACTCGCGCATCGATCTGACCGGGATCAAGGCGTGGGCCGATGCGTGCGACACGACTGCGCCGAACGCCAGCGAGCCGTATTGGGAATTCAATAGCGTCCTAGAAGGCGGCTCGGTCTTCGAGAATCTGAAGCTCGTCGCGGCGAATGGCCGTGCCGCTTACACGCTGAAGGATGGCAAGCACTCGGTCACTCGCGATATCTCGCAATCGACGCCGATTCAGCACATCACGCCCCGTAACTCATGGGGATACAGCGGCACGAAAGTCTTCGCGAACTACCCGCACGCGATCCGTGCGCTCTTCACGAACGCGGCGAACGGATACCAGTCTGACGAGCGGATCGTTTACTACGACGGCTACAATTCCAGCAACGCCACGATCTTCGAGACTCTTGATCTGATCGGCTGCACCTCGTCAACGCAGGCGTATCGCGAGGCGCGCTATCACATGGCCGTCGCCCGGCTCCGGCCCGAAGAGCATACGATCAACATGGACGTCGAGAATCTTCGATGCACCGTGGGCGATCTGGTGCGCTTCGCGCATGACGCCGTGGCGATCGGCATTCAAGCGACGCGAGTGAAGGATATCTCGGGATCGTCGATCACGCTGCACGATGATGTGTACTTCGAGGCCGGCCACAGCTACGCGCTCCGCGTGCGCAAGAGCGATGGCTCGTCGATCGTTGTGAGCTTGAGCAACCCGGGCGCTGGTTATGCGACGGTGGTCACCGCGACCTCTTCTGTCTCCGGCGTCGCGGCCGGGGATCTGGCGATGTACGGCGAGAGCGGACTCGAAACCGCGCCGATGCTGGTGAAGAAGATCGAGCCGGGCGCTGACATGAGCGCGAAGCTCACGCTCGTCGATGCGCAGGCAGGGGTCTACACCGCAGACACCGGGACCATCCCGGCCTTCACGACGTACATCACTGTTCAAAGCCTGCCCGGCGGCGGCACCGCGCAGCGCGTCGGCATCTCGAACGTGCGCTCGGATGACTCGGCGATCATCATCAACGATGACGGCTCGATCGTTTATCGCATGTTCGTGCAGTTGCAGCCGCCGACCGGCACATACGCCGAACGCCTCGACCACTTCGAGCTTCAGTGGCGTCTGACCGGCAACCCGATATGGAACACGATGATCCTCGATCGGAGCGTCGGCTTCGCGTACATCACCGATGTGAAAGTCGGATCGACCTACGATCTGCGGGTGCGCGGCGTGGCCGAGAGCGACGCCGATAGCCTCTGGTCAACGATCATCACGCACACGATCGTCGGCAAGACGCACTTCTCTGGCTTGCCTTCCGGCCTGACTGCCACCGCGATCTCTGGCGGCATCTCGCTCGCGTGGACGAATCCCACGAACGACGACTTCTGGCAGACGGAAGTGTGGGAGAACAGCACCAACAACTACGCGACCGCAGTGAAGCGCACGGTCACGACTGGCATCCGCTATGACCGCATGGGGCTGTCGGCCGCAGATGGCGTGAAGTATTTCTGGATTCGCTCGCTCGACACCTCTGGCAATCCTTCGACGCAAGTAGGCCCGGCCAGCGCGACCGCGAACAACAAGGCGCTCACTGCGACGCTCTCGCGTGCGGCGATTGTGCTGGTCGCTGATACCGCCGGCACGGTTGCTTCGTTCGCCGAAGCCATCGGTCAGATGACCGTGTACGACGGCGACACCGATGTGACCGCAGCGGCGACCTTCTCGGCCAGCGCAACCAACGCCACAGGCACGATCAACACCGCCACCAACACGCCAGTCGGCTCGCAGCCTCGCGGCTACTATCGAGTCACGGCCATGAGCGCGGACACCGGCCGGCTCGATCTCACCGCAACGTACAACGGCCAGTCGATCACGAAGTCATTCAGTCTGGCGAAGGCGCTGGCTGGCGCGGCCGGATCGGATTCGGTCACGATCCTGATGACCCGCACCTCGGCGGAAGTCATGGCCTACGCCGACGGCTCGGTGCCTTCGTGGGCCGGTATCGACGGCCAGATCACCGTGTACTCGGGCATCACCGATGTGACCGGGAGCGCGAGCTTCGGAAGCTCGACCTCGGGCCTGACTGGCGCGGTCAACACCTCGACGAATACGCCGGTCACCGGGCCGAAGGGTTACTACTCCGTCACAGCAATGAGCGGCGATGCTGGCACGCTCACGATCACGATCGTCTATGGCGGCGTCACGTACACGAGGCTCTTCACGGTCACGAAGGGCCGCTACGGCTATGAGATTGTCTCGACGCTGCCGACAACGAATCTCTTCGAGGGGCGCATCGTCTATCTCTCGACCGATGGCAAGCTGTACCGCTATCACTCGGGCGCGTGGATCAAAGAAGTCGATGGCGCGGACATTGCCGCAGGCTCGATCGCAGTCGCGAAGTTCGCCAGCGGCATCGAGCCAGTCTCGATCGTGTCATCGATCCCCGGCTCGCTCACGACGCACTCGATCTTCAACACCGCAGACGGGAAGCTGTACCGCTGGAATGGATCGGCCTACGTGGCGACCGTGGCCGGCGCTGACATTGACGCTGCCTCGATCGCGCTGACGAAGTTCGCCTCTGGCATCGAGCCGGTGGGCATTGTCTCGTCGGTCCCCGGATCGCTATCGACAAAGACGATCCTCAATACGGCAGACAACAAGCTATACCGTTGGGACGGTTCAGCCTACGTCGCAAGCGTCGATGGCGCGGACATTCTTGCGACGTCGATCACCGCAGGGAAGATAGCCGCCGCCTCGATCTCCGCGACGGAGATTGCATCGCAGGCGATCACCGCAGAGAAGATCGCCATCGCCAGTTTCGGCGAGAGCGCGCTGCTGAACGGCGGCTTCGAGCAGGTCTTTTCTGGCGACACGACGCTACCCGCAGGCTGGTCGCGCAACCTGTACTTCGGCGGCAGCAGCGCGACCGTGTACCGCGCAGCATCGGGCGGCAAGTCTGGCGCAGCATGCGTCGAGATCATCACCGGCTCTGGCGGGCAGGGCGATCTCACCGGAACTCCGATCCCGGTTGTTCCCGGCGAGCAGTGGTATCTGTCTTTCTGGGCGAAGGCGTCCGGCACGAACGCCGGAAGCTCGCCCGGCTTCTATGCCCGCCTCGCAGGTGGAGCGACGCAGACCGACTTTAACTACCAGACCACAGTGAACATCGAGAACGTGGTCGTCCCGGCTTCATGGACTTTCTACGAAACGGTCATTACCGTAATCAGCGGCCAGCAGTGGGCCGCACCGATGTTCATCCAGCACGTCGCAAATACCGGCGTGAAGATCACCATCGACGACGTGGTAATGAAGAAGCTCGTCGTGAGCGCGGTCATCGCAGACGGCGCGATCACGACGCCGAAGCTGGTCGCCGGTGCAGTGACCGCGAATGAGATCGCCGCGAACGCGATCACCACCGGGAAGATTCAGGCCGGGGCAGTCACCGCGTCGGAGATTGCTGCCGGGGCCATCACGGCCGAGAAGCTCGCGGTCGTGTCCTTCAGCGACTCGGCCATCCTGAACGGTAGCTTCGAGGACGTGGCGGAGGCTGACGCAACGCTGCCGTCGCACTGGCAGCGGAACAACACCTACGGCGGCACCAGCGGGACGGCATTCAGGAACTCGTCGAGCGGATCGATTGCCGGCACTTGCCGTGTCGATATGGTCCCCGGCGCAGGGTCGTCGTGCGACATGCGCGCCGATGGCATCCCGGTCGTGGCTGGCGACGTCTGGTATGTCTCATGCCGGGCCATAGCCTCGGGTACGAACGCCGGAAGCTCGCCGGGCTTCTACTTGCGCGTGTCTGGTGGCGCGAACAGCCCCGATTGCGCGGTGCATCTGACCGGGGGCGTCGAGGGCGTGACCGTCCCGACTTCGTGGACGAAGTACGAAGGCGTGTTCACCATTCCTTCGGGCATGAAGTTCGCCGCTCCTACGATGCTCGTCTACACGACGAACACCGGCGCGACCATTTCCGTCGATGACGTTGTGTTCAAGAAGGTCGTCGGCTCGACGCTGATCGCCGATGGCGCGATCACGACTGGCAAGCTCACGGCCGGCGCTGTGACCGCGAATGAGATCGCGGCCGGCGCGATCACCGCAGCAAAGATCGGCGCGAACGAAGTCACCGCTGCAAAGATCGATGCGCGTGGCCTGTCTATCAAAGACGCCTCGGGCAACATCATCTTCAACGCTGGCGCTGGCGTCACTGGCCTGAATCCGCTGACGCAGGGCGGCGGCAACAACATCCTCGATACCTCAAGCTGGGTGACTGACGCGACCGTTCCCCCGACTGGCTTCTCGACTTCCTCACCGTCCTCCGGTGGATATCAGGACTTCCCGATTGTCACCGCGCCGGATGGCAGCCATCGGCCGGCATGGCGCGCAGTCTCCGGCTCCGGCGCTGTCTTCGAGGGCGGCCCCGCGTCGTCGTACTTCCCGATCGACCCGCAGCGCATGTACCGCTTCTCCTGTTGGATGCGCGTCGACGGCGCTGGCGGCTATGCGTACCTCGGCGCTGATATCACCTCCAACTGCGAAGGGATCAGCGGCGGCGGACTCGGCGGCGGCGACTATTTCATCTACGAACCTCGCGGCTCGATGACGGCTGGTCGCTGGTATCTGTTCACCGGCTACGTCATGCCGCACAGCTACAGCTACGGCCAGAACAATCTCGGCGGCGTGTACGACGGCGCAACCGGCACGAAGATCGCCAACTGCACCGACTACCGCTGGAAGGCTGCGGCAACGCAAGCACTGTTTCAGGCGTTTCAGTATTACAACACCGCCTCTGGTCAAGAGACGGCATTCATCAGCCCTCGCGTGGACCTGTGCGACGGCACCGAGCCGACCTTGCAGGAATTGCTCTCGGTGGCTTTGCCGTCGGCGCAGAACCCGATCACCTCGACCAACGTATCGACCTACATTGCCAGCGCCGCGATCCAGAACGCGCAGATCGCAAACCTCGACGCGACGAAGATCACCACCGGCTACCTCGACGCGGCACGCATCAACGCCGAGACCATCACCAGCGGCATGATCGTGTCGGCCTCGGCGACGGCATTCGAGCGCATCACGCAAGACTGCGTGGCCGGGCATGGCTGGTACACGATCCCGTTCTACATGGATCACGCTGGCATGGCGATGATCTGCATGGCTTGCAACTTCCAGTTCAGCAGCGCCGGAAACTACGACGTCCGCCTCGGCACCGGAGCCTCGCTGGGCAGCTACGAGCAGTTGACCGGCAACGTGGCTGCGCCGGGCGTGTTCATTACGACCGGCGACACCTTCCCGGCCGGCTGGCACAATATCTACGTCTACGCCGAGCATGCCAACTACTCCGGCGATCAGGGCTGCCACCTCCTTCTGCTCAAGAGTTACCGATGA

Genome Context

Genome Context

Tertiary structure

PDB ID
4e128d8456e9d432e05ffc67cb02e788264648d73409274391969544ec5914ec
ColabFold
Source ColabFold
Method ColabFold
Resolution 0,6412
Oligomeric State monomer
Model Confidence
Very high
pLDDT > 90
High
90 > pLDDT > 70
Low
70 > pLDDT > 50
Very low
pLDDT < 50