Protein

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UniProt accession

A0A9E7J1R7 [UniProt]

Protein name

Tail fiber protein

RBP type

Evidence UniProt/TrEMBL

Probability 1,00

Evidence GenBank

Probability 1,00

Protein sequence

MNKLVKRRFQAGLGSEIKRVYKEGQQINTLLLAQVIQVNYKYNTVDLLALQHKEVFQNSYANEGRFSARLPMEFGGRNIVGQPYGQVNPIAVGTVVLVGFINSDKDMPIVISVYNNNDVSKQLSRTQFSNSDPKDLELIGDMHQKFSLYPSLTYDSVDGEGGRVVTFSGKSFIAFDTKEVANSSTTDAGYGTKYEDLETSYYNNGDLIEPMKGRAPNVLFKHQGVLDDDGKPDLHDLLIHINPDGTYRTSMMNKEEDWRTLFEMTPDGRVKLRKQDSINIDGGIEISELGINNEGFVYLRNGDMDLEVRKDGIYSQGKLFTADVDLSDVYDKLNGLSIQIKETNGQLEIIANGVEEQNGKISELSTEITIVAGKVESKVTKTEVQDMIDSSFVDMSDAIKKAQEDADKANKVIADMSSDNRLTPSEKIDLLKEWDIIKNEYPSYLEQAETYEVDSKDYTAKYNSLELFVTPILADMESTSSVDGATLRKTFNSYYTARIALLNSISKKLKDGITEAMKKASQASLDATQAMADASQAKIDADNANKLISDIASDNKLTPSEKYQLKKEWDVIVKEYPTTIAQAEKYAVATAEYTAKYKALELFVEPLFKDMDETSIVDGERLRATFSDYYASKIALLKEVTDSAKTELDAYGNKISVMETNITQTSEAITLLATRVQTVEDGVQSNKAQIEIQAEQISQKVTASEVKGIVDDSINNLTLGGTNLFVIKTQTAGLLNENDGTVGTAVDNSVVSDYIKVNQKTPYIATLYGNTGTNMIITDWYDKNRTFISGEAVADSGDFSKKYVSPDNAVYARVSYKKANYVNIKFEAGTKATDYSPSWEDIKGDQTALEEYIKKVEEQAKKAQQDAENAKNDAENANNAIADMSNDNMLAPNEKKQILLQWEQIKTEYPINLDQATKFGVSSQQYTTAYNALDEYLKPILADMTTTSVVVGSTLRNTFNNYYDKRTTLLNRISDVAKNVADKAQETADTINDNLQNIGGYNYVGFSSGDNMLPRLMIKNVGYYTLGSSTTEFIDSMVAVKGDATTQPFDYTVGTSDKEIAGGGLADYRMKEVKEGQWITASANVQVIGGGSARLAIYTLEGDNWVGSNSTPIQVSDGLKRVVAQRKVTGLTKGVLIRIESADTNVKEFRFGNVQLEVGIIPTPWKKSDIDIQEDINNVVQNIKTYTAWANDLQGLDFTREKVEGKTYMYVGTSMKDSDNYSDYTWRLTDEHIEGQINGKEGAWIYSPTAPTNPSQGLIWVDLSKVPNQPKRWVDSETGWVALTPEEVKDLPWGEDGTNLADWVAQAEQRISSDSIINTVLGSEDFTSVFDTKANTTDLDNLATYEDLDSIKEDYNRLIKEGINGIDFTPYVTNSELQQLKDSFNFSVQQAGGVNMLKNSLGFSGLDFWDGTVGKNLLPNSTWNLGFGRWGGASIASFEILPPEDDKPTSHILGSIGSRSSTKEIGNRPHPLKVNSGETYTISFDYKEEALAYDKDRPILVVRNYPDKDTDQWMEYSIEGWAVMANGSTTDLTVWRRFTKTFTIGTSGYLDILPKTIVESWTHRSFWRELKIEEGSQATTWVPNKEDGAFTGGIVETTQTEELANLGFGSGFVSSKRPSSSLTQSVELPEIGANLEYSLSFYMKVTTDNPVADFKCGIRVYEGDTLTYTLGIEDATQPIPLGFQQYKLVFTPTSTSTKIEMFVENGQEASVIISGIMYNIGNIPLKWQPYPSEIYNTNVKIDINGVTVKNNQTDGYTMITPQEFSGYSRIDGNIERIFTLNGQVTEVKMLKAEKRITMEPVSVFAMNTVTDTKRIRGWAFVPSFE

Physico‐chemical properties

protein length:	1825 AA
molecular weight:	202951,29630 Da
isoelectric point:	4,72289
aromaticity:	0,09041
hydropathy:	-0,46197

Domains

Domains [InterPro]

DC_1874
ATT
77–506

DC_1874 DC_0015 Coil DC_0336

Coil
Unmapped
399–419

Coil DC_0015 G3DSA:2.60.120.260

A0A9E7J1R7

1 1825

Architecture

ATT

STR

RBD

STR

RBD

ATT 77-506 | STR 524-1532 | RBD 1533-1571 | STR 1572-1717 | RBD 1718-1798 |

Legend: ATT STR RBD CBM LEC ENZ CHP LNK TAS TTP UNK Unmapped

Domains [InterPro]

Domain ID	Category	Cluster	Start	End	Layer	Name	Pref Zone	Confidence	Evidence	Support
DC_1874	ATT	DC_1874	77	506	Novel HMM	DC_1874	N-terminal	Low	Positional only	55 proteins / 55 hits
Coil	Unmapped	-	399	419	Coils	Coil	-	-	-	-
DC_0015	STR	DC_0015	524	669	Novel HMM	DC_0015	Central	Low	Positional only	187 proteins / 187 hits
DC_0015	STR	DC_0015	652	1532	Novel HMM	DC_0015	Central	Low	Positional only	187 proteins / 187 hits
Coil	Unmapped	-	846	887	Coils	Coil	-	-	-	-
DC_0336	RBD	DC_0336	1445	1798	Novel HMM	DC_0336	C-terminal	Low	Positional only	28 proteins / 28 hits
G3DSA:2.60.120.260	STR	G3DSA:2.60.120.260	1572	1717	Merged direct domain	G3DSA:2.60.120.260	Central	Low	Positional only	264 proteins / 264 hits

Taxonomy

	Name	Taxonomy ID	Lineage
Phage	Enterococcus phage vB_OCPT_Bob [NCBI]	2922318	Uroviricota > Caudoviricetes > Herelleviridae > Kochikohdavirus > Kochikohdavirus bob
Host	Enterococcus sp. [NCBI]	35783	cellular organisms > Bacteria > Bacillati > Bacillota > Bacilli > Lactobacillales

Coding sequence (CDS)

Genbank protein accession

UQT00475.1 [NCBI]

Genbank nucleotide accession

ON113169 [NCBI]

CDS location

range 71815 -> 77292
strand +

CDS

ATGAATAAATTGGTAAAACGTAGATTTCAAGCAGGTCTAGGCTCAGAAATTAAAAGAGTATATAAAGAAGGACAACAAATTAACACGCTACTATTAGCACAAGTAATTCAAGTAAACTATAAATATAATACAGTAGACCTACTAGCTTTACAGCATAAAGAAGTATTTCAAAATTCCTATGCAAATGAGGGACGTTTTTCTGCAAGACTCCCTATGGAATTTGGCGGTAGAAATATCGTTGGACAGCCTTATGGACAGGTTAACCCGATAGCAGTAGGAACAGTAGTATTAGTTGGTTTTATTAATTCCGATAAAGATATGCCTATTGTAATTAGTGTTTATAATAATAACGATGTAAGTAAGCAACTTTCAAGAACACAATTTTCAAATTCAGACCCTAAAGATTTAGAGTTAATTGGGGATATGCACCAAAAATTTAGTTTATACCCTTCATTGACATATGATAGCGTTGATGGAGAAGGAGGGCGTGTCGTTACTTTTTCTGGTAAATCATTTATTGCTTTTGATACAAAAGAAGTAGCTAACTCCTCTACAACTGATGCAGGTTACGGTACTAAATATGAGGACTTAGAGACATCATACTATAATAATGGTGACCTAATAGAGCCTATGAAAGGTAGAGCACCAAATGTACTGTTTAAGCATCAAGGGGTACTTGACGATGATGGCAAACCAGATTTGCACGATTTGCTAATTCATATTAACCCAGATGGTACTTATAGAACTTCTATGATGAACAAAGAAGAGGATTGGCGCACACTATTTGAAATGACACCAGATGGCAGAGTTAAATTAAGAAAACAAGACTCTATTAATATTGATGGTGGCATAGAAATAAGTGAGCTAGGAATCAACAATGAGGGGTTCGTTTATTTACGTAATGGGGATATGGATTTAGAAGTACGAAAAGACGGTATCTATTCACAAGGGAAACTGTTTACAGCCGATGTAGACCTATCCGATGTATATGACAAACTAAATGGGTTGTCTATACAGATTAAGGAAACAAATGGTCAATTAGAGATTATAGCTAATGGTGTAGAAGAACAAAATGGAAAAATATCAGAACTTTCTACAGAAATAACAATTGTAGCAGGTAAAGTTGAATCAAAAGTAACAAAGACAGAAGTTCAGGATATGATTGACAGTTCTTTTGTAGATATGTCTGATGCAATTAAAAAAGCACAAGAAGATGCTGACAAAGCAAATAAAGTGATTGCAGATATGTCTAGTGATAACAGACTGACTCCAAGTGAAAAAATAGATTTATTAAAAGAATGGGATATTATAAAAAATGAATATCCAAGCTATCTCGAACAAGCAGAAACCTACGAGGTTGATAGTAAAGACTACACTGCTAAGTACAATTCATTAGAGCTATTTGTTACCCCTATATTGGCTGATATGGAATCAACTAGCTCGGTAGACGGAGCAACACTTCGCAAAACGTTTAATTCTTACTATACAGCAAGAATAGCTTTACTAAACTCTATTAGTAAAAAACTAAAAGACGGTATCACAGAGGCTATGAAAAAAGCATCCCAAGCATCACTAGATGCAACACAAGCAATGGCAGATGCTTCACAAGCTAAGATTGATGCAGATAATGCTAACAAACTTATATCTGATATAGCAAGTGATAATAAGCTGACACCTTCTGAAAAATACCAACTTAAAAAGGAATGGGATGTAATTGTTAAGGAATACCCTACAACAATTGCACAAGCAGAGAAGTACGCAGTAGCCACAGCAGAGTATACAGCTAAATATAAAGCCCTAGAGCTGTTTGTAGAGCCTTTGTTTAAAGACATGGATGAAACTAGTATAGTAGACGGAGAACGCCTTAGAGCGACATTCTCGGACTATTACGCAAGTAAGATTGCGTTACTAAAAGAAGTAACGGATTCAGCTAAAACAGAGCTAGATGCCTATGGTAATAAAATATCTGTAATGGAAACAAACATTACTCAAACGTCAGAAGCTATTACTTTACTAGCTACTAGAGTACAAACTGTAGAAGACGGTGTACAATCAAATAAGGCACAAATCGAAATACAAGCTGAACAAATTAGTCAAAAAGTAACTGCTAGTGAGGTTAAAGGAATTGTAGACGATTCTATTAACAATCTAACATTAGGTGGAACTAACTTATTTGTTATAAAGACACAGACAGCAGGTTTACTAAACGAGAATGATGGAACTGTAGGTACTGCAGTAGATAACTCAGTGGTGTCAGACTACATTAAAGTTAATCAAAAAACACCATATATTGCTACACTTTATGGTAACACTGGCACAAACATGATTATAACAGACTGGTACGATAAAAATAGAACATTTATTTCTGGGGAAGCTGTGGCAGACTCTGGGGATTTTAGTAAAAAGTATGTGTCACCTGATAATGCAGTCTATGCTAGGGTAAGTTATAAGAAAGCAAACTATGTGAATATCAAATTCGAGGCAGGTACAAAGGCTACTGATTACAGCCCTTCATGGGAAGACATAAAAGGTGACCAAACTGCTTTAGAGGAATACATTAAAAAAGTAGAAGAACAAGCCAAGAAAGCTCAACAAGATGCTGAAAATGCTAAAAATGATGCTGAAAATGCAAATAACGCAATAGCTGACATGTCGAATGACAATATGTTAGCACCGAATGAGAAAAAACAAATACTCTTACAATGGGAACAGATTAAAACAGAGTATCCAATAAACTTAGACCAAGCAACTAAATTTGGGGTGTCTTCTCAACAGTATACAACAGCATATAACGCACTAGACGAGTACTTAAAACCAATACTAGCTGACATGACAACAACTTCTGTAGTAGTTGGTTCTACTTTAAGAAATACGTTTAACAACTATTATGACAAAAGAACTACTTTGCTAAACAGAATATCTGACGTAGCAAAAAATGTAGCAGACAAGGCACAAGAAACTGCAGATACTATCAATGATAATTTACAAAATATTGGTGGGTACAACTATGTAGGGTTCTCTTCCGGAGACAATATGTTGCCTAGACTGATGATTAAAAACGTTGGTTACTACACATTAGGTTCGTCAACCACAGAGTTCATTGACAGCATGGTAGCTGTAAAAGGTGATGCAACGACCCAACCTTTCGATTATACTGTAGGTACTTCTGATAAAGAAATTGCTGGTGGCGGTTTAGCTGATTACCGTATGAAAGAAGTAAAAGAAGGTCAGTGGATAACAGCTTCTGCAAATGTGCAGGTAATAGGTGGTGGCTCCGCTAGGTTAGCTATCTACACTTTAGAAGGGGATAACTGGGTAGGTTCTAACAGTACACCTATACAAGTAAGTGATGGTTTGAAACGTGTTGTGGCTCAAAGAAAAGTAACAGGCTTAACAAAAGGTGTATTAATACGTATTGAGTCAGCCGACACTAATGTTAAAGAGTTTCGATTTGGTAATGTTCAACTAGAAGTGGGTATCATCCCAACTCCTTGGAAAAAGTCTGATATAGATATTCAAGAGGACATAAACAATGTTGTTCAGAATATCAAAACGTACACTGCTTGGGCTAACGATTTACAGGGTCTTGATTTTACAAGAGAAAAGGTTGAAGGAAAAACTTACATGTATGTAGGTACCTCTATGAAAGATAGTGATAACTATTCAGATTATACATGGAGGTTAACTGATGAGCATATAGAAGGTCAGATTAATGGTAAGGAAGGCGCATGGATTTATTCTCCAACAGCCCCTACTAACCCATCGCAAGGGCTTATATGGGTAGACTTGTCAAAAGTACCTAACCAACCTAAGCGTTGGGTAGATTCAGAAACTGGGTGGGTTGCATTAACACCAGAAGAGGTTAAAGATTTACCTTGGGGTGAAGATGGCACAAACTTAGCTGACTGGGTAGCACAGGCAGAGCAGAGAATATCTTCTGATAGCATTATAAATACTGTACTAGGTTCTGAGGATTTTACTAGTGTGTTCGATACAAAAGCTAACACTACTGACCTAGACAACTTAGCTACCTATGAAGATTTAGACTCAATAAAAGAGGACTATAACCGACTAATCAAAGAAGGCATAAACGGTATTGATTTTACCCCTTATGTAACTAACTCCGAACTACAACAGCTTAAAGACAGCTTTAACTTCTCTGTTCAACAAGCCGGAGGAGTTAACATGCTTAAAAACTCTTTAGGATTCTCTGGGTTAGACTTCTGGGATGGTACAGTAGGGAAGAACTTATTACCTAACTCTACTTGGAATTTAGGTTTCGGTAGATGGGGTGGCGCTTCAATCGCTAGTTTTGAAATATTACCACCAGAAGACGACAAGCCTACAAGTCATATACTGGGTTCAATAGGTTCTCGTTCTTCTACTAAAGAAATAGGTAATAGACCCCACCCATTAAAAGTTAACTCTGGTGAAACGTATACAATAAGCTTTGATTATAAAGAAGAGGCATTGGCTTATGATAAGGACAGACCTATCCTTGTTGTTAGAAACTACCCTGATAAGGACACAGACCAATGGATGGAGTACTCAATAGAAGGTTGGGCAGTAATGGCTAACGGAAGCACTACTGACCTAACTGTTTGGAGACGTTTTACAAAAACATTTACAATAGGTACTAGTGGCTACTTAGATATTTTACCTAAAACTATAGTAGAGTCATGGACACACAGGTCTTTTTGGAGAGAGCTAAAAATAGAGGAAGGGTCACAAGCTACTACTTGGGTGCCTAACAAGGAAGACGGGGCGTTTACCGGTGGTATTGTTGAAACTACCCAAACAGAAGAACTAGCTAACCTTGGGTTCGGTTCGGGATTTGTTAGTTCTAAAAGACCTAGCTCTTCACTAACACAATCTGTAGAACTACCTGAAATAGGTGCTAACCTTGAGTATTCACTATCTTTTTATATGAAGGTAACTACAGACAATCCTGTAGCCGACTTTAAATGTGGTATTCGGGTTTATGAGGGGGATACTCTAACTTATACATTAGGCATAGAAGATGCAACACAGCCAATACCACTAGGGTTCCAACAATACAAGCTTGTGTTCACTCCCACAAGTACCTCTACTAAAATAGAAATGTTTGTAGAAAATGGGCAAGAGGCATCTGTTATTATATCAGGTATCATGTATAATATCGGGAATATACCTCTTAAATGGCAACCATATCCAAGTGAGATATACAATACGAATGTTAAGATTGATATTAATGGGGTAACTGTTAAAAACAATCAAACAGATGGGTACACAATGATTACCCCCCAAGAGTTCTCAGGATATTCTCGTATTGATGGTAACATAGAACGTATTTTCACTTTAAATGGGCAGGTAACAGAAGTTAAAATGCTAAAGGCTGAAAAACGTATAACTATGGAACCGGTATCTGTGTTTGCTATGAATACAGTAACAGATACAAAAAGAATTAGAGGTTGGGCATTTGTACCATCATTTGAATAA

Genome Context

Tertiary structure

PDB ID

9e018c5257652379ddb00dfc25828316a22f5e2a01c9ede6286077e5a4e6da9f

ColabFold

Source ColabFold

Method ColabFold

Resolution 0,7277

Oligomeric State monomer

Download PDB

Model Confidence

Very high
pLDDT > 90

High
90 > pLDDT > 70

Low
70 > pLDDT > 50

Very low
pLDDT < 50

Protein

Domains

Domains [InterPro]

Domains [InterPro]

Taxonomy

Coding sequence (CDS)

Coding sequence (CDS)

Genome Context

Genome Context

Tertiary structure

Predicted Aligned Error (PAE)

Model Confidence