Protein

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UniProt accession

A0A8S5MBT4 [UniProt]

Protein name

Tail protein

RBP type

TSP

Evidence RBPdetect

Probability 0,51

Evidence RBPdetect2

Probability 0,96

Protein sequence

MDLNRLLQLNNNYNDSHNKVVNLLQTILEKGELTDGDYGEIQDNYSKNEDNYNELNKAENDYMKSEFELKLETLQNTKIDLDVDSVLDLLTNGGRNSAMYKDANGNIVLDAARIGELNQVKVLVDENTKKIASIVADTVVEQEDGTKVKLKVLFSTLDQKVDGITTTVGKVEGVANDANSKATVNAQKISQINQTVDGITSTVKQVQGVANTANGKADDALTKASQIEQTVDGIKTTVQNTGAKVDGSIKETYNEFYLSSSNTTTTEGSWVKTAPAPQAGKYIWLRDVYVTNTGDKTYGNPVCITGAKGDKGEKGDQGIQGVQGLQGLQGEQGEQGVPGPAGPTGPQGEKGDKGDPGLQGLQGDKGEQGIPGKPGKDGTNGTNGKTTYFHIKYSSIENPTTSAQMSETPNIYIGTYTDFSPTDSTDPKKYTWYRFQGLQGEKGEKGIPGVGTDGKTSYLHIKYSNDGGKTFTSNNGETPGNYIGTYTDFVVDDSTTVSKYTWAKIKGETGAKGDKGEQGLQGLQGEKGEQGIPGKPGKDGTNGTNGKTSYFHIKYSSVANPTTTNQMSETPNTYIGTYTDFNSDDSTDPKKYTWYRFQGLQGEKGEKGIPGVGTDGKTTYLHIKYSNDGGKTFTSNNGETVGNYIGTCTDFNNTDPTGVSSYTWAKIKGDKGDKGDKGDQGLRGLQGEKGEQGVPGTPGKNGADGTNGTDGKTSYFHIKYSSVENPTSANQMSETPNTFIGTYVDFTATDSTDPKKYTWHRFQGLQGEKGERGIPGVGTDGKTSYLHIKYSNDGGKTFTSNNGETVGSYIGTYTDFTQNDSTTVSKYTWAKIKGDTGAKGDKGEQGVQGEKGNPGTPGKDGTNGNTSYFHIKYSSVANPTTASQMSETPNTYIGTYVDFTQNDSNDPKKYTWYRFQGLQGAKGEQGIPGVGKDGKTSYLHIKYSNDGGKTFTANNGETVGTHIGTCTDFNSNDPTSVGSYTWAKIKGETGAKGDTGASGTGIVSITEEYYLSTSKTSQTGGSWTTTAPTWSPGKYIWTRSKIVYKNPASTAYTTPICDSSWEAVNSIEVGGTNLLKGTSKSYKTYTMGQWNAIPYANGYTLEKLNLKVGDTVTFSAYINTQNAIKPIAARINFVKADGTYTQPFGQFIPVNSEGQSIITAQIPAGTTHLQMGYQRQDADGKGNTYPFKAREEILVKGNKVSTWTPAPEDVSSAIGNNIKTVDVQYYLSTSNTALQGGTWTTTAPTWVNGKYMWSKTVTTLANGTVKESTPTCIAGAKGDTGAKGDKGEQGTQGIGVKQVQILYFIHTSKTSAPSTSATGWSTSIPAYQTGKYLWQVNKITYTNNSTAFTTPVYISSWEAENKAETAVSIANQTSEKFEWIVKKGSTASGIQLTDKAIEAIANSSIKLKAKQITLEGLVTANGNFKILEDGSIEAKNGKFTGEINADKGKISSDLEVDGMNVSGNLSADTLDVRQINCPNLAVGLTQDVVVNVNPGDTNANNIFVNNGVFTSLQTCIESIPKNLNGYSVSINVKSQISENLTIKGFNGGTLFIKFNANCLGHIAGYDCSAKVLFQGSGSSTQTLVSNYKTTGNVNMRVAGNATANLVQTVPPGARLLLTKINSNGWGYTTYNGKSGWMSTNTSYMVKDEVYQTTGSYTAIQPSALINVDGRLCTAGFSNCSYVNFYNIEIYGKTGNSANWVINSANNSFVRAKTVKITGSENGFTAENGGRIYVTDIKGKVNACAHNAKNAGTIYINDGTILNGTMSKDNSSQIIYNSSGVTQDTSSNVGTNDNTTTTESNITIYSTGGNSYRHNVYTGWKNDNTVRQGDYGYGDCDGIWLFGTQFASKLKGKNITKITLTVTRQQGGVYGAVTSTLKMHNYSSQPGGAPTYVSGWSKTFSLAVNNTTTITITDSAVLTAIKNGTCQGFGLQGAYDSSHYAVFSGNCTLTATIH

Physico‐chemical properties

protein length:	1953 AA
molecular weight:	208873,36060 Da
isoelectric point:	6,60824
aromaticity:	0,08858
hydropathy:	-0,62422

Domains

Domains [InterPro]

DC_1834
STR
83–282

DC_1834 IPR050149 DC_2111

IPR008160
STR
330–385

IPR008160 DC_1328 IPR008160 DC_1328 DC_1328 DC_0700 G3DSA:2.30.30.40

DC_0321
STR
344–451

DC_0321 G3DSA:1.20.5.320 DC_1328 G3DSA:1.20.5.320 DC_1545 DC_1328

IPR008160
STR
507–547

IPR008160

A0A8S5MBT4

1 1953

Architecture

STR

RBD

STR 83-282 | STR 330-1554 | RBD 1580-1952 |

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_1834	STR	DC_1834	83	282	Novel HMM	DC_1834	Central	Low	Positional only	29 proteins / 29 hits
IPR050149	Unmapped	-	305	1293	InterPro	Collagen superfamily	-	-	-	-
IPR008160	STR	DC_0536	330	385	InterPro cluster	Collagen triple helix repeat	C-terminal	High	Text match	355 proteins / 386 hits
DC_0321	STR	DC_0321	344	451	Novel HMM	DC_0321	Central	Low	Positional only	15 proteins / 15 hits
DC_1328	STR	DC_1328	434	601	Novel HMM	DC_1328	Central	Low	Positional only	136 proteins / 136 hits
G3DSA:1.20.5.320	STR	G3DSA:1.20.5.320	505	568	Merged direct domain	G3DSA:1.20.5.320	Central	Low	Positional only	67 proteins / 67 hits
IPR008160	STR	DC_0536	507	547	InterPro cluster	Collagen triple helix repeat	C-terminal	High	Text match	355 proteins / 386 hits
DC_1328	STR	DC_1328	595	766	Novel HMM	DC_1328	Central	Low	Positional only	136 proteins / 136 hits
IPR008160	STR	DC_0536	669	712	InterPro cluster	Collagen triple helix repeat	C-terminal	High	Text match	355 proteins / 386 hits
DC_1328	STR	DC_1328	761	917	Novel HMM	DC_1328	Central	Low	Positional only	136 proteins / 136 hits
G3DSA:1.20.5.320	STR	G3DSA:1.20.5.320	834	887	Merged direct domain	G3DSA:1.20.5.320	Central	Low	Positional only	67 proteins / 67 hits
DC_1545	STR	DC_1545	915	996	Novel HMM	DC_1545	Central	Low	Positional only	18 proteins / 18 hits
DC_1328	STR	DC_1328	974	1143	Novel HMM	DC_1328	Central	Low	Positional only	136 proteins / 136 hits
DC_1328	STR	DC_1328	1103	1291	Novel HMM	DC_1328	Central	Low	Positional only	136 proteins / 136 hits
DC_0700	STR	DC_0700	1275	1554	Novel HMM	DC_0700	Central	Low	Positional only	7 proteins / 7 hits
DC_2111	RBD	DC_2111	1580	1952	Novel HMM	DC_2111	C-terminal	Low	Positional only	37 proteins / 37 hits
G3DSA:2.30.30.40	RBD	G3DSA:2.30.30.40	1583	1643	Merged direct domain	G3DSA:2.30.30.40	C-terminal	Low	Positional only	7 proteins / 7 hits

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

A0A8S5MBT4

1 1953

Domain	Start	End	Length (AA)	Confidence
N-terminal	1	1113	1113	0,9666
Central domain	1114	1883	771	0,5159
C-terminal	1884	1953	69	0,3469

Note: Constraints were applied during segmentation.
Fixed 7 C-terminal predictions appearing before Central domain

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
1-1113

Central
1114-1883

C-terminal
1884-1953

Taxonomy

	Name	Taxonomy ID	Lineage
Phage	Siphoviridae sp. ctG7D9 [NCBI]	2826218	Uroviricota > Caudoviricetes >
Host	No host information

Coding sequence (CDS)

Genbank protein accession

DAD79773.1 [NCBI]

Genbank nucleotide accession

BK014872 [NCBI]

CDS location

range 1694 -> 7555
strand -

CDS

ATGGATTTAAATAGATTATTACAACTGAATAATAATTACAACGATTCTCATAATAAGGTAGTCAACCTTCTCCAAACTATATTGGAGAAGGGAGAATTAACCGACGGAGATTATGGGGAGATACAAGACAATTATTCCAAAAACGAAGATAACTATAATGAGTTAAATAAAGCAGAAAATGACTATATGAAATCAGAATTTGAACTAAAATTAGAAACATTACAAAATACAAAAATAGACCTAGATGTAGATAGTGTTTTAGACCTTTTAACTAATGGTGGAAGAAATTCTGCCATGTATAAAGACGCTAATGGTAATATTGTACTAGACGCGGCTAGGATAGGGGAGTTAAACCAGGTAAAGGTATTAGTTGATGAGAATACTAAAAAAATTGCCTCTATAGTTGCTGATACTGTCGTTGAGCAAGAAGATGGTACTAAAGTCAAATTAAAAGTATTATTCTCTACATTAGACCAAAAAGTAGATGGCATAACAACTACCGTTGGTAAAGTTGAAGGAGTTGCAAATGACGCTAACTCAAAGGCTACTGTCAATGCTCAAAAGATTTCTCAAATTAACCAAACTGTTGACGGGATTACGTCTACTGTAAAACAGGTTCAAGGTGTGGCAAATACTGCTAATGGTAAAGCCGATGACGCATTAACAAAAGCGTCCCAAATAGAGCAAACTGTGGATGGGATTAAAACAACCGTACAAAATACAGGGGCTAAGGTAGACGGGTCTATAAAAGAGACATACAACGAATTTTATTTATCATCTAGTAATACTACTACGACAGAAGGTAGTTGGGTTAAAACTGCTCCAGCTCCTCAAGCTGGTAAATATATTTGGTTACGAGATGTATATGTAACAAACACAGGAGATAAAACTTATGGTAACCCGGTATGTATTACAGGAGCTAAAGGGGATAAAGGAGAAAAAGGTGACCAGGGTATTCAAGGAGTTCAAGGACTTCAAGGGTTACAGGGGGAACAAGGTGAACAGGGAGTACCAGGACCAGCTGGACCAACTGGACCACAAGGAGAAAAAGGAGACAAAGGTGACCCAGGGTTACAGGGGTTACAAGGAGATAAAGGGGAACAGGGTATTCCTGGTAAACCTGGTAAAGACGGAACTAATGGTACAAATGGTAAAACTACCTACTTTCATATAAAATATTCAAGTATAGAAAACCCTACTACATCTGCCCAAATGTCAGAAACTCCTAACATTTATATAGGTACTTATACAGATTTTAGTCCTACTGACAGCACTGACCCTAAAAAGTATACATGGTATAGATTCCAGGGGTTACAAGGTGAAAAGGGTGAAAAAGGTATACCTGGTGTGGGTACAGATGGGAAAACAAGTTATTTGCATATTAAATATTCAAACGATGGAGGTAAAACTTTTACCTCAAATAATGGAGAAACTCCTGGTAACTATATAGGAACATATACAGACTTTGTTGTGGACGACTCAACTACAGTGTCAAAATATACTTGGGCAAAAATAAAAGGAGAAACTGGAGCAAAAGGTGATAAAGGTGAACAGGGGTTACAAGGTTTACAGGGAGAAAAAGGTGAGCAAGGTATACCAGGTAAACCTGGAAAAGATGGTACAAACGGTACTAATGGTAAAACTTCATATTTTCACATAAAATACTCCAGTGTGGCTAACCCTACAACAACCAATCAGATGTCAGAAACCCCTAATACTTATATAGGAACTTATACGGATTTTAATTCAGATGACAGTACTGACCCTAAAAAGTATACTTGGTACAGATTTCAAGGGTTACAAGGAGAAAAAGGTGAGAAAGGTATCCCCGGAGTCGGAACAGATGGTAAGACTACCTATTTGCATATTAAATACTCTAATGATGGAGGAAAAACTTTTACCTCAAACAACGGAGAAACTGTAGGTAACTATATAGGTACTTGTACTGATTTTAATAATACTGACCCTACTGGTGTAAGCAGTTATACATGGGCAAAGATTAAAGGGGATAAAGGTGATAAAGGAGATAAGGGTGACCAGGGTCTTCGAGGGTTACAAGGTGAAAAAGGTGAACAGGGAGTGCCAGGTACTCCAGGTAAAAACGGGGCTGATGGTACAAACGGCACAGACGGTAAAACATCTTATTTTCATATAAAATACTCTAGTGTTGAAAACCCTACTTCAGCCAATCAAATGTCCGAAACTCCAAATACTTTTATAGGGACTTATGTAGATTTTACAGCTACAGATAGTACTGACCCTAAAAAATACACATGGCATAGATTTCAAGGTTTACAGGGAGAAAAAGGAGAAAGAGGTATACCTGGAGTTGGAACAGATGGTAAAACTAGCTATTTACACATAAAATATTCAAATGACGGTGGAAAAACTTTTACGTCAAACAATGGTGAGACTGTAGGTAGTTATATAGGAACATATACAGATTTTACTCAAAATGATTCAACTACTGTAAGTAAATATACTTGGGCTAAAATAAAAGGTGACACTGGTGCAAAAGGAGATAAAGGTGAACAGGGGGTACAGGGAGAAAAAGGTAACCCGGGAACTCCTGGTAAAGATGGTACTAATGGTAATACCTCTTATTTCCACATAAAATACTCTAGTGTAGCCAACCCTACAACAGCGAGTCAAATGTCTGAGACTCCTAATACCTATATAGGTACTTATGTAGATTTTACCCAAAACGACAGTAATGACCCTAAAAAATATACTTGGTATAGATTCCAAGGACTACAGGGAGCAAAAGGTGAGCAAGGTATACCAGGAGTAGGTAAAGACGGTAAAACAAGTTATTTACACATTAAATACAGTAACGACGGAGGTAAAACTTTTACAGCCAATAACGGAGAAACTGTAGGTACTCATATAGGTACATGCACAGACTTTAACTCAAATGACCCAACAAGTGTTGGCAGTTATACATGGGCTAAAATAAAAGGGGAAACCGGAGCTAAAGGAGATACTGGAGCGTCTGGTACTGGTATAGTATCTATCACAGAGGAATATTATTTATCTACAAGTAAAACTTCACAAACTGGAGGGTCTTGGACTACAACTGCTCCTACATGGTCACCTGGTAAATATATATGGACGCGTAGTAAAATTGTATATAAAAACCCAGCATCTACAGCTTATACAACTCCTATATGTGACAGCTCTTGGGAGGCAGTAAACTCAATTGAGGTCGGTGGAACTAATTTATTAAAAGGAACTTCAAAATCCTATAAAACTTATACTATGGGACAATGGAATGCAATACCTTATGCAAATGGCTACACTTTAGAGAAGTTGAATTTAAAAGTGGGAGATACCGTAACTTTTTCAGCATACATTAACACTCAAAATGCTATAAAGCCAATAGCAGCTAGAATTAATTTTGTAAAAGCAGACGGCACATATACACAACCTTTTGGACAATTTATCCCTGTAAATTCGGAGGGTCAAAGTATTATAACTGCTCAAATTCCTGCTGGTACTACTCATTTACAAATGGGATACCAACGTCAAGATGCAGATGGTAAAGGTAATACATACCCATTTAAAGCGAGAGAAGAAATATTAGTAAAAGGAAATAAAGTATCTACATGGACTCCTGCTCCGGAGGATGTTAGTTCAGCTATCGGAAATAACATAAAAACTGTAGACGTTCAATACTATTTATCAACTTCTAACACTGCTCTACAAGGTGGCACATGGACTACTACAGCTCCAACTTGGGTTAATGGGAAATATATGTGGAGCAAAACTGTTACTACATTAGCAAATGGTACTGTAAAAGAAAGTACTCCAACTTGTATCGCTGGAGCAAAAGGTGACACTGGAGCTAAGGGGGATAAAGGAGAACAAGGTACTCAAGGTATTGGCGTAAAACAAGTTCAAATATTATACTTTATACACACTAGCAAAACATCTGCCCCAAGTACTTCAGCTACAGGGTGGTCAACAAGTATACCAGCTTATCAAACAGGTAAATATTTATGGCAAGTAAATAAAATTACTTACACTAATAACTCAACCGCTTTTACTACTCCAGTATATATTAGTAGTTGGGAAGCTGAAAACAAGGCAGAAACAGCAGTATCCATAGCTAACCAAACAAGTGAGAAATTTGAATGGATAGTAAAAAAAGGTTCAACTGCGTCTGGTATACAACTAACCGATAAAGCTATTGAGGCAATAGCCAACTCCAGTATTAAATTAAAAGCAAAACAAATAACATTAGAAGGGCTTGTGACAGCAAATGGTAATTTTAAAATATTAGAGGACGGGAGTATTGAGGCAAAAAATGGAAAATTTACTGGAGAAATCAATGCTGATAAAGGAAAAATTTCTTCTGATTTGGAAGTTGACGGGATGAATGTGTCAGGTAACTTATCAGCAGACACATTAGACGTAAGACAGATAAATTGTCCAAATTTAGCCGTTGGTCTAACTCAAGATGTCGTTGTTAATGTTAATCCTGGAGATACTAATGCAAATAACATATTTGTAAATAATGGAGTATTCACCTCACTTCAAACGTGTATTGAAAGTATTCCAAAAAATTTAAATGGGTATTCAGTAAGTATAAATGTAAAATCACAAATTTCAGAAAACCTTACAATCAAAGGTTTTAATGGAGGAACTCTTTTTATAAAATTTAACGCTAATTGCTTAGGACATATTGCAGGGTATGACTGTTCAGCAAAAGTATTATTTCAAGGGTCAGGTAGCTCTACACAAACATTAGTCAGCAATTACAAAACTACGGGTAACGTAAACATGAGGGTAGCTGGTAATGCTACTGCCAATTTAGTTCAGACCGTACCCCCTGGAGCTAGATTATTACTCACTAAAATTAACAGTAACGGTTGGGGATATACAACATATAACGGTAAGTCTGGTTGGATGAGTACAAATACTTCATATATGGTAAAGGACGAAGTATATCAAACTACTGGTAGTTATACAGCAATACAACCTAGTGCATTAATTAATGTAGATGGCAGATTATGTACTGCTGGATTTTCTAACTGCTCATATGTAAATTTTTATAATATAGAAATATATGGAAAAACAGGTAACTCGGCTAATTGGGTTATAAATAGTGCCAACAACTCCTTCGTAAGAGCTAAAACAGTTAAAATTACAGGGAGTGAAAATGGATTTACAGCAGAAAATGGAGGACGTATTTACGTGACAGACATAAAGGGTAAAGTTAACGCGTGTGCTCATAATGCAAAAAATGCAGGCACTATTTATATAAATGACGGTACTATTCTAAACGGTACAATGAGTAAAGATAATTCTTCTCAAATTATTTATAATAGTTCCGGAGTAACTCAAGATACTTCTAGTAATGTTGGTACTAATGATAATACAACTACAACCGAGTCAAATATTACTATTTACAGTACTGGAGGTAACTCATACAGACATAATGTTTATACTGGATGGAAAAATGACAATACTGTTAGACAGGGTGACTATGGTTATGGAGACTGTGACGGTATATGGTTATTTGGAACACAATTTGCTAGTAAGTTAAAAGGTAAAAATATTACAAAAATTACTCTTACTGTTACTAGACAACAGGGAGGAGTTTATGGAGCAGTAACCTCTACCTTAAAAATGCACAATTATTCTTCACAACCTGGAGGTGCTCCAACATATGTAAGCGGATGGTCAAAAACATTCTCATTAGCTGTAAATAATACAACTACAATTACAATTACTGATTCAGCTGTATTAACAGCTATCAAGAACGGTACTTGTCAAGGATTCGGATTACAGGGAGCTTATGACAGTTCTCATTATGCAGTATTTAGTGGAAATTGCACATTAACTGCAACTATACATTAA

Genome Context

Gene Ontology

	Description	Category	Evidence (source)
GO:0031012	extracellular matrix	Cellular Component	IEA:TreeGrafter (UniProt)
GO:0005615	extracellular space	Cellular Component	IEA:TreeGrafter (UniProt)

Tertiary structure

PDB ID

0b4c14b3cb4fe8ac400f1ce0058cfd5d706569d35ffdf7ca5c479a9f51658c79

ColabFold

Source ColabFold

Method ColabFold

Resolution 0,6913

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]

Tail Spike Domain Segmentation

Tail Spike Domain Segmentation

3D Structure with Domain Coloring

Domain Coloring

Taxonomy

Coding sequence (CDS)

Coding sequence (CDS)

Genome Context

Genome Context

Gene Ontology

Tertiary structure

Predicted Aligned Error (PAE)

Model Confidence