Protein

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Genbank accession

QGT54649.1 [GenBank]

Protein name

hypothetical protein

RBP type

TSP

Evidence DepoScope

Probability 1,00

TSP

Evidence RBPdetect2

Probability 0,93

Protein sequence

MAIERNFIIKNGLEIADNLLVANNDKIGIGKTQPNYVLDIIGDVASTGKLLFPPENQPNPTTGTFSSSTPFLVTGINTSLFRVHDLLDDTGNILTPGSKVVNIGISSISIFPGHNLTVGSAQTTISIIRNVTAGETEQFLVSRGPSLPPVWKTASGFGTVAGLSTVATTGSYNDLINRPSLGTASTVSRTAFATSSQGALAESVSSIVSGLSTVATTGSYGDLGNKPIGVTTSVDGLQQTDQNSLIYVNQYYINYEAEADLLLLRDVQKDGGGLFVWDSSISKAEHDGGLFISPTVPYDGTRANLENFLYGVGETDPSGSGVWVRQFTGNVFASYYGQVGNNIADDQPSIQQALDRLRELNNINYVGAGNVGRSRTVQITGTCKVKKGIVVPGGMKLFGEGQTLAYANQVSSFANDTNYLSGPIIYADAECELFTGRVGKRDSCVVFLAPDASAIEGIVVDGYDLPFGSWYVPISARNTVTGQSAANSASAYLKVIDPDDTRQTVAGNLRIITTQVPAFYLGDTWHSGYQLICDAGNMTGVGSSVGVYTSITPANPYQWDVISGTLPTGISVSKSGWVTCNSPPSAQKNFIRIRVADASGATAEKDLVFEVTGKYINPVRNGALPRATINYSYLFQMDLVNNDGQPHYWWLLNAPKGLGIGRTTGIISGTPEANTFGKYTIKIGITTAGNINDFDRNILIDSIEYDLPVENTQFPNFTGPPLDTAILGVAYTGVLYPYGGVAPMTWAIVGSLPAGIAFTSDGVRGYLTGTATTTGSYSFRSIFTDSTGKASSGNQTLNVNNAVPPQIKLTNYPILPVAVKGQPYFYQLETTQPDCVFRIRGKSLPTGLALSETTGIIAGIPTGGIYANGISCEWSTKINNVHSRNFKQGAGIQYDGPSNVHIVEKFFISACDIGIQSDNCYDSRFDRFYIYNCRVGFNMGGGTAANTYINGRIEFIHEDGVNALFSNDHIFTNILWDTCGTTAINMDRCKYWVISNNVFFRSARRVLPRGKHYIPDTPTKQSAHINLLESDGITITGNTFIRGSESPSSLFLRRYDESLRRDWIRPYTCLTVEDCQELVITGNNMAGCTRQSIIPEVIVFDLVNNDAIIEGNVVHYKNAFDTIDATTKKSDNLFENANKYNYVSSGGEELIDTFYRNTSLILNGDTLTDTSYLRHTINNINVGTSNTTAAIGNTSLAFNGTTSLLTVVIPNSGVTTSGFYFGNDPWTFELQVNPIRNNVPQTLIDFGTTNEPTTFGIGLNDQGKLVILRSRSSSGQSTVFTSNETIPINSWTRIAGCKTGTTDNTVRIYINDSVVGTFTTEFDSRFFVSGTNRPIIGRGGFTGAADFFKGYMQGIRVTKGISRYGALSIIPTQTLPWTSIDYGVIRADTRIYLPKSGVSQQSYWGDGTYSVLLGPTSQISKAVKVERRSKSIITEELRAGNGSYVAGDKNPSDYYFNITKEAEAGTTPNNFVFQECELRLWLARLGNTLEFNKYRGKYLNIVWYARSNNKNPISFFTRFYAGTADNGFNVDGGFYTEITLTPYWRRYYFELQVPEYDIVRESSENCNMFLRFLMDDKSESYDWDFGGFMIYPADGTFGFKQFTESSVGIQTSNIVNVSSTSPTGLEGFRNLLINGDFQVKQQYGTTVTPGFTTSLYVTDRWVAQAFGSGLTAQTVVTDQRASLQINGAAGNSGCNVLQRIESANVQHMRNRDVTLSVDLANTLLTSVTWAAYYPNTVDTFTSLNLLAFGTFIVTPTLNRYSATFNMGDFAWRGVEIRFSVGAQTGGTFTLRDAMLASGTAVTPMERRFYGTELQLCQRYFRWVSCNSTLRAVISAQTQETGINWPEMRVTPTAGTPVPDPNIPGFSETTNVAFFFLGRMTPYGGSLILTSNTSGVSYTLGYRASLSAEL

Physico‐chemical properties

protein length:	1909 AA
molecular weight:	207715,05920 Da
isoelectric point:	5,46418
aromaticity:	0,10843
hydropathy:	-0,14605

Domains

Domains [InterPro]

DC_0165
STR
10–518

DC_0165 IPR013783 IPR013783 IPR012334 DC_2085 DC_0568

DC_2153
STR
511–615

DC_2153 PF05345 PF05345 IPR013320

G3DSA:2.60.120.200
STR
1207–1361

G3DSA:2.60.120.200

PF13385
LEC
1212–1357

PF13385

QGT54649.1

1 1909

Architecture

STR

STR 10-615 | STR 618-698 | STR 709-801 | STR 837-1060 | STR 1078-1370 | STR 1574-1909

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_0165	STR	DC_0165	10	518	Novel HMM	DC_0165	Central	Low	Positional only	31 proteins / 31 hits
DC_2153	STR	DC_2153	511	615	Novel HMM	DC_2153	Central	Low	Positional only	21 proteins / 21 hits
IPR013783	STR	IPR013783	618	698	Merged direct domain	Immunoglobulin-like fold	Central	Low	Positional only	144 proteins / 144 hits
PF05345	RBD	DC_0124	654	690	InterPro cluster	Putative Ig domain	C-terminal	Low	Positional only	14 proteins / 14 hits
IPR013783	STR	IPR013783	709	801	Merged direct domain	Immunoglobulin-like fold	Central	Low	Positional only	144 proteins / 144 hits
PF05345	RBD	DC_0124	724	800	InterPro cluster	Putative Ig domain	C-terminal	Low	Positional only	14 proteins / 14 hits
IPR012334	STR	IPR012334	837	1060	Merged direct domain	Pectin lyase fold	Central	Low	Positional only	867 proteins / 867 hits
DC_2085	STR	DC_2085	1078	1370	Novel HMM	DC_2085	Central	Low	Positional only	118 proteins / 118 hits
IPR013320	STR	IPR013320	1193	1360	Merged direct domain	Concanavalin A-like lectin/glucanase domain superfamily	Central	Low	Positional only	237 proteins / 237 hits
G3DSA:2.60.120.200	STR	G3DSA:2.60.120.200	1207	1361	Merged direct domain	G3DSA:2.60.120.200	Central	Low	Positional only	153 proteins / 153 hits
PF13385	LEC	DC_0004	1212	1357	InterPro cluster	PF13385	C-terminal	Medium	Text match	334 proteins / 417 hits
DC_0568	STR	DC_0568	1574	1909	Novel HMM	DC_0568	Central	Low	Positional only	135 proteins / 135 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

QGT54649.1

1 1909

Domain	Start	End	Length (AA)	Confidence
N-terminal	1	346	346	0,7903
Central domain	347	1195	850	0,7033
C-terminal	1196	1909	713	0,4306

Note: Constraints were applied during segmentation.
Fixed 21 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
1-346

Central
347-1195

C-terminal
1196-1909

Taxonomy

	Name	Taxonomy ID	Lineage
Phage	Synechococcus phage B23 [NCBI]	2674977	Viruses > Duplodnaviria > Heunggongvirae > Uroviricota > Caudoviricetes
Host	No host information

Coding sequence (CDS)

Genbank protein accession

QGT54649.1 [NCBI]

Genbank nucleotide accession

MN695335 [NCBI]

CDS location

range 24097 -> 29826
strand +

CDS

ATGGCAATAGAAAGAAATTTTATAATAAAAAATGGACTTGAGATTGCAGATAATTTATTAGTCGCAAATAATGATAAGATTGGTATTGGTAAAACTCAACCAAATTATGTTTTAGATATAATAGGTGATGTTGCTTCAACGGGAAAATTATTATTTCCGCCCGAAAATCAACCAAATCCAACAACCGGAACATTCAGTTCTTCGACTCCTTTTTTAGTTACAGGAATTAATACTTCCCTTTTCCGTGTACATGATTTATTAGATGACACTGGTAATATATTAACGCCCGGCAGTAAAGTCGTAAATATTGGAATATCTAGTATTAGTATTTTTCCTGGTCATAATTTAACTGTAGGTTCGGCCCAAACAACTATTTCCATTATTAGAAATGTAACTGCCGGAGAAACAGAACAATTTTTAGTATCTAGGGGTCCAAGTCTACCTCCCGTTTGGAAAACCGCTAGTGGCTTTGGTACAGTTGCCGGTCTTTCCACTGTTGCTACAACTGGTTCATACAATGACCTTATCAATAGACCTTCATTAGGAACAGCATCCACTGTTAGCAGAACTGCCTTTGCAACTTCGTCTCAAGGCGCTTTAGCTGAATCAGTATCTAGTATAGTTTCAGGTCTTTCGACTGTTGCTACAACTGGTTCTTATGGTGACTTAGGGAATAAGCCAATTGGAGTAACTACTAGTGTTGATGGACTTCAACAAACAGACCAAAATAGTCTAATCTATGTCAATCAGTATTATATTAATTATGAGGCCGAAGCCGATTTACTTCTACTTCGTGATGTGCAAAAAGATGGCGGTGGACTTTTTGTGTGGGATTCAAGTATATCAAAGGCTGAACATGATGGTGGCCTATTCATCTCACCAACTGTTCCTTACGATGGAACCAGGGCCAATTTAGAGAACTTTTTATATGGTGTGGGCGAAACGGATCCTTCTGGATCTGGTGTTTGGGTAAGGCAATTTACTGGAAATGTATTTGCATCTTATTATGGTCAAGTAGGAAATAATATCGCAGATGACCAACCTTCCATACAACAGGCTTTAGATAGATTAAGAGAACTTAATAATATTAATTATGTTGGTGCCGGTAACGTAGGGAGATCCAGAACAGTTCAGATAACTGGTACCTGTAAAGTTAAAAAAGGTATCGTAGTTCCAGGTGGCATGAAGCTTTTTGGTGAAGGCCAGACATTAGCATATGCAAACCAAGTTTCTAGTTTTGCAAATGATACTAACTACTTGTCTGGTCCCATAATTTATGCTGATGCTGAATGTGAGTTGTTTACTGGTAGGGTAGGTAAGAGAGATAGTTGTGTTGTATTTCTGGCCCCAGATGCCTCTGCAATTGAAGGTATTGTGGTGGATGGATATGATCTGCCATTTGGATCATGGTACGTACCTATCTCAGCTAGAAATACAGTAACTGGACAAAGTGCCGCAAATAGTGCATCTGCATATTTAAAAGTAATTGATCCAGATGACACAAGACAAACCGTTGCAGGCAACCTAAGAATTATTACTACTCAAGTCCCGGCGTTCTATCTGGGTGATACTTGGCATTCTGGATATCAATTAATTTGTGACGCCGGTAACATGACCGGGGTTGGTTCTAGTGTAGGTGTATATACTAGCATTACTCCGGCAAACCCCTACCAATGGGATGTAATATCCGGTACACTTCCTACAGGTATAAGCGTATCAAAATCTGGTTGGGTTACATGTAACTCACCACCCTCCGCACAGAAGAATTTTATCAGAATCAGAGTAGCTGATGCGAGTGGCGCAACAGCAGAAAAAGATTTGGTTTTTGAGGTAACAGGAAAATATATTAATCCTGTCCGAAATGGAGCACTACCTAGAGCAACAATTAATTATAGTTACCTGTTCCAAATGGATTTGGTGAATAATGATGGACAACCACATTATTGGTGGCTTCTAAATGCACCGAAAGGTCTTGGAATTGGAAGAACAACTGGAATCATTTCTGGCACTCCAGAGGCTAATACATTCGGTAAATATACAATTAAAATAGGAATTACAACTGCTGGTAATATTAATGATTTTGATCGAAATATTCTTATCGACTCTATCGAATATGATTTACCCGTAGAGAATACACAGTTTCCTAATTTCACTGGCCCCCCATTAGATACCGCAATTTTGGGTGTAGCTTATACCGGCGTTCTATATCCATATGGCGGTGTTGCTCCTATGACATGGGCGATTGTGGGTTCTCTTCCGGCTGGTATAGCCTTTACTTCTGATGGAGTCCGAGGATATTTAACTGGAACTGCAACAACAACCGGAAGTTACTCATTCAGATCCATATTTACCGATTCAACAGGAAAAGCGTCTAGTGGTAATCAGACATTGAATGTGAATAATGCTGTTCCACCTCAGATTAAATTAACAAACTACCCAATACTTCCTGTTGCAGTTAAGGGTCAGCCTTATTTTTATCAACTTGAGACAACTCAGCCAGATTGTGTTTTTAGGATCAGAGGTAAATCATTACCAACTGGTCTGGCTCTTTCTGAGACAACCGGTATTATAGCCGGTATTCCTACGGGTGGTATTTATGCTAATGGTATTTCTTGTGAATGGAGTACCAAAATCAATAATGTTCACTCTAGGAACTTTAAGCAAGGCGCCGGAATACAATATGATGGTCCATCAAATGTCCATATAGTTGAAAAGTTTTTTATTAGTGCATGTGATATTGGTATTCAATCCGATAACTGTTATGATTCTAGATTTGATAGATTCTATATCTACAATTGTAGAGTTGGATTTAATATGGGCGGTGGTACTGCGGCAAATACTTATATAAATGGTCGAATTGAGTTTATACATGAGGATGGTGTAAATGCTCTATTCAGTAATGATCATATCTTTACTAATATACTATGGGATACTTGTGGCACGACTGCCATTAATATGGATAGATGCAAGTATTGGGTAATCAGCAATAACGTCTTCTTCAGAAGTGCACGTAGAGTATTACCAAGAGGTAAGCACTATATTCCAGACACACCCACTAAACAATCCGCTCACATCAATCTATTAGAGTCCGATGGTATCACGATTACCGGTAATACATTTATACGTGGTTCAGAAAGCCCAAGTTCTCTTTTCCTTAGGCGATATGACGAGTCTCTTAGGAGAGATTGGATTAGACCATATACCTGCCTCACCGTGGAGGATTGTCAAGAACTTGTCATTACTGGTAATAATATGGCCGGTTGTACTAGACAATCTATTATACCTGAAGTAATTGTATTTGATTTAGTTAACAACGATGCCATTATCGAGGGCAATGTAGTTCATTATAAAAATGCTTTTGATACAATAGATGCAACCACTAAAAAATCAGATAATTTATTTGAGAATGCAAATAAGTATAATTATGTGAGTAGTGGTGGAGAAGAACTTATCGATACATTTTACCGAAATACATCACTTATACTAAATGGTGATACATTAACTGATACTAGCTATCTAAGGCACACTATAAATAATATAAACGTTGGAACTAGTAATACAACTGCTGCTATTGGTAATACTAGCTTAGCTTTTAATGGAACGACTTCCCTTCTTACTGTAGTCATTCCCAATTCTGGTGTAACCACATCAGGCTTTTACTTTGGCAACGATCCATGGACATTTGAGCTTCAAGTGAATCCAATAAGAAACAATGTCCCACAGACATTAATAGACTTTGGAACCACAAATGAACCAACAACATTTGGTATCGGTTTGAATGATCAAGGAAAACTGGTGATTCTTAGGAGCCGGTCTTCTAGTGGACAGTCAACTGTATTCACAAGTAACGAAACAATTCCAATTAATTCCTGGACAAGAATTGCAGGATGTAAGACTGGAACTACGGACAACACTGTGAGGATTTATATCAATGATTCAGTTGTTGGCACATTCACAACAGAATTTGATTCTAGGTTTTTTGTTAGTGGCACTAATAGGCCAATCATAGGGCGAGGTGGATTTACTGGTGCAGCGGATTTCTTTAAAGGTTATATGCAGGGAATCCGAGTCACTAAGGGTATTTCAAGATATGGCGCTCTTAGTATAATACCAACACAGACACTCCCGTGGACTAGTATCGATTATGGTGTAATCAGAGCCGATACTCGTATTTATTTACCCAAGTCCGGTGTTTCACAACAATCGTATTGGGGAGATGGGACATATTCAGTCCTTCTTGGCCCTACTTCACAAATAAGTAAAGCGGTAAAAGTCGAGCGCAGATCTAAGTCAATTATTACAGAAGAATTAAGAGCCGGAAATGGATCTTATGTGGCGGGTGATAAAAACCCTTCAGATTATTATTTTAATATAACTAAAGAGGCCGAAGCGGGCACGACTCCAAATAATTTTGTGTTCCAAGAATGTGAATTGAGACTTTGGTTGGCAAGACTTGGTAATACTTTAGAATTTAATAAGTATAGAGGTAAATATTTAAATATTGTATGGTATGCGAGATCAAATAATAAAAATCCCATTTCATTTTTTACAAGATTCTATGCAGGAACTGCTGATAATGGATTTAACGTAGATGGTGGTTTTTATACAGAAATTACTTTGACTCCATATTGGAGAAGATATTATTTTGAGCTACAAGTACCAGAATATGATATAGTCCGCGAAAGCTCAGAGAATTGCAATATGTTCTTGAGATTCTTGATGGACGACAAGTCAGAATCTTATGATTGGGATTTTGGTGGTTTTATGATTTATCCGGCAGATGGTACGTTTGGTTTCAAACAATTTACCGAGAGTTCTGTTGGGATTCAGACATCGAATATAGTGAATGTCTCTTCGACTAGTCCCACTGGTCTTGAGGGATTCAGAAATCTTCTAATTAATGGAGATTTTCAGGTCAAGCAACAATATGGTACAACAGTAACGCCTGGATTCACCACAAGTCTATATGTAACTGACCGGTGGGTAGCACAAGCGTTCGGTTCTGGACTAACCGCACAAACTGTTGTCACGGACCAGCGAGCCAGTCTACAAATCAATGGGGCCGCAGGCAACTCTGGCTGCAACGTACTTCAGCGCATTGAGTCAGCCAATGTGCAACACATGCGCAACCGCGACGTGACTCTTTCTGTCGATCTGGCAAATACTCTGCTGACATCAGTTACCTGGGCTGCATATTATCCCAACACAGTCGATACTTTTACGTCTCTGAACCTGCTTGCGTTTGGCACTTTTATTGTGACACCAACACTGAATCGTTACAGTGCTACGTTCAACATGGGCGACTTCGCTTGGAGAGGTGTCGAAATTCGCTTTTCTGTCGGCGCTCAGACCGGAGGTACTTTTACTTTGCGTGACGCCATGTTGGCATCTGGCACTGCGGTAACTCCCATGGAAAGACGATTTTACGGTACAGAGTTACAGCTTTGCCAGCGTTATTTCCGCTGGGTTTCATGTAACTCTACTCTCCGTGCTGTCATCAGCGCCCAAACCCAGGAGACTGGAATAAACTGGCCCGAGATGAGGGTAACTCCAACAGCGGGAACTCCGGTCCCAGATCCAAACATACCTGGATTCTCTGAAACCACTAACGTCGCTTTCTTCTTTCTTGGGCGTATGACACCATATGGCGGCTCTCTTATACTGACCAGCAATACCTCTGGTGTCTCATATACTCTCGGTTACCGAGCCTCTCTCTCTGCTGAACTATGA

Genome Context

Tertiary structure

PDB ID

bc71ed739050c3f36869cfa014f6b3c71b05a0d4d37d9c9ac63932319f48de06

ColabFold

Source ColabFold

Method ColabFold

Resolution 0,4999

Oligomeric State monomer

Download PDB

Model Confidence

Very high
pLDDT > 90

High
90 > pLDDT > 70

Low
70 > pLDDT > 50

Very low
pLDDT < 50

Literature

Title	Authors	Date	PMID	Source
Complete genome sequences for two Myoviridae strains infecting cyanobacteria in a subarctic lake	Levesque,A.V., Thaler,M., Labrie,S.J., Marois,C., Vincent,A.T., Lapointe,A.-M. and Culley,A.	—	—	GenBank

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

Tertiary structure

Predicted Aligned Error (PAE)

Model Confidence

Literature