SecReT6, T6SS database

Detailed information of component protein

Summary

Component ID	T6CP014269
Component protein type	TssI
T6SS ID (Type)	T6SS01112 (Type i1)
Strain	Vibrio cholerae strain A1552
Replicon	chromosome
Sequence	Protein sequence (1018 a.a.); Nucleotide sequence (3054 bp)
Reference	[1] Cheng AT, Ottemann KM, Yildiz FH. Vibrio cholerae Response Regulator VxrB Controls Colonization and Regulates the Type VI Secretion System. PLoS Pathog. 2015 May 22;11(5):e1004933. doi: 10.1371/journal.ppat.1004933. eCollection 2015 May. PMID: 26000450

Experimental investigation has been performed on this T6SS

External database links

Locus tag (Gene)	VCA1552_RS14800
Coordinate (Strand)	137680..140733 (+)
NCBI ID	WP_000113295.1
RefSeq	NZ_CP024868
Uniprot ID	VGRG3_VIBCH, A0A0X1L1U6_VIBCO, A0A0K9UVH4_VIBCL, A0A7U8ZSJ3_VIBCL, A0A0H3QAP5_VIBCL, C3LUE7_VIBCM, A0A0H6WY15_VIBCL
KEGG ID	vch:VCA0123, vcq:EN18_04335, vcm:VCM66_A0121
PDB ID	4NOO, 4NSO

Pfam domain hit(s)

Domain	Pfam ID	E-value	Aligned region
Phage_GPD	PF05954.13	4.6e-70	41..334
Phage_base_V	PF04717.14	5e-15	391..458
PG_binding_1	PF01471.20	4.4e-08	731..773
DUF2345	PF10106.11	9.7e-05	570..618

Transmembrane helices

Transmembrane helices are predicted using TMHMM 2.0 software.

Prediction	Region	Sequence
Outside	1-1017	MARLQFQLKVDGLEDESLVVRGFEGQESLSDSVWRCEPCYGFRYQVDLASALSNLTAEQFVDQTAHLTILRDGQVVQQINGIVRQLSKGDTGHRHTFYSLTLVPALERLSLRSNSRIFQQQSVPEIISILLQEMGIEDYAFALKRECAQREFCVQYRETDLQFLHRIAAEEGLVYSHLHEAQKHTLLFTDSSDSQPKLAKPVPYNALAGGEINLPYVVDLQFKTTAQVSHTELKDYSFKKPAYGFTQRTQGKDIAYQQPNYEHFDAPGRYKDDANGKAFSQIRLEYLRRDALLADAKSDEPLLLAGVRFDLQDHLDHAMNRDWLVVQANHQGTQPQALQEEGGSGATTYSNQLKLIPAHITWRARPCAKPQVDGPMIATVVGPQGEEIYCDNFGRVKVHFPWDRYSSSNEKSSCWVRVAQEWAGSQYGSMAIPRVGHEVIVSFLNGDPDQPIITGRTYHATNTAPYALPDHKTKTVLRTETHQGQGYNELSFEDQAGSEQILLHAQKDWDALIEHDHTEVIRHDQHLTVDNDRFTRIQRNQHLTVEGEVRSKIALDSSHEVGASLQHKVGQRIAVEAGKEISLKSGAKIVVEAGAELTLKAGGSFVKVDAGGVHLVGPAINLNAGGSAGSGSAYGGQLAAAPRMLAQAKPVAELVQPDIAASMQSGAARVIDVASLPTMMPSSANNTANDEPVAEEKTPERILKSDLLKPSDELEKLAKRQASAYRQGNHSDEVKLLQEALIKLGFDLGKAGADGDFGSKTKTAIEQFQKSYQPSHQTHPSYSIGAVDGIVGKGTLLALDEALMDGWVYENNIYQIWPLGKTSEKYESAGRGPGVISTGNGDYGGASYGCYQMSSNLGVVQKYIQSSKFKEFFSGLNPATKEFNVVWQDIASRYPQEFREEQHQFIKRTHYDIQIGHLRGKGLLFEHNRAAVHDLIWSTSVQFGGRTNLIFNALNGQNMESMTDKDIIILVQDYKLVNTERLFKSSPSWWSDLKKRAVSEKKALLELEIDGLEVDIK

Signal peptides

Signal peptides and corresponding cleavage sites are predicted using SignalP 5.0 software.

Sec/SPI: "standard" secretory signal peptides transported by the Sec translocon and cleaved by Signal Peptidase I (Lep).

Sec/SPII: lipoprotein signal peptides transported by the Sec translocon and cleaved by Signal Peptidase II (Lsp).

Tat/SPI: Tat signal peptides transported by the Tat translocon and cleaved by Signal Peptidase I (Lep).

Prediction	Probability	Cleavage site	Signal peptide sequence
Other	0.9951	-	-

Protein sequence: 1018 a.a.

						>T6CP014269 NZ_CP024868:137680-140733 [Vibrio cholerae] [TssI]
MARLQFQLKVDGLEDESLVVRGFEGQESLSDSVWRCEPCYGFRYQVDLASALSNLTAEQFVDQTAHLTILRDGQVVQQIN
GIVRQLSKGDTGHRHTFYSLTLVPALERLSLRSNSRIFQQQSVPEIISILLQEMGIEDYAFALKRECAQREFCVQYRETD
LQFLHRIAAEEGLVYSHLHEAQKHTLLFTDSSDSQPKLAKPVPYNALAGGEINLPYVVDLQFKTTAQVSHTELKDYSFKK
PAYGFTQRTQGKDIAYQQPNYEHFDAPGRYKDDANGKAFSQIRLEYLRRDALLADAKSDEPLLLAGVRFDLQDHLDHAMN
RDWLVVQANHQGTQPQALQEEGGSGATTYSNQLKLIPAHITWRARPCAKPQVDGPMIATVVGPQGEEIYCDNFGRVKVHF
PWDRYSSSNEKSSCWVRVAQEWAGSQYGSMAIPRVGHEVIVSFLNGDPDQPIITGRTYHATNTAPYALPDHKTKTVLRTE
THQGQGYNELSFEDQAGSEQILLHAQKDWDALIEHDHTEVIRHDQHLTVDNDRFTRIQRNQHLTVEGEVRSKIALDSSHE
VGASLQHKVGQRIAVEAGKEISLKSGAKIVVEAGAELTLKAGGSFVKVDAGGVHLVGPAINLNAGGSAGSGSAYGGQLAA
APRMLAQAKPVAELVQPDIAASMQSGAARVIDVASLPTMMPSSANNTANDEPVAEEKTPERILKSDLLKPSDELEKLAKR
QASAYRQGNHSDEVKLLQEALIKLGFDLGKAGADGDFGSKTKTAIEQFQKSYQPSHQTHPSYSIGAVDGIVGKGTLLALD
EALMDGWVYENNIYQIWPLGKTSEKYESAGRGPGVISTGNGDYGGASYGCYQMSSNLGVVQKYIQSSKFKEFFSGLNPAT
KEFNVVWQDIASRYPQEFREEQHQFIKRTHYDIQIGHLRGKGLLFEHNRAAVHDLIWSTSVQFGGRTNLIFNALNGQNME
SMTDKDIIILVQDYKLVNTERLFKSSPSWWSDLKKRAVSEKKALLELEIDGLEVDIK*					

Nucleotide sequence: 3054 bp

						>T6CP014269 NZ_CP024868:137680-140733 [Vibrio cholerae] [TssI]
ATGGCAAGGTTACAGTTTCAATTAAAGGTGGATGGCCTTGAGGATGAATCCCTCGTCGTACGCGGATTTGAAGGGCAAGA
GTCCTTGTCTGATTCTGTATGGCGCTGTGAACCCTGCTATGGTTTTCGCTATCAGGTTGATTTAGCCAGTGCGCTAAGCA
ACCTTACTGCTGAGCAATTTGTCGACCAAACCGCGCATTTAACCATTCTGCGTGACGGGCAAGTGGTGCAGCAAATTAAC
GGTATCGTACGCCAATTGAGTAAAGGCGATACTGGGCATCGGCACACGTTTTATTCTCTTACGTTAGTACCTGCGCTGGA
GCGGCTTTCTTTACGCAGTAATAGCCGTATTTTCCAGCAGCAAAGCGTGCCGGAAATTATCTCTATTTTACTGCAAGAGA
TGGGGATTGAAGATTACGCCTTTGCCCTTAAGCGTGAGTGTGCCCAGCGTGAGTTTTGTGTGCAGTACCGTGAAACGGAT
TTGCAGTTTTTACACCGTATCGCCGCCGAAGAAGGCTTGGTATACAGTCACCTACATGAAGCGCAGAAACACACGCTACT
GTTTACCGATAGCTCGGACAGCCAACCGAAGTTAGCCAAGCCAGTACCTTATAATGCGCTGGCGGGTGGCGAGATCAATC
TCCCTTATGTGGTCGATCTGCAATTCAAGACCACCGCACAAGTCAGCCATACCGAGCTAAAGGATTACAGCTTTAAAAAG
CCAGCTTACGGATTTACTCAGCGCACGCAGGGTAAAGATATCGCTTATCAGCAGCCAAATTATGAGCATTTTGATGCTCC
GGGACGCTACAAAGACGATGCAAATGGCAAGGCCTTTAGCCAAATTCGCTTAGAGTATTTACGTCGCGATGCTTTGCTTG
CTGATGCGAAGAGTGACGAACCTTTGCTGTTGGCGGGAGTGCGTTTTGACTTGCAAGATCACCTTGATCACGCAATGAAT
CGAGATTGGCTCGTGGTACAAGCCAATCACCAAGGGACGCAGCCACAAGCGTTACAAGAAGAGGGTGGTTCAGGCGCTAC
CACTTACAGCAATCAGCTAAAACTTATTCCCGCTCACATCACTTGGCGAGCAAGGCCTTGTGCTAAGCCGCAAGTGGATG
GTCCCATGATCGCCACCGTGGTTGGGCCACAAGGTGAAGAGATTTATTGCGATAACTTTGGTCGCGTGAAAGTGCATTTC
CCGTGGGATCGCTACTCAAGTAGCAACGAAAAAAGCTCTTGCTGGGTGCGAGTGGCACAAGAATGGGCTGGTAGCCAATA
CGGTAGTATGGCGATTCCGCGAGTTGGCCATGAAGTGATTGTTTCGTTCCTGAATGGCGATCCGGATCAACCCATCATCA
CAGGTCGTACGTATCATGCGACCAATACCGCGCCTTACGCCTTGCCTGACCACAAAACCAAAACCGTGCTGCGCACTGAG
ACTCACCAAGGGCAAGGCTACAACGAACTGAGTTTTGAGGATCAAGCGGGCAGCGAACAGATTTTGCTGCATGCACAAAA
AGATTGGGATGCGTTGATTGAGCATGATCACACCGAAGTGATTCGCCACGATCAACATCTCACTGTGGACAATGATCGCT
TTACCCGCATTCAGCGCAACCAACATTTAACGGTTGAAGGTGAAGTCCGTAGCAAAATCGCACTCGATAGCAGCCATGAA
GTCGGCGCGTCACTACAACACAAAGTCGGGCAGCGCATTGCTGTCGAGGCGGGTAAAGAGATTTCACTCAAAAGCGGCGC
AAAAATCGTGGTTGAAGCCGGAGCGGAGTTAACCCTAAAAGCTGGGGGCAGTTTTGTAAAAGTCGATGCTGGTGGCGTGC
ACTTAGTCGGTCCTGCCATTAACCTAAACGCGGGCGGCAGTGCAGGCAGCGGTAGCGCTTATGGCGGGCAATTAGCGGCA
GCACCGAGAATGTTAGCGCAAGCTAAACCAGTAGCAGAATTGGTTCAGCCGGATATTGCGGCCTCAATGCAATCAGGCGC
GGCGCGTGTTATTGATGTGGCATCACTCCCCACAATGATGCCGAGTTCAGCCAATAACACGGCAAATGATGAGCCTGTGG
CCGAAGAGAAAACACCGGAGCGAATTTTAAAATCCGATCTCCTCAAACCATCCGATGAGTTAGAGAAACTCGCCAAGCGA
CAAGCGAGTGCTTATCGTCAAGGTAATCACAGCGATGAGGTTAAGTTACTACAAGAAGCGCTCATAAAATTGGGGTTTGA
TCTCGGGAAAGCAGGAGCTGATGGTGACTTTGGGAGCAAAACTAAAACCGCGATTGAGCAGTTCCAGAAAAGCTATCAAC
CAAGCCACCAAACCCACCCGTCTTACAGCATTGGCGCTGTTGACGGTATTGTCGGCAAAGGTACACTACTGGCACTAGAC
GAAGCCTTGATGGATGGGTGGGTGTATGAGAATAATATTTATCAAATATGGCCTCTAGGTAAAACGTCAGAGAAATATGA
GTCGGCAGGAAGAGGCCCAGGGGTTATATCAACAGGAAATGGAGATTATGGTGGGGCTTCATATGGTTGCTATCAAATGT
CATCAAATCTTGGTGTGGTACAAAAATATATTCAGTCATCAAAATTCAAAGAATTCTTTAGTGGATTAAATCCCGCTACG
AAAGAGTTTAATGTTGTTTGGCAGGATATAGCTTCAAGATATCCTCAGGAATTCAGAGAAGAACAACACCAATTTATTAA
GAGAACTCATTATGATATACAAATAGGACATCTTAGAGGGAAAGGACTTTTGTTTGAACATAATCGAGCTGCTGTACATG
ATTTGATCTGGTCTACTTCAGTACAGTTTGGTGGGAGAACTAATTTGATTTTCAATGCATTGAATGGACAAAATATGGAA
AGTATGACTGATAAGGACATCATTATTCTGGTACAAGATTACAAGCTTGTTAATACAGAAAGGCTTTTTAAGTCTTCGCC
ATCATGGTGGAGTGATTTAAAAAAACGTGCGGTATCAGAGAAAAAAGCTTTACTTGAACTAGAAATTGACGGTTTGGAGG
TTGATATAAAATGA					