SecReT6, T6SS database

Detailed information of component protein

Summary

Component ID	T6CP004057
Component protein type	TssL
T6SS ID (Type)	T6SS00395 (Type i3)
Strain	Enterobacter cloacae subsp. cloacae ATCC 13047
Replicon	chromosome
Sequence	Protein sequence (413 a.a.); Nucleotide sequence (1239 bp)
Reference	[1] Whitney JC, Beck CM, Goo YA, et al. Genetically distinct pathways guide effector export through the type VI secretion system. Mol Microbiol. 2014 May;92(3):529-42. doi: 10.1111/mmi.12571. Epub 2014 Mar 28. PMID: 24589350 [2] Zhang H, Zhang H, Gao ZQ, et al. Structure of the type VI effector-immunity complex (Tae4-Tai4) provides novel insights into the inhibition mechanism of the effector by its immunity protein. J Biol Chem. 2013 Feb 22;288(8):5928-39. doi: 10.1074/jbc.M112.434357. Epub 2013 Jan 3. PMID: 23288853 [3] Zhang H, Gao ZQ, Wei Y, et al. Insights into the cross-immunity mechanism within effector families of bacteria type VI secretion system from the structure of StTae4-EcTai4 complex. PLoS One. 2013 Sep 2;8(9):e73782. doi: 10.1371/journal.pone.0073782. eCollection 2013. PMID: 24023903 [4] Russell AB, Singh P, Brittnacher M, et al. A widespread bacterial type VI secretion effector superfamily identified using a heuristic approach. Cell Host Microbe. 2012 May 17;11(5):538-49. doi: 10.1016/j.chom.2012.04.007. PMID: 22607806 [5] Soria-Bustos J, Ares MA, Gómez-Aldapa CA, et al. Two Type VI Secretion Systems of Enterobacter cloacae Are Required for Bacterial Competition, Cell Adherence, and Intestinal Colonization. Front Microbiol. 2020 Sep 24;11:560488. doi: 10.3389/fmicb.2020.560488. eCollection 2020. PMID: 33072020

Experimental investigation has been performed on this T6SS

External database links

Locus tag (Gene)	ECL_RS07525
Coordinate (Strand)	1553870..1555108 (+)
NCBI ID	WP_013096177.1
RefSeq	NC_014121
Uniprot ID	A0A5E1AB49_9ENTR, A0A427KFS7_ENTCL, A0A0H3CGU1_ENTCC
KEGG ID	eclg:EC036_26080, enc:ECL_01535
PDB ID	-

Pfam domain hit(s)

Domain	Pfam ID	E-value	Aligned region
DotU	PF09850.11	1.4e-67	22..223
OmpA	PF00691.22	1.8e-14	290..388

Transmembrane helices

Transmembrane helices are predicted using TMHMM 2.0 software.

Prediction	Region	Sequence
Inside	1-200	MQERQDTGSDAAFTGASSNNQLVAAANPLLNAIPQIRHSVSHDDQVALRQRLIDEIRRFEVRCQQAGLAYEVIVGARYCLCTALDEAAALTPWGSSGVWSSNGLLVTFHNETWGGEKFFQLLARLSQNPREHILLLEMINYCLLLGFEGRYRVLDNGRTQLETIKQRLWQMIRGVRGSYPAPLSPHPEDRPVLRKLWRPM
Transmembrane helix	201-223	VPLWACVALAGFIACLFYIILNW
Outside	224-412	RLGDNTNPVLAKIYQSQLPETTIQQPARQLPAVLNLRGFLKPEIDAGLVAVKDEADRSVVILKGDGLFASASTVVRDRYEPVINRIAQAMNNVSGKILVVGYSDNVPIRSARFASNYELSLDRARSVQKMLQGSLSQPDRVKAEGRGEINPVAPNNTPENRARNRRVEITLLVSPENTQAELNGLPQGN

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	0.9353	-	-

Protein sequence: 413 a.a.

						>T6CP004057 NC_014121:1553870-1555108 [Enterobacter cloacae subsp. cloacae ATCC 13047] [TssL]
MQERQDTGSDAAFTGASSNNQLVAAANPLLNAIPQIRHSVSHDDQVALRQRLIDEIRRFEVRCQQAGLAYEVIVGARYCL
CTALDEAAALTPWGSSGVWSSNGLLVTFHNETWGGEKFFQLLARLSQNPREHILLLEMINYCLLLGFEGRYRVLDNGRTQ
LETIKQRLWQMIRGVRGSYPAPLSPHPEDRPVLRKLWRPMVPLWACVALAGFIACLFYIILNWRLGDNTNPVLAKIYQSQ
LPETTIQQPARQLPAVLNLRGFLKPEIDAGLVAVKDEADRSVVILKGDGLFASASTVVRDRYEPVINRIAQAMNNVSGKI
LVVGYSDNVPIRSARFASNYELSLDRARSVQKMLQGSLSQPDRVKAEGRGEINPVAPNNTPENRARNRRVEITLLVSPEN
TQAELNGLPQGN*					

Nucleotide sequence: 1239 bp

						>T6CP004057 NC_014121:1553870-1555108 [Enterobacter cloacae subsp. cloacae ATCC 13047] [TssL]
ATGCAGGAACGACAGGATACCGGCAGTGATGCCGCGTTTACCGGAGCCAGTAGTAACAATCAGCTGGTGGCGGCCGCCAA
TCCGCTGCTCAACGCGATTCCGCAAATCCGTCATTCGGTGTCTCATGACGATCAGGTGGCACTGCGCCAGCGTCTGATCG
ACGAGATTCGCCGTTTTGAAGTCCGCTGCCAGCAGGCAGGGCTGGCTTATGAGGTGATCGTCGGGGCGCGCTATTGCCTC
TGCACGGCGCTGGATGAAGCCGCGGCGCTGACCCCCTGGGGCAGCAGCGGTGTCTGGTCAAGCAATGGTCTGCTGGTCAC
GTTTCATAACGAAACCTGGGGCGGCGAAAAGTTCTTCCAGCTGCTGGCGCGTCTGTCGCAGAACCCGCGTGAACATATCC
TCCTGCTGGAGATGATCAACTACTGCCTGCTGCTCGGTTTCGAAGGGCGCTATCGGGTTCTGGATAATGGCCGCACCCAG
CTGGAAACTATCAAGCAGCGGCTGTGGCAGATGATCCGTGGCGTGCGCGGCAGCTATCCGGCACCGCTCTCTCCACACCC
GGAAGATCGTCCCGTGCTGCGCAAGCTGTGGCGGCCGATGGTGCCGCTGTGGGCCTGTGTCGCGCTGGCCGGGTTTATCG
CCTGCCTGTTCTACATCATTCTCAACTGGCGTCTTGGCGACAACACCAACCCGGTACTGGCGAAGATTTACCAGTCTCAG
TTGCCTGAAACCACCATTCAGCAACCTGCGCGTCAACTGCCTGCGGTGCTTAACCTGCGTGGCTTCCTGAAGCCGGAAAT
CGACGCCGGTCTGGTGGCGGTGAAAGATGAAGCGGATCGCAGCGTGGTGATCCTGAAAGGAGACGGGCTGTTTGCTTCTG
CTTCTACCGTGGTGCGTGACCGCTATGAGCCGGTCATCAACCGGATCGCCCAGGCGATGAACAACGTCAGCGGCAAAATT
CTGGTGGTGGGCTACAGCGATAACGTGCCAATTCGCAGCGCGCGCTTCGCCTCCAACTATGAACTCTCTTTGGATCGCGC
CCGGTCCGTGCAAAAAATGTTGCAGGGAAGCCTCTCCCAGCCTGACCGCGTGAAAGCGGAAGGGCGGGGAGAGATCAATC
CTGTGGCGCCAAACAATACGCCTGAAAACCGCGCCCGTAACCGCCGTGTGGAAATAACTCTGCTGGTGTCGCCTGAAAAT
ACGCAGGCTGAGCTGAACGGATTGCCGCAAGGAAACTAA					