The orthologs of pathogenic mycobcateria formed six TMHs, with catalytic residues in TMH4 (Gly199 and find more Ser201) and TMH6 (His254). His145, His150 and Asn154 are located in TMH2 as in rhomboid protease-1 (Rv0110 PI3K inhibitor orthologs). (PDF 48 KB) Additional file 4: The topology and location of catalytic residues in mycobacterial rhomboid protease 2 (Rv1337 orthologs) of nonpathogenic mycobacteria. These rhomboids formed five TMHs, with catalytic residues in TMH3 (Gly199 and Ser201) and TMH5 (His254),

while His145, His150 and Asn154 are outside the TMHs (boxed). (PDF 53 KB) Additional file 5: ClustalW-Neighbor Joining analysis of the genes in Rv1337 cluster. Boxed (blue) are the genes that grouped with Rv1337. Essential genes in this clade are Rv1327c, Rv1327c, Rv1331, Rv1340 and Rv1344. (PDF 131 KB) Additional file 6: ClustalW-Neighbor

https://www.selleckchem.com/products/XL880(GSK1363089,EXEL-2880).html Joining analysis of the genes in Rv0110 cluster. Boxed (blue) are the essential genes in that grouped with Rv0110 (Rv0118c, Rv0127, Rv0107c, Rv0116c, Rv0121c, Rv0132c, Rv0133 and Rv0139). (PDF 145 KB) Additional file 7: ClustalW-Neighbor Joining analysis of the genes in MUL4822 cluster. Boxed (blue) are the genes that grouped with MUL4822. Several of the MTC orthologs in this clade are essential for the growth of M. tuberculosis in macrophages. (PDF 59 KB) Additional file 8: ClustalW-Neighbor Joining analysis of the genes in Mjls5529 cluster. Boxed (blue) are the genes that grouped with Mjls5529, whose homologs are essential in M. tuberculosis. Several of the MTC orthologs in this clade are essential for the

growth of M. tuberculosis in macrophages. (PDF 109 KB) Additional file 9: The essential genes in mycobacterial rhomboid gene clusters (doc). a : According to Sassetti et al [37] and Rengarajan et al [38]. 1 : Essential (for optimal growth). 2 : Required for growth in macrophage. 3 : Mutation slows growth. (DOC 52 KB) References 1. Euzéby JP: List of Prokaryotic names with Standing in Nomenclature. [http://​www.​bacterio.​cict.​fr/​m/​mycobacterium.​html] 2. Cole ST, Brosch R, Parkhill J, Garnier T, Churcher C, Harris D, Gordon SV, Eiglmeier K, Gas S, Barry CE, et al.: Deciphering the biology of Mycobacterium tuberculosis from the complete genome sequence. Nature 1998,393(6685):537–544.PubMedCrossRef selleck products 3. Cole ST, Eiglmeier K, Parkhill J, James KD, Thomson NR, Wheeler PR, Honore N, Garnier T, Churcher C, Harris D, et al.: Massive gene decay in the leprosy bacillus. Nature 2001,409(6823):1007–1011.PubMedCrossRef 4. Demangel C, Stinear TP, Cole ST: Buruli ulcer: reductive evolution enhances pathogenicity of Mycobacterium ulcerans. Nat Rev Microbiol 2009,7(1):50–60.PubMedCrossRef 5. Bannantine JP, Barletta RG, Stabel JR, Paustian ML, Kapur V: Application of the Genome Sequence to Address Concerns That Mycobacterium avium Subspecies Paratuberculosis Might Be a Foodborne Pathogen.