Characterization of an acid inducible lipase Rv3203 from Mycobacterium tuberculosis H37Rv

Honer zu Bentrup K, Russell DG (2001) Mycobacterial persistence: adaptation to a changing environment. Trends Microbiol 9:597–605

Garton NJ, Christensen H, Minnikin DE, Adegbola RA, Barer MR (2002) Intracellular lipophilic inclusions of mycobacteria in vitro and in sputum. Microbiology 148:2951–2958

Camus JC, Pryor MJ, Me′digue C, Cole ST (2002) Re-annotation of the genome sequence of M. tuberculosis H37Rv. Microbiology 148:2967–2973

Cole ST, Brosch R, Parkhill J (1998) Deciphering the biology of M. tuberculosis from the complete genome sequence. Nature 393:537–544

Neyrolles O, Hernandez-Pando R, Pietri-Rouxel F, Fornes P, Tailleux L et al (2006) Is adipose tissue a place for M. tuberculosis persistence? PLoS One 1:e43

Daniel J, Deb C, Dubey VS, Sirakova TD, Abomoelak B et al (2004) Induction of a novel class of diacylglycerol acyltransferases and triacylglycerol accumulation in M. tuberculosis as it goes into a dormancy-like state in culture. J Bacteriol 186:5017–5030

Singh G, Singh G, Jadeja D, Kaur J (2010) Lipid hydrolizing enzymes in virulence: M. tuberculosis as a model system. Crit Rev Microbiol 36(3):259–269

Karlsson M, Contreras JA, Hellman U, Tornqvist H, Holm C (1997) cDNA cloning, tissue distribution, and identification of the catalytic triad of monoglyceride lipase. Evolutionary relationship to esterases, lysophospholipases, and haloperoxidases. J Biol Chem 272:27218–27223

Deb C, Daniel J, Sirakova TD, Abomoelak B, Dubey VS et al (2006) A novel lipase belonging to the hormone-sensitive lipase family induced under starvation to utilize stored triacylglycerol in M. tuberculosis. J Biol Chem 281:3866–3875

Mishra KC, Chastellier CD, Narayana Y, Bifani P, Brown AK et al (2008) Functional role of the PE domain and immunogenicity of the M. tuberculosis triacylglycerol hydrolase LipY. Infect Immun 76(1):127–140

Canaan S, Maurin D, Chahinian H, Pouilly B, Durousseau C et al (2004) Expression and characterization of the protein Rv1399c from M. tuberculosis. Eur J Biochem 271:3953–3961

Zhang M, Wang JD, Li ZF, Xie J, Yang YP et al (2005) Expression and characterization of the carboxyl esterase Rv3487c from M. tuberculosis. Protein Expr Purif 42:59–66

Sinha SC, Wetterer M, Sprang SR et al (2005) Origin of asymmetry in adenylyl cyclases: structures of M. tuberculosis Rv1900c. EMBO J 24:663–673

Shen G, Singh K, Chandra D, Serveau-Avesque C, Maurin D et al (2011) LipC (Rv0220) is an immunogenic cell-surface esterase of M. tuberculosis. Infect Immun 80(1):243–253

Zheng X, Guo J, Xu L, Li H, Zhang D et al (2011) Crystal structure of a novel esterase Rv0045c from M. tuberculosis. PLoS One 6(5):e20506

Park SY, Lee SH, Lee J, Nishi K, Kim YS et al (2008) High-resolution structure of ybfF from Escherichia coli K12: a unique substrate-binding crevice generated by domain arrangement. J Mol Biol 376:1426–1437

Elmi F, Lee HT, Huang JY, Hsieh YC, Wang YL et al (2005) Stereoselective esterase from Pseudomonas putida IFO12996 reveals alpha/beta hydrolase folds for D-beta-acetylthioisobutyric acid synthesis. J Bacteriol 187:8470–8476

Grover A, Ahmed MF, Verma I, Sharma P, Khuller GK (2006) Expression and purification of the M. tuberculosis complex-restricted antigen CFP21 to study its immunoprophylactic potential in mouse model. Protein Expr Purif 48:274–280

Gasteiger E, Hoogland C, Gattiker A, Duvaud S, Wilkins MR (2005) Protein identification and analysis tools on the ExPASy server. In: Walker John M (ed) The proteomics protocols handbook. Humana Press, Totowa, pp 571–607

Sigurgisladottir S, Konraosdottir M, Jonsson A, Kristjansson JK, Matthiasson E (1993) Lipase activity of thermophilic bacteria from Icelandic hot springs. Biotechnol Lett 15:361–366

Richtera L, Saviolaa B (2009) The lipF promoter of M. tuberculosis is upregulated specifically by acidic pH but not by other stress conditions. Microbiol Res 164:228–232

Chen YH, Yang JTG, Martinez HM (1972) Determination of the secondary structures of proteins by circular dichroism and optical rotatory dispersion. Biochem 11:4120–4131

Lun S, Bishai WR (2007) Characterization of a novel cell wall anchored protein with carboxylesterase activity required for virulence in M. tuberculosis. J Biol Chem 282:18348–18356

Singh A et al (2005) Requirement of the mymA operon for appropriate cell wall ultrastructure and persistence of M. tuberculosis in the spleens of guinea pigs. J Bacteriol 187:4173–4186

Baba T, Kaneda K, Kusunose E, Kusunose M, Yano I (1989) Thermally adaptive changes of mycolic acids in M. smegmatis. Biochemistry 106:81–86

Singh A, Jain S, Gupta S, Das T, Tyagi AK (2003) mymA operon of M. tuberculosis: its regulation and importance in the cell envelope. FEMS Microbiol Lett 227:53–63

Rao M, Streur TL, Aldwell FE, Cook GM (2001) Intracellular pH regulation by M. smegmatis and M. bovis BCG. Microbiology 147:1017–1024

Guo J, Zheng X, Xu L, Liu Z, Xu K et al (2010) Characterization of a novel esterase Rv0045c from M. tuberculosis. PLoS One 5(10):e13143

Srinivas M et al (2008) Functional characterization of the phospholipase C activity of Rv3487c and its localization on the cell wall of M. tuberculosis. J Biosci 33:221–230

Cotes K, Dhouib R, Douchet I, Chahinian H, de Caro A et al (2007) Characterization of an exported monoglyceride lipase from M. tuberculosis possibly involved in the metabolism of host cell membrane lipids. Biochem J 408:417–427

Lack NA, Kawamura A, Fullam E, Laurieri N, Beard S et al (2009) Temperature stability of proteins essential for the intracellular survival of M. tuberculosis. Biochem J 418:369–378

Sharma PK et al (2012) Engineering of a metagenome derived lipase toward thermal tolerance: effect of asparagine to lysine mutation on the protein surface. Gene 491(2):264–271. doi: 10.1016/j.gene.2011.09.028

Yu P, Kai Y, Ngai LH et al (2010) Activity-based proteome profiling of potential cellular targets of Orlistat—an FDA-approved drug with anti-tumor activities. J Am Chem Soc 132(2):656

Parker SK, Barkley RM, Rino JG, Vasil ML (2009) M. tuberculosis Rv3802c encodes a phospholipase/thioesterase and is inhibited by the antimycobacterial agent tetrahydrolipstatin. PLoS One 4(1):e4281

Sutherland CA, Amin D (1982) Relative activities of rat and dog platelet phospholipase A2 and diglyceride lipase. Selective inhibition of diglyceride lipase by RHC 80267. J Biol Chem 257(23):14006–14010