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Publications

Found 162 results
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2015
Schnappinger D, O'Brien KM, Ehrt S.  2015.  Construction of conditional knockdown mutants in mycobacteria.. Methods Mol Biol. 1285:151-75.
Goodsmith N, Guo XV, Vandal OH, Vaubourgeix J, Wang R, Botella H, Song S, Bhatt K, Liba A, Salgame P et al..  2015.  Disruption of an M. tuberculosis membrane protein causes a magnesium-dependent cell division defect and failure to persist in mice.. PLoS Pathog. 11(2):e1004645.
Zhao N, Sun M, Burns-Huang K, Jiang X, Ling Y, Darby C, Ehrt S, Liu G, Nathan C.  2015.  Identification of Rv3852 as an Agrimophol-Binding Protein in Mycobacterium tuberculosis.. PLoS One. 10(5):e0126211.
Ehrt S, Rhee K, Schnappinger D.  2015.  Mycobacterial genes essential for the pathogen's survival in the host.. Immunol Rev. 264(1):319-26.
Zhao N, Darby CM, Small J, Bachovchin DA, Jiang X, Burns-Huang KE, Botella H, Ehrt S, Boger DL, Anderson ED et al..  2015.  Target-based screen against a periplasmic serine protease that regulates intrabacterial pH homeostasis in Mycobacterium tuberculosis.. ACS Chem Biol. 10(2):364-71.
Zhao N, Darby CM, Small J, Bachovchin DA, Jiang X, Burns-Huang KE, Botella H, Ehrt S, Boger DL, Anderson ED et al..  2015.  Target-based screen against a periplasmic serine protease that regulates intrabacterial pH homeostasis in Mycobacterium tuberculosis.. ACS Chem Biol. 10(2):364-71.
Ganapathy U, Marrero J, Calhoun S, Eoh H, de Carvalho LPedro Sori, Rhee K, Ehrt S.  2015.  Two enzymes with redundant fructose bisphosphatase activity sustain gluconeogenesis and virulence in Mycobacterium tuberculosis.. Nat Commun. 6:7912.
Ganapathy U, Marrero J, Calhoun S, Eoh H, de Carvalho LPedro Sori, Rhee K, Ehrt S.  2015.  Two enzymes with redundant fructose bisphosphatase activity sustain gluconeogenesis and virulence in Mycobacterium tuberculosis.. Nat Commun. 6:7912.
2014
Puckett S, Trujillo C, Eoh H, Marrero J, Spencer J, Jackson M, Schnappinger D, Rhee K, Ehrt S.  2014.  Inactivation of fructose-1,6-bisphosphate aldolase prevents optimal co-catabolism of glycolytic and gluconeogenic carbon substrates in Mycobacterium tuberculosis.. PLoS Pathog. 10(5):e1004144.
Puckett S, Trujillo C, Eoh H, Marrero J, Spencer J, Jackson M, Schnappinger D, Rhee K, Ehrt S.  2014.  Inactivation of fructose-1,6-bisphosphate aldolase prevents optimal co-catabolism of glycolytic and gluconeogenic carbon substrates in Mycobacterium tuberculosis.. PLoS Pathog. 10(5):e1004144.
Gaur RL, Ren K, Blumenthal A, Bhamidi S, González-Nilo FD, Gibbs S, Jackson M, Zare RN, Ehrt S, Ernst JD et al..  2014.  LprG-mediated surface expression of lipoarabinomannan is essential for virulence of Mycobacterium tuberculosis.. PLoS Pathog. 10(9):e1004376.
Gaur RL, Ren K, Blumenthal A, Bhamidi S, González-Nilo FD, Gibbs S, Jackson M, Zare RN, Ehrt S, Ernst JD et al..  2014.  LprG-mediated surface expression of lipoarabinomannan is essential for virulence of Mycobacterium tuberculosis.. PLoS Pathog. 10(9):e1004376.
Danilchanka O, Sun J, Pavlenok M, Maueröder C, Speer A, Siroy A, Marrero J, Trujillo C, Mayhew DL, Doornbos KS et al..  2014.  An outer membrane channel protein of Mycobacterium tuberculosis with exotoxin activity.. Proc Natl Acad Sci U S A. 111(18):6750-5.
Schnappinger D, Ehrt S.  2014.  Regulated Expression Systems for Mycobacteria and Their Applications.. Microbiol Spectr. 2(1):MGM2-0018-2013.
Schnappinger D, Ehrt S.  2014.  Regulated Expression Systems for Mycobacteria and Their Applications.. Microbiol Spectr. 2(1)