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Publications

Found 16 results
Author Title [ Type(Asc)] Year
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Journal Article
Trujillo C, Blumenthal A, Marrero J, Rhee KY, Schnappinger D, Ehrt S.  2014.  Triosephosphate isomerase is dispensable in vitro yet essential for Mycobacterium tuberculosis to establish infection.. mBio. 5(2):e00085.
Bockman MR, Kalinda AS, Petrelli R, De la Mora-Rey T, Tiwari D, Liu F, Dawadi S, Nandakumar M, Rhee KY, Schnappinger D et al..  2015.  Targeting Mycobacterium tuberculosis Biotin Protein Ligase (MtBPL) with Nucleoside-Based Bisubstrate Adenylation Inhibitors.. J Med Chem. 58(18):7349-7369.
Warrier T, Kapilashrami K, Argyrou A, Ioerger TR, Little D, Murphy KC, Nandakumar M, Park S, Gold B, Mi J et al..  2016.  N-methylation of a bactericidal compound as a resistance mechanism in Mycobacterium tuberculosis.. Proc Natl Acad Sci U S A. 113(31):E4523-30.
de Carvalho LPedro S, Darby CM, Rhee KY, Nathan C.  2011.  Nitazoxanide Disrupts Membrane Potential and Intrabacterial pH Homeostasis of Mycobacterium tuberculosis.. ACS Med Chem Lett. 2(11):849-854.
de Carvalho LPedro S, Fischer SM, Marrero J, Nathan C, Ehrt S, Rhee KY.  2010.  Metabolomics of Mycobacterium tuberculosis reveals compartmentalized co-catabolism of carbon substrates.. Chem Biol. 17(10):1122-31.
Ehrt S, Schnappinger D, Rhee KY.  2018.  Metabolic principles of persistence and pathogenicity in Mycobacterium tuberculosis.. Nat Rev Microbiol. 16(8):496-507.
Negri A, Javidnia P, Mu R, Zhang X, Vendome J, Gold B, Roberts J, Barman D, Ioerger T, Sacchettini JC et al..  2018.  Identification of a Mycothiol-Dependent Nitroreductase from Mycobacterium tuberculosis.. ACS Infect Dis. 4(5):771-787.
Puckett S, Trujillo C, Wang Z, Eoh H, Ioerger TR, Krieger I, Sacchettini J, Schnappinger D, Rhee KY, Ehrt S.  2017.  Glyoxylate detoxification is an essential function of malate synthase required for carbon assimilation in Mycobacterium tuberculosis.. Proc Natl Acad Sci U S A. 114(11):E2225-E2232.
Marrero J, Trujillo C, Rhee KY, Ehrt S.  2013.  Glucose phosphorylation is required for Mycobacterium tuberculosis persistence in mice.. PLoS Pathog. 9(1):e1003116.
Marrero J, Rhee KY, Schnappinger D, Pethe K, Ehrt S.  2010.  Gluconeogenic carbon flow of tricarboxylic acid cycle intermediates is critical for Mycobacterium tuberculosis to establish and maintain infection.. Proc Natl Acad Sci U S A. 107(21):9819-24.
Kim J-H, O'Brien KM, Sharma R, Boshoff HIM, Rehren G, Chakraborty S, Wallach JB, Monteleone M, Wilson DJ, Aldrich CC et al..  2013.  A genetic strategy to identify targets for the development of drugs that prevent bacterial persistence.. Proc Natl Acad Sci U S A. 110(47):19095-100.
Ruecker N, Jansen R, Trujillo C, Puckett S, Jayachandran P, Piroli GG, Frizzell N, Molina H, Rhee KY, Ehrt S.  2017.  Fumarase Deficiency Causes Protein and Metabolite Succination and Intoxicates Mycobacterium tuberculosis.. Cell Chem Biol. 24(3):306-315.
Maksymiuk C, Balakrishnan A, Bryk R, Rhee KY, Nathan C.  2015.  E1 of α-ketoglutarate dehydrogenase defends Mycobacterium tuberculosis against glutamate anaplerosis and nitroxidative stress.. Proc Natl Acad Sci U S A. 112(43):E5834-43.
Zaveri A, Wang R, Botella L, Sharma R, Zhu L, Wallach JB, Song N, Jansen RS, Rhee KY, Ehrt S et al..  2020.  Depletion of the DarG antitoxin in Mycobacterium tuberculosis triggers the DNA-damage response and leads to cell death.. Mol Microbiol.
Wei J-R, Krishnamoorthy V, Murphy K, Kim J-H, Schnappinger D, Alber T, Sassetti CM, Rhee KY, Rubin EJ.  2011.  Depletion of antibiotic targets has widely varying effects on growth.. Proc Natl Acad Sci U S A. 108(10):4176-81.
Rhee KY, de Carvalho LPedro Sori, Bryk R, Ehrt S, Marrero J, Park SWoong, Schnappinger D, Venugopal A, Nathan C.  2011.  Central carbon metabolism in Mycobacterium tuberculosis: an unexpected frontier.. Trends Microbiol. 19(7):307-14.