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Schnappinger D, Ehrt S.  2006.  Introduction: genomic approaches in infectious diseases.. Microbes Infect. 8(6):1611-2.
Ding A, Yu H, Yang J, Shi S, Ehrt S.  2005.  Induction of macrophage-derived SLPI by Mycobacterium tuberculosis depends on TLR2 but not MyD88.. Immunology. 116(3):381-9.
Seimon TA, Kim M-J, Blumenthal A, Koo J, Ehrt S, Wainwright H, Bekker L-G, Kaplan G, Nathan C, Tabas I et al..  2010.  Induction of ER stress in macrophages of tuberculosis granulomas.. PLoS One. 5(9):e12772.
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.
Gandotra S, Schnappinger D, Monteleone M, Hillen W, Ehrt S.  2007.  In vivo gene silencing identifies the Mycobacterium tuberculosis proteasome as essential for the bacteria to persist in mice.. Nat Med. 13(12):1515-20.
Klotzsche M, Ehrt S, Schnappinger D.  2009.  Improved tetracycline repressors for gene silencing in mycobacteria.. Nucleic Acids Res. 37(6):1778-88.
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.
Wescott HH, Zuniga ES, Bajpai A, Trujillo C, Ehrt S, Schnappinger D, Roberts DM, Parish T.  2018.  Identification of Enolase as the Target of 2-Aminothiazoles in .. Front Microbiol. 9:2542.
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Shimono N, Morici L, Casali N, Cantrell S, Sidders B, Ehrt S, Riley LW.  2003.  Hypervirulent mutant of Mycobacterium tuberculosis resulting from disruption of the mce1 operon.. Proc Natl Acad Sci U S A. 100(26):15918-23.
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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.
Santangelo Mde la Paz, Gest PM, Guerin ME, Coinçon M, Pham H, Ryan G, Puckett SE, Spencer JS, Gonzalez-Juarrero M, Daher R et al..  2011.  Glycolytic and non-glycolytic functions of Mycobacterium tuberculosis fructose-1,6-bisphosphate aldolase, an essential enzyme produced by replicating and non-replicating bacilli.. J Biol Chem. 286(46):40219-31.
Hisert KB, MacCoss M, Shiloh MU, K Darwin H, Singh S, Jones RA, Ehrt S, Zhang Z, Gaffney BL, Gandotra S et al..  2005.  A glutamate-alanine-leucine (EAL) domain protein of Salmonella controls bacterial survival in mice, antioxidant defence and killing of macrophages: role of cyclic diGMP.. Mol Microbiol. 56(5):1234-45.
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.
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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.
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Schnappinger D, Schoolnik GK, Ehrt S.  2006.  Expression profiling of host pathogen interactions: how Mycobacterium tuberculosis and the macrophage adapt to one another.. Microbes Infect. 8(4):1132-40.
Shi S, Blumenthal A, Hickey CM, Gandotra S, Levy D, Ehrt S.  2005.  Expression of many immunologically important genes in Mycobacterium tuberculosis-infected macrophages is independent of both TLR2 and TLR4 but dependent on IFN-alphabeta receptor and STAT1.. J Immunol. 175(5):3318-28.
Park SWoong, Klotzsche M, Wilson DJ, Boshoff HI, Eoh H, Manjunatha U, Blumenthal A, Rhee K, Barry CE, Aldrich CC et al..  2011.  Evaluating the sensitivity of Mycobacterium tuberculosis to biotin deprivation using regulated gene expression.. PLoS Pathog. 7(9):e1002264.
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Botella H, Yang G, Ouerfelli O, Ehrt S, Nathan CF, Vaubourgeix J.  2017.  Distinct Spatiotemporal Dynamics of Peptidoglycan Synthesis between Mycobacterium smegmatis and Mycobacterium tuberculosis.. mBio. 8(5)
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.
Shi S, Ehrt S.  2006.  Dihydrolipoamide acyltransferase is critical for Mycobacterium tuberculosis pathogenesis.. Infect Immun. 74(1):56-63.
Robertson BD, Altmann D, Barry C, Bishai B, Cole S, Dick T, Duncan K, Dye C, Ehrt S, Esmail H et al..  2012.  Detection and treatment of subclinical tuberculosis.. Tuberculosis (Edinb). 92(6):447-52.
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.
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Vandal OH, Gelb MH, Ehrt S, Nathan CF.  2006.  Cytosolic phospholipase A2 enzymes are not required by mouse bone marrow-derived macrophages for the control of Mycobacterium tuberculosis in vitro.. Infect Immun. 74(3):1751-6.