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Found 8 results
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Marrero, Joeli
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2015
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.
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.
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.
2013
Marrero J
,
Trujillo C
,
Rhee KY
,
Ehrt S
. 2013.
Glucose phosphorylation is required for Mycobacterium tuberculosis persistence in mice.
.
PLoS Pathog. 9(1):e1003116.
2011
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.
2010
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.
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.