Cholesterol metabolism in Mycobacterium smegmatis

Cholesterol Degradation by Gordonia cholesterolivorans

(2011) O. Drzyzga et al.   APPLIED AND ENVIRONMENTAL MICROBIOLOGY

Initial step in the catabolism of cholesterol by Mycobacterium smegmatis mc2155

(2011) I. Uhía et al.   ENVIRONMENTAL MICROBIOLOGY

High-Resolution Phenotypic Profiling Defines Genes Essential for Mycobacterial Growth and Cholesterol Catabolism

(2011) Jennifer E. Griffin et al.   PLoS Pathogens

Functional Redundancy of Steroid C26-monooxygenase Activity inMycobacterium tuberculosisRevealed by Biochemical and Genetic Analyses

(2010) Jonathan B. Johnston et al.   JOURNAL OF BIOLOGICAL CHEMISTRY

Structural and Biochemical Characterization ofMycobacterium tuberculosisCYP142

(2010) Max D. Driscoll et al.   JOURNAL OF BIOLOGICAL CHEMISTRY

Steroid degradation genes in Comamonas testosteroni TA441: Isolation of genes encoding a Δ4(5)-isomerase and 3α- and 3β-dehydrogenases and evidence for a 100kb steroid degradation gene hot spot

(2010) Masae Horinouchi et al.   JOURNAL OF STEROID BIOCHEMISTRY AND MOLECULAR BIOLOGY

ChoG is the main inducible extracellular cholesterol oxidase of Rhodococcus sp. strain CECT3014

(2010) Laura Fernández de las Heras et al.   MICROBIOLOGICAL RESEARCH

Cholesterol utilization in mycobacteria is controlled by two TetR-type transcriptional regulators: kstR and kstR2

(2010) S. L. Kendall et al.   MICROBIOLOGY-SGM

Mycobacterium tuberculosis CYP125A1, a steroid C27 monooxygenase that detoxifies intracellularly generated cholest-4-en-3-one

(2010) Hugues Ouellet et al.   MOLECULAR MICROBIOLOGY

Non-vesicular lipid transport by lipid-transfer proteins and beyond

(2010) Sima Lev   NATURE REVIEWS MOLECULAR CELL BIOLOGY

A Thiolase of Mycobacterium tuberculosis Is Required for Virulence and Production of Androstenedione and Androstadienedione from Cholesterol

(2009) N. M. Nesbitt et al.   INFECTION AND IMMUNITY

igr Genes and Mycobacterium tuberculosis Cholesterol Metabolism

(2009) J. C. Chang et al.   JOURNAL OF BACTERIOLOGY

Mycobacterial Cytochrome P450 125 (Cyp125) Catalyzes the Terminal Hydroxylation of C27 Steroids

(2009) Jenna K. Capyk et al.   JOURNAL OF BIOLOGICAL CHEMISTRY

Characterization of 3-Ketosteroid 9α-Hydroxylase, a Rieske Oxygenase in the Cholesterol Degradation Pathway ofMycobacterium tuberculosis

(2009) Jenna K. Capyk et al.   JOURNAL OF BIOLOGICAL CHEMISTRY

Cytochrome P450 125 (CYP125) catalyses C26-hydroxylation to initiate sterol side-chain degradation inRhodococcus jostiiRHA1

(2009) Kamila Z. Rosłoniec et al.   MOLECULAR MICROBIOLOGY

Studies of a Ring-Cleaving Dioxygenase Illuminate the Role of Cholesterol Metabolism in the Pathogenesis of Mycobacterium tuberculosis

(2009) Katherine C. Yam et al.   PLoS Pathogens

Characterization of a Second Rhodococcus erythropolis SQ1 3-Ketosteroid 9 -Hydroxylase Activity Comprising a Terminal Oxygenase Homologue, KshA2, Active with Oxygenase-Reductase Component KshB

(2008) R. van der Geize et al.   APPLIED AND ENVIRONMENTAL MICROBIOLOGY

The Actinobacterialmce4Locus Encodes a Steroid Transporter

(2008) William W. Mohn et al.   JOURNAL OF BIOLOGICAL CHEMISTRY

Differential fadE28 expression associated with phenotypic virulence of Mycobacterium tuberculosis

(2008) T.H.J. Lam et al.   MICROBIAL PATHOGENESIS

Mycobacterial persistence requires the utilization of host cholesterol

(2008) A. K. Pandey et al.   PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA