Jessica C. Seeliger scite author profile

Mycobacterium tuberculosis (Mtb) mutants lacking rv1411c, which encodes the lipoprotein LprG, and rv1410c, which encodes a putative efflux pump, are dramatically attenuated for growth in mice. Here we show that loss of LprG-Rv1410 in Mtb leads to intracellular triacylglyceride (TAG) accumulation, and overexpression of the locus increases the levels of TAG in the culture medium, demonstrating a role of this locus in TAG transport. LprG binds TAG within a large hydrophobic cleft and is sufficient to transfer TAG from donor to acceptor membranes. Further, LprG-Rv1410 is critical for broadly regulating bacterial growth and metabolism in vitro during carbon restriction and in vivo during infection of mice. The growth defect in mice is due to disrupted bacterial metabolism and occurs independently of key immune regulators. The in vivo essentiality of this locus suggests that this export system and other regulators of metabolism should be considered as targets for novel therapeutics.

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Elucidation and Chemical Modulation of Sulfolipid-1 Biosynthesis in Mycobacterium tuberculosis

Seeliger

Holsclaw

Schelle

et al. 2012

Journal of Biological Chemistry

103

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Background: Sulfolipid-1 (SL-1) is a Mycobacterium tuberculosis outer membrane lipid whose biosynthesis is not fully understood.Results: Chp1 catalyzes two acyl transfer reactions to form SL-1. Sap modulates SL-1 levels and transmembrane transport.Conclusion: The activities of Chp1 and Sap complete the SL-1 pathway.Significance: Lipid biosynthesis and transport are coupled at the membrane interface by multiple proteins that may regulate substrate specificity and flux.

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A Riboswitch-Based Inducible Gene Expression System for Mycobacteria

et al. 2012

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Research on the human pathogen Mycobacterium tuberculosis (Mtb) would benefit from novel tools for regulated gene expression. Here we describe the characterization and application of a synthetic riboswitch-based system, which comprises a mycobacterial promoter for transcriptional control and a riboswitch for translational control. The system was used to induce and repress heterologous protein overexpression reversibly, to create a conditional gene knockdown, and to control gene expression in a macrophage infection model. Unlike existing systems for controlling gene expression in Mtb, the riboswitch does not require the co-expression of any accessory proteins: all of the regulatory machinery is encoded by a short DNA segment directly upstream of the target gene. The inducible riboswitch platform has the potential to be a powerful general strategy for creating customized gene regulation systems in Mtb.

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Synthetic Riboswitches That Induce Gene Expression in Diverse Bacterial Species

Topp

Reynoso

Seeliger

et al. 2011

Appl Environ Microbiol

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