Omita A. Trivedi scite author profile

The metabolic repertoire in nature is augmented by generating hybrid metabolites from a limited set of gene products. In mycobacteria, several unique complex lipids are produced by the combined action of fatty acid synthases and polyketide synthases (PKSs), although it is not clear how the covalently sequestered biosynthetic intermediates are transferred from one enzymatic complex to another. Here we show that some of the 36 annotated fadD genes, located adjacent to the PKS genes in the Mycobacterium tuberculosis genome, constitute a new class of long-chain fatty acyl-AMP ligases (FAALs). These proteins activate long-chain fatty acids as acyl-adenylates, which are then transferred to the multifunctional PKSs for further chain extension. This mode of activation and transfer of fatty acids is contrary to the previously described universal mechanism involving the formation of acyl-coenzyme A thioesters. Similar mechanisms may operate in the biosynthesis of other lipid-containing metabolites and could have implications in engineering novel hybrid products.

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Dissecting the Mechanism and Assembly of a Complex Virulence Mycobacterial Lipid

Trivedi

et al. 2005

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Mycobacterium tuberculosis cell envelope is a treasure house of biologically active lipids of fascinating molecular architecture. Although genetic studies have alluded to an array of genes in biosynthesis of complex lipids, their mechanistic, structural, and biochemical principles have not been investigated. Here, we have dissected the molecular logic underlying the biosynthesis of a virulence lipid phthiocerol dimycocerosate (PDIM). Cell-free reconstitution studies demonstrate that polyketide synthases, which are usually involved in the biosynthesis of secondary metabolites, are responsible for generating complex lipids in mycobacteria. We show that PapA5 protein directly transfers the protein bound mycocerosic acid analogs on phthiocerol to catalyze the final esterification step. Based on precise identification of biological functions of proteins from Pps cluster, we have rationally produced a nonmethylated variant of mycocerosate esters. Apart from elucidating mechanisms that generate chemical heterogeneity with PDIMs, this study also presents an attractive approach to explore host-pathogen interactions by altering mycobacterial surface coat.

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Mechanistic and functional insights into fatty acid activation in Mycobacterium tuberculosis

Arora¹,

Goyal²,

Natarajan³

et al. 2009

Nat Chem Biol

126

146

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The recent discovery of fatty acyl-AMP ligases (FAALs) in Mycobacterium tuberculosis (Mtb) provided a new perspective to fatty acid activation dogma. These proteins convert fatty acids to corresponding adenylates, which is an intermediate of acyl-CoA-synthesizing fatty acyl-CoA ligases (FACLs). Presently, it is not evident how obligate pathogens like Mtb have evolved such new themes of functional versatility and whether the activation of fatty acids to acyl-adenylates could indeed be a general mechanism. Here, based on elucidation of the first structure of a FAAL protein and by generating loss- as well as gain-of-function mutants that interconvert FAAL and FACL activities, we demonstrate that an insertion motif dictates formation of acyl-adenylate. Since FAALs in Mtb are crucial nodes in biosynthetic network of virulent lipids, inhibitors directed against these proteins provide a unique multi-pronged approach of simultaneously disrupting several pathways.

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Erratum: Enzymic activation and transfer of fatty acids as acyl-adenylates in mycobacteria

Trivedi¹,

Arora²,

Sridharan³

et al. 2004

Nature

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Erratum: Corrigendum: Enzymic activation and transfer of fatty acids and acyl-adenylates in mycobacteria

Trivedi¹,

Arora²,

Sridharan³

et al. 2004

Nature

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Omita A. Trivedi

Enzymic activation and transfer of fatty acids as acyl-adenylates in mycobacteria

Dissecting the Mechanism and Assembly of a Complex Virulence Mycobacterial Lipid

Mechanistic and functional insights into fatty acid activation in Mycobacterium tuberculosis

Erratum: Enzymic activation and transfer of fatty acids as acyl-adenylates in mycobacteria

Erratum: Corrigendum: Enzymic activation and transfer of fatty acids and acyl-adenylates in mycobacteria

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