Title of article
Enhancing the Atom Economy of Polyketide Biosynthetic Processes through Metabolic Engineering
Author/Authors
Leaf، Timothy نويسنده , , Licari، Peter نويسنده , , Lombo، Felipe نويسنده , , Pfeifer، Blaine نويسنده , , Ou، Sally نويسنده , , Kim، Y. S. نويسنده , , Cane، David E. نويسنده , , Khosia، Chaitan نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2001
Pages
-611
From page
612
To page
0
Abstract
Polyketides, a large family of bioactive natural products, are synthesized from building blocks derived from alpha-carboxylated Coenzyme A thioesters such as malonyl-CoA and (2S)-methylmalonyl-CoA. The productivity of polyketide fermentation processes in natural and heterologous hosts is frequently limited by the availability of these precursors in vivo. We describe a metabolic engineering strategy to enhance both the yield and volumetric productivity of polyketide biosynthesis. The genes matB and matC from Rhizobium trifolii encode a malonyl-CoA synthetase and a putative dicarboxylate transport protein, respectively. These proteins can directly convert exogenous malonate and methylmalonate into their corresponding CoA thioesters with an ATP requirement of 2 mol per mol of acyl-CoA produced. Heterologous expression of matBC in a recombinant strain of Streptomyces coelicolor that produces the macrolactone 6-deoxyerythronolide B results in a 300% enhancement of macrolactone tilers. The unusual efficiency of the bioconversion is illustrated by the fact that approximately one-third of the methylmalonate units added to the fermentation medium are converted into macrolactones. The direct conversion of inexpensive feedstocks such as malonate and methylmalonate into polyketides represents the most carbon- and energy-efficient route to these high value natural products and has implications for cost-effective fermentation of numerous commercial and development-stage small molecules.
Keywords
cassava blight , bacteriosis , phytophatogenic xanthomonads , esterase
Journal title
BIOTECHNOLOGY PROGRESS
Serial Year
2001
Journal title
BIOTECHNOLOGY PROGRESS
Record number
4930
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