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Literature DB >> 25205019

Construction of a chimeric biosynthetic pathway for the de novo biosynthesis of rosmarinic acid in Escherichia coli.

Sarah E Bloch¹, Claudia Schmidt-Dannert.

Abstract

Hydroxycinnamic acid esters (HCEs) are widely-distributed phenylpropanoid-derived plant natural products. Rosmarinic acid (RA), the most well-known HCE, shows promise as a treatment for cancer and neurological disorders. In contrast to extraction from plant material or plant cell culture, microbial production of HCEs could be a sustainable, controlled means of production. Through the overexpression of a six-enzyme chimeric bacterial and plant pathway, we show the de novo biosynthesis of RA, and the related HCE isorinic acid (IA), in Escherichia coli. Probing the pathway through precursor supplementation showed several potential pathway bottlenecks. We demonstrated HCE biosynthesis using three plant rosmarinic acid synthase (RAS) orthologues, which exhibited different levels of HCE biosynthesis but produced the same ratio of IA to RA. This work serves as a proof-of-concept for a microbial production platform for HCEs by using a modular biosynthetic approach to access diverse natural and non-natural HCEs.

Entities: CellLine Chemical Disease Gene Species

Keywords: biosynthesis; hydroxycinnamic acid esters; metabolic engineering; natural products; rosmarinic acid

Mesh：

Substances：

Year: 2014 PMID： 25205019 PMCID： PMC4264569 DOI： 10.1002/cbic.201402275

Source DB: PubMed Journal: Chembiochem ISSN： 1439-4227 Impact factor: 3.164

58 in total

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9. Biosynthesis of caffeic acid in Escherichia coli using its endogenous hydroxylase complex.

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Journal: Microb Cell Fact Date: 2012-04-04 Impact factor: 5.328

10. Artificial biosynthesis of phenylpropanoic acids in a tyrosine overproducing Escherichia coli strain.

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3. Global Identification of the Full-Length Transcripts and Alternative Splicing Related to Phenolic Acid Biosynthetic Genes in Salvia miltiorrhiza.

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4. Exploiting members of the BAHD acyltransferase family to synthesize multiple hydroxycinnamate and benzoate conjugates in yeast.

Authors: Aymerick Eudes; Maxence Mouille; David S Robinson; Veronica T Benites; George Wang; Lucien Roux; Yi-Lin Tsai; Edward E K Baidoo; Tsan-Yu Chiu; Joshua L Heazlewood; Henrik V Scheller; Aindrila Mukhopadhyay; Jay D Keasling; Samuel Deutsch; Dominique Loqué
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