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Literature DB >> 26831074

Metabolic model for diversity-generating biosynthesis.

Ma Diarey Tianero¹, Elizabeth Pierce¹, Shrinivasan Raghuraman², Debosmita Sardar¹, John A McIntosh¹, John R Heemstra³, Zachary Schonrock¹, Brett C Covington⁴, J Alan Maschek⁵, James E Cox⁵, Brian O Bachmann⁴, Baldomero M Olivera⁶, Duane E Ruffner³, Eric W Schmidt⁷.

Abstract

A conventional metabolic pathway leads to a specific product. In stark contrast, there are diversity-generating metabolic pathways that naturally produce different chemicals, sometimes of great diversity. We demonstrate that for one such pathway, tru, each ensuing metabolic step is slower, in parallel with the increasing potential chemical divergence generated as the pathway proceeds. Intermediates are long lived and accumulate progressively, in contrast with conventional metabolic pathways, in which the first step is rate-limiting and metabolic intermediates are short-lived. Understanding these fundamental differences enables several different practical applications, such as combinatorial biosynthesis, some of which we demonstrate here. We propose that these principles may provide a unifying framework underlying diversity-generating metabolism in many different biosynthetic pathways.

Entities: Chemical

Keywords: RiPP; biosynthesis; cyanobactin; natural products; secondary metabolism

Mesh：

Substances：
Mevalonic Acid

Year: 2016 PMID： 26831074 PMCID： PMC4763782 DOI： 10.1073/pnas.1525438113

Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN： 0027-8424 Impact factor: 11.205

37 in total

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7. Assessing the combinatorial potential of the RiPP cyanobactin tru pathway.

Authors: Duane E Ruffner; Eric W Schmidt; John R Heemstra
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