Literature DB >> 25578268

The application of synthetic biology to elucidation of plant mono-, sesqui-, and diterpenoid metabolism.

Naoki Kitaoka1, Xuan Lu1, Bing Yang2, Reuben J Peters3.   

Abstract

Plants synthesize a huge variety of terpenoid natural products, including photosynthetic pigments, signaling molecules, and defensive substances. These are often produced as complex mixtures, presumably shaped by selective pressure over evolutionary timescales, some of which have been found to have pharmaceutical and other industrial uses. Elucidation of the relevant biosynthetic pathways can provide increased access (e.g., via molecular breeding or metabolic engineering) and enable reverse genetic approaches toward understanding the physiological role of these natural products in plants as well. While such information can be obtained via a variety of approaches, this review describes the emerging use of synthetic biology to recombinantly reconstitute plant terpenoid biosynthetic pathways in heterologous host organisms as a functional discovery tool, with a particular focus on incorporation of the historically problematic cytochrome P450 mono-oxygenases. Also falling under the synthetic biology rubric and discussed here is the nascent application of genome-editing tools to probe physiological function.
Copyright © 2015 The Author. Published by Elsevier Inc. All rights reserved.

Entities:  

Keywords:  cytochromes P450; metabolic engineering; reverse genetics; terpene synthase

Mesh:

Substances:

Year:  2014        PMID: 25578268      PMCID: PMC5120878          DOI: 10.1016/j.molp.2014.12.002

Source DB:  PubMed          Journal:  Mol Plant        ISSN: 1674-2052            Impact factor:   13.164


  90 in total

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  28 in total

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2.  Optimization of recombinant expression enables discovery of novel cytochrome P450 activity in rice diterpenoid biosynthesis.

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5.  Investigation of terpene diversification across multiple sequenced plant genomes.

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8.  Probing the promiscuity of ent-kaurene oxidases via combinatorial biosynthesis.

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9.  Functional Diversity of Diterpene Synthases in the Biofuel Crop Switchgrass.

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10.  Antimicrobial and antibiofilm effects of abietic acid on cariogenic Streptococcus mutans.

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