Literature DB >> 18643899

Metabolic engineering of hydroxy fatty acid production in plants: RcDGAT2 drives dramatic increases in ricinoleate levels in seed oil.

Julie Burgal1, Jay Shockey, Chaofu Lu, John Dyer, Tony Larson, Ian Graham, John Browse.   

Abstract

SUMMARY: A central goal of green chemistry is to produce industrially useful fatty acids in oilseed crops. Although genes encoding suitable fatty acid-modifying enzymes are available from many wild species, progress has been limited because the expression of these genes in transgenic plants produces low yields of the desired products. For example, Ricinus communis fatty acid hydroxylase 12 (FAH12) produces a maximum of only 17% hydroxy fatty acids (HFAs) when expressed in Arabidopsis. cDNA clones encoding R. communis enzymes for additional steps in the seed oil biosynthetic pathway were identified. Expression of these cDNAs in FAH12 transgenic plants revealed that the R. communis type-2 acyl-coenzyme A:diacylglycerol acyltransferase (RcDGAT2) could increase HFAs from 17% to nearly 30%. Detailed comparisons of seed neutral lipids from the single- and double-transgenic lines indicated that RcDGAT2 substantially modified the triacylglycerol (TAG) pool, with significant increases in most of the major TAG species observed in native castor bean oil. These data suggest that RcDGAT2 prefers acyl-coenzyme A and diacylglycerol substrates containing HFAs, and biochemical analyses of RcDGAT2 expressed in yeast cells confirmed a strong preference for HFA-containing diacylglycerol substrates. Our results demonstrate that pathway engineering approaches can be used successfully to increase the yields of industrial feedstocks in plants, and that members of the DGAT2 gene family probably play a key role in this process.

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Year:  2008        PMID: 18643899      PMCID: PMC2908398          DOI: 10.1111/j.1467-7652.2008.00361.x

Source DB:  PubMed          Journal:  Plant Biotechnol J        ISSN: 1467-7644            Impact factor:   9.803


  46 in total

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Journal:  Fed Proc       Date:  1961-12

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4.  A mutation in Arabidopsis cytochrome b5 reductase identified by high-throughput screening differentially affects hydroxylation and desaturation.

Authors:  Rajesh Kumar; James G Wallis; Chris Skidmore; John Browse
Journal:  Plant J       Date:  2006-12       Impact factor: 6.417

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Journal:  Proc Natl Acad Sci U S A       Date:  1999-10-26       Impact factor: 11.205

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7.  Floral dip: a simplified method for Agrobacterium-mediated transformation of Arabidopsis thaliana.

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8.  Cholinephosphotransferase and Diacylglycerol Acyltransferase (Substrate Specificities at a Key Branch Point in Seed Lipid Metabolism).

Authors:  G. Vogel; J. Browse
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9.  A high-throughput screen for genes from castor that boost hydroxy fatty acid accumulation in seed oils of transgenic Arabidopsis.

Authors:  Chaofu Lu; Martin Fulda; James G Wallis; John Browse
Journal:  Plant J       Date:  2006-03       Impact factor: 6.417

10.  Ricinoleic acid biosynthesis and triacylglycerol assembly in microsomal preparations from developing castor-bean (Ricinus communis) endosperm.

Authors:  M Bafor; M A Smith; L Jonsson; K Stobart; S Stymne
Journal:  Biochem J       Date:  1991-12-01       Impact factor: 3.857
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5.  A fatty acid condensing enzyme from Physaria fendleri increases hydroxy fatty acid accumulation in transgenic oilseeds of Camelina sativa.

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6.  The evolutionary conserved oil body associated protein OBAP1 participates in the regulation of oil body size.

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Journal:  Plant Physiol       Date:  2014-01-09       Impact factor: 8.340

7.  Castor LPCAT and PDAT1A Act in Concert to Promote Transacylation of Hydroxy-Fatty Acid onto Triacylglycerol.

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8.  Oil-Producing Metabolons Containing DGAT1 Use Separate Substrate Pools from those Containing DGAT2 or PDAT.

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Journal:  Funct Integr Genomics       Date:  2013-01-16       Impact factor: 3.410
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