Increased DHA Production in Seed Oil Using a Selective Lysophosphatidic Acid Acyltransferase

Shrestha, Pushkar; Hussain, Dawar; Mulder, Roger J.; Taylor, Matthew C.; Sp, Singh; Petrie,; Zhou, Xue-Rong

doi:10.3389/fpls.2018.01234

Cited by 10 publications

(24 citation statements)

References 34 publications

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“…These fatty acids are intermediates in the metabolic pathway we have used to produce DHA in this study. For example, the use of different versions of the GA7 construct may yield fish oil-like levels of EPA and even higher levels of the relatively rare fatty acid DPA, or possibly further increase the amount of DHA that can be produced in canola seed (Shrestha et al, 2018).…”

Section: Discussionmentioning

confidence: 99%

Development of a Brassica napus (Canola) Crop Containing Fish Oil-Like Levels of DHA in the Seed Oil

Petrie

Zhou

Leonforte³

et al. 2020

Front. Plant Sci.

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Plant seeds have long been promoted as a production platform for novel fatty acids such as the ω3 long-chain (≥ C 20) polyunsaturated fatty acids eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA) commonly found in fish oil. In this article we describe the creation of a canola (Brassica napus) variety producing fish oil-like levels of DHA in the seed. This was achieved by the introduction of a microalgal/yeast transgenic pathway of seven consecutive enzymatic steps which converted the native substrate oleic acid to α-linolenic acid and, subsequently, to EPA, docosapentaenoic acid (DPA) and DHA. This paper describes construct design and evaluation, plant transformation, event selection, field testing in a wide range of environments, and oil profile stability of the transgenic seed. The stable, high-performing event NS-B50027-4 produced fish oil-like levels of DHA (9-11%) in open field trials of T 3 to T 7 generation plants in several locations in Australia and Canada. This study also describes the highest seed DHA levels reported thus far and is one of the first examples of a deregulated genetically modified crop with clear health benefits to the consumer.

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Section: Discussionmentioning

confidence: 99%

Development of a Brassica napus (Canola) Crop Containing Fish Oil-Like Levels of DHA in the Seed Oil

Petrie

Zhou

Leonforte³

et al. 2020

Front. Plant Sci.

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“…Previously, acyltransferases such as diacylglycerol acyltransferase and phospholipid:diacylglycerol acyltransferase have been successfully coexpressed with FA modification enzymes and have rescued defective embryos (Li et al ., 2012; Bates et al ., 2014; Lunn et al ., 2018). LPAT is known as a valuable acyltransferase that exhibits various abundant substrate preferences in different species (Knutzon et al ., 1999; Nath et al ., 2009; Yu et al ., 2014; Kim et al ., 2015; Shrestha et al ., 2018). In the present study we found that CsLPAT2 could rescue our defective embryo phenotype, a result that will provide more options for the production of UFAs in crops in the future.…”

Section: Discussionmentioning

confidence: 99%

Ultra‐high α‐linolenic acid accumulating developmental defective embryo was rescued by lysophosphatidic acid acyltransferase 2

et al. 2020

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Summary For decades, genetic engineering approaches to produce unusual fatty acids (UFAs) in crops has reached a bottleneck, including reduced seed oil production and seed vigor. Currently, plant models in the field of research are primarily used to investigate defects in oil production and seedling development, while the role of UFAs in embryonic developmental defects remains unknown. In this study, we developed a transgenic Arabidopsis plant model, in which the embryo exhibits severely wrinkled appearance owing to α‐linolenic acid (ALA) accumulation. RNA‐sequencing analysis in the defective embryo suggested that brassinosteroid synthesis, FA synthesis and photosynthesis were inhibited, while FA degradation, endoplasmic reticulum stress and oxidative stress were activated. Lipidomics analysis showed that ultra‐accumulated ALA is released from phosphatidylcholine as a free FA in cells, inducing severe endoplasmic reticulum and oxidative stress. Furthermore, we identified that overexpression of lysophosphatidic acid acyltransferase 2 rescued the defective phenotype. In the rescue line, the pool capacity of the Kennedy pathway was increased, and the esterification of ALA indirectly to triacylglycerol was enhanced to avoid stress. This study provides a plant model that aids in understanding the molecular mechanism of embryonic developmental defects and generates strategies to produce higher levels of UFAs.

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“…Expression of the M . alpina LPAAT increases sn -2 DHA in seed oil, which was confirmed by both lipase digestion and 13 C NMR [ 26 ]. Nevertheless, a more sensitive and convenient analytical method to quickly screen for and quantify sn -2 DHA will greatly aid characterization of DHA-containing glycerolipids and functional analysis of LPAATs that can increase sn -2 DHA in seed oils.…”

Section: Introductionmentioning

confidence: 85%

“…In vitro measurement of LPAAT enzyme activity is challenging; eukaryote LPAATs are bound to the ER membrane or to the thylakoid membrane of the plastid [ 44 ]. Typically, measurements of LPAAT activity are performed with a heterogeneous microsomal preparation, containing either heterologously expressed protein [ 26 , 45 – 47 ] or natively expressed protein [ 21 , 27 , 46 , 48 ]. To mitigate background acyltransferase activity, the slc1Δ or ale1Δ (also referred to as slc4Δ ) yeast mutants lacking LPAAT have been used to heterologously express plant acyltransferase proteins [ 49 ].…”

Section: Discussionmentioning

confidence: 99%

Plant and algal lysophosphatidic acid acyltransferases increase docosahexaenoic acid accumulation at the sn-2 position of triacylglycerol in transgenic Arabidopsis seed oil

et al. 2021

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Although docosahexaenoic acid (DHA), an important dietary omega-3 polyunsaturated fatty acid (PUFA), is at present primarily sourced from marine fish, bioengineered crops producing DHA may offer a more sustainable and cost-effective source. DHA has been produced in transgenic oilseed crops, however, DHA in seed oil primarily occupies the sn-1/3 positions of triacylglycerol (TAG) with relatively low amounts of DHA in the sn-2 position. To increase the amount of DHA in the sn-2 position of TAG and in seed oil, putative lysophosphatidic acid acyltransferases (LPAATs) were identified and characterized from the DHA-producing alga Schizochytrium sp. and from soybean (Glycine max). The affinity-purified proteins were confirmed to have LPAAT activity. Expression of the Schizochytrium or soybean LPAATs in DHA-producing Arabidopsis expressing the Schizochytrium PUFA synthase system significantly increased the total amount of DHA in seed oil. A novel sensitive band-selective heteronuclear single quantum coherence (HSQC) NMR method was developed to quantify DHA at the sn-2 position of glycerolipids. More than two-fold increases in sn-2 DHA were observed for Arabidopsis lines expressing Schizochytrium or soybean LPAATs, with one Schizochytrium LPAAT driving DHA accumulation in the sn-2 position to 61% of the total DHA. Furthermore, expression of a soybean LPAAT led to a redistribution of DHA-containing TAG species, with two new TAG species identified. Our results demonstrate that transgenic expression of Schizochytrium or soybean LPAATs can increase the proportion of DHA at the sn-2 position of TAG and the total amount of DHA in the seed oil of a DHA-accumulating oilseed plant. Additionally, the band-selective HSQC NMR method that we developed provides a sensitive and robust method for determining the regiochemistry of DHA in glycerolipids. These findings will benefit the advancement of sustainable sources of DHA via transgenic crops such as canola and soybean.

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Increased DHA Production in Seed Oil Using a Selective Lysophosphatidic Acid Acyltransferase

Cited by 10 publications

References 34 publications

Development of a Brassica napus (Canola) Crop Containing Fish Oil-Like Levels of DHA in the Seed Oil

Development of a Brassica napus (Canola) Crop Containing Fish Oil-Like Levels of DHA in the Seed Oil

Ultra‐high α‐linolenic acid accumulating developmental defective embryo was rescued by lysophosphatidic acid acyltransferase 2

Plant and algal lysophosphatidic acid acyltransferases increase docosahexaenoic acid accumulation at the sn-2 position of triacylglycerol in transgenic Arabidopsis seed oil

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