CRISPR/Cas9-mediated editing of double loci of BnFAD2 increased the seed oleic acid content of rapeseed (Brassica napus L.)

Liu, Han; Lin, Baogang; Ren, Yun; Hao, Pengfei; Huang, Lan; Xue, Bowen; Jiang, Lixi; Zhu, Yan; Hua, Shuijin

doi:10.3389/fpls.2022.1034215

Cited by 11 publications

(5 citation statements)

References 67 publications

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“…The PUFA content of seeds is mainly reduced by knocking out FAD genes (Jiang et al, 2017;Morineau et al, 2017;Okuzaki et al, 2018;Huang et al, 2020;Jarvis et al, 2021;Lee et al, 2021;Liu et al, 2022;Shi et al, 2022). Another study successfully decreased the PUFA content by knocking out CIPK9 genes (Wang et al, 2023).…”

Section: Decreased Amounts Of Pufa Can Negatively Affect the Health O...mentioning

confidence: 99%

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Environmental Risk Assessment Scenarios of Specific NGT Applications in <em>Brassicaceae</em> Oilseed Plants

Koller,

Cieslak,

Bauer-Panskus

2024

Preprint

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Oilseed plants of the Brassicaceae plant family are cultivated for food, feed and industrial purposes on large-scale in Europe. This review gives an overview of current market-oriented applications of new genomic techniques (NGTs) in relevant Brassicaceae oilseed crops based on a literature survey. In this respect, changes in oil quality, yield, growth and resistance to biotic and abiotic stress are goals in oilseed rape (B. napus) and camelina (C. sativa). Environmental risk assessment scenarios are developed for specific NGT applications in Brassicaceae oilseed crops with either a changed oil composition or with fitness related traits. In case of a changed oil composition an increase or decrease of polyunsaturated fatty acids (PUFA) demonstrates risks for health and survival of pollinators. In case of fitness related traits other risks were identified, i. e. an increased risk of spread and persistence of NGT plants. Furthermore, there are indications for potential disturbance of interactions with the environment, involving signalling pathways and reaction to stress conditions. It is shown that for a comprehensive risk assessment the technological potential of NGTs, the plants’ biology and the scale of releases have to be considered in combination. Therefore, the release of NGT plants into the environment for agricultural purposes will require risk assessment and monitoring of single traits as well as of combinatorial and long-term cumulative effects. In addition, risk management should develop concepts and measures to control and potentially restrict the scale of releases. This is especially relevant for NGT Brassicaceae in Europe which is a centre of diversity of this plant family.

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Section: Decreased Amounts Of Pufa Can Negatively Affect the Health O...mentioning

confidence: 99%

“…For example, oleic acid contents were elevated by knocking out FAD genes (Jiang et al, 2017;Morineau et al, 2017;Okuzaki et al, 2018;Huang et al, 2020;Jarvis et al, 2021;Lee et al, 2021;Liu et al, 2022;Shi et al, 2022).…”

Section: Increasing Amounts Of Oil and Unsaturated Fatty Acids Can Ne...mentioning

confidence: 99%

Environmental Risk Assessment Scenarios of Specific NGT Applications in <em>Brassicaceae</em> Oilseed Plants

Koller,

Cieslak,

Bauer-Panskus

2024

Preprint

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“…It was discovered that the impact of various mutation types at BnFAD2 alleles on oleic acid levels varied, indicating a potential for fatty acid level manipulation by precise mutation at specific region of a gene ( Huang et al., 2020 ). A recent study on BnFAD2 showed that the CRISPR/Cas9-mediated genome editing of the BnFAD2 ’s double loci (A5 and C5) can precisely edit the targeted genes, increasing the seed’s oleic acid content to a much greater extent than can a single locus-editing technique ( Liu H. et al., 2022 ). Recent findings also reveal that induced mutations in the BnFAD2 genes by CRISPR/Cas9-mediated editing has produce high oleic acid germplasm from the CY2 cultivar ( Shi et al., 2022 ).…”

Section: Fatty Acid Desaturasementioning

confidence: 99%

CRISPR-mediated technology for seed oil improvement in rapeseed: Challenges and future perspectives

Ali

Zhang

2023

Front. Plant Sci.

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Rapeseed not only provide considerable amount of edible oil with high nutritional properties but can also be used as a raw material for biofuel production in many industries. It is therefore in high demand to bring genetic changes in order to fulfill the need of human and of industries. Though traditional breeding techniques such as hybridization and mutagenesis remained the top methods for long time to create improved varieties in oilseed rape. Clustered regularly interspaced short palindromic repeats (CRISPR) is becoming one of the most valuable gene editing technologies that allow precise genome engineering, and open new ways for research in plant functional genomics. Though CRISPR has been used in many other crops for genetic improvement it is expected to be an effective tool for genome editing and molecular design in oilseed rape for seed oil improvement. This mini review will discuss and summarize the past and ongoing research and development in rapeseed in terms of seed oil improvement and fatty acid composition using CRISPR technology. In addition, the factors that hinder the efficiency of this tool and how to eliminate those factors will be briefly summarized. The improvement of CRISPR technology for getting better results in oilseed rape will also be considered here. This minireview will open new windows for researchers in Brassica napus oil improvement research and genetic improvement using CRISPR technology.

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“… 64 Thlaspi arvense (pennycress) FAD2 , ROD ( reduced oleate desaturase ) Fad2 or fad2 fae1 could double oleic acid contents 65 Arachis hypogea (peanut) FAD2 Seed-specific down regulation of gene led to increased oleic acid content 66 Oryza sativa (rice) OsFAD2–1 Expression of Os FAD2–1 was disrupted which doubled oleic acid contents 67 Brassica napus (rapeseed) fad2_Aa Increase in high oleic acid contents 68 BnaFAD2 Oleic acid contents increased from 65% to 80%. Mutation in BnaFAD2 in A5 genome caused more significant fatty acid profile changes 69 BnFAD2 and BnFAE1 Increase oleic acid (70–80%) with decreased erucic acid 70 BnFAD2 Poor agronomic performance but high oleic acid content while oil content remain constant 71 Glycine max (soybean) GmFAD2 Oleic acid 80% with corresponding decrease in linoleic acid to 1.3% 72 Oleic acid content increased 11% to 40–50% in fad2-1a and fad2-1b mutants, and to 85% in the fad2-1a/fad2 73 Arachis hypogea (peanut) ahFAD2A High oleic acid content 74 Elaeis guineensis (oil palm) EgFAD2 and EgPAT High oleic acid and stearic acid palm oil …”

Section: High Oleic Acid Genetic Stocksmentioning

confidence: 99%

Modification of Fatty Acid Profile and Oil Contents Using Gene Editing in Oilseed Crops for a Changing Climate

2023

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Mutation breeding based on various chemical and physical mutagens induces and disrupts non-target loci. Hence, large populations were required for visual screening, but desired plants were rare and it was a further laborious task to identify desirable mutants. Generated mutant had high defect due to non-targeted mutation, with poor agronomic performance. Mutation techniques were augmented by targeted induced local lesions in genome (TILLING) facilitating the selection of desirable germplasm. On the other hand, gene editing through CRISPR/Cas9 allows knocking down genes for site-directed mutation. This handy technique has been exploited for the modification of fatty acid profile. High oleic acid genetic stocks were obtained in a broad range of crops. Moreover, genes involved in the accumulation of undesirable seed components such as starch, polysaccharide, and flavors were knocked down to enhance seed quality, which helps to improve oil contents and reduces the anti-nutritional component.

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CRISPR/Cas9-mediated editing of double loci of BnFAD2 increased the seed oleic acid content of rapeseed (Brassica napus L.)

Cited by 11 publications

References 67 publications

Environmental Risk Assessment Scenarios of Specific NGT Applications in <em>Brassicaceae</em> Oilseed Plants

Environmental Risk Assessment Scenarios of Specific NGT Applications in <em>Brassicaceae</em> Oilseed Plants

CRISPR-mediated technology for seed oil improvement in rapeseed: Challenges and future perspectives

Modification of Fatty Acid Profile and Oil Contents Using Gene Editing in Oilseed Crops for a Changing Climate

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