Wan-Chin Yeap scite author profile

The oil biosynthesis pathway must be tightly controlled to maximize oil yield. Oil palm accumulates exceptionally high oil content in its mesocarp, suggesting the existence of a unique fruit-specific fatty acid metabolism transcriptional network. We report the complex fruit-specific network of transcription factors responsible for modulation of oil biosynthesis genes in oil palm mesocarp. Transcriptional activation of EgWRI1-1 encoding a key master regulator that activates expression of oil biosynthesis genes, is activated by three ABA-responsive transcription factors, EgNF-YA3, EgNF-YC2 and EgABI5. Overexpression of EgWRI1-1 and its activators in Arabidopsis accelerated flowering, increased seed size and oil content, and altered expression levels of oil biosynthesis genes. Protein-protein interaction experiments demonstrated that EgNF-YA3 interacts directly with EgWRI1-1, forming a transcription complex with EgNF-YC2 and EgABI5 to modulate transcription of oil biosynthesis pathway genes. Furthermore, EgABI5 acts downstream of EgWRKY40, a repressor that interacts with EgWRKY2 to inhibit the transcription of oil biosynthesis genes. We showed that expression of these activators and repressors in oil biosynthesis can be induced by phytohormones coordinating fruit development in oil palm. We propose a model highlighting a hormone signaling network coordinating fruit development and fatty acid biosynthesis.

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Nanocarriers for Transgene Expression in Pollen as a Plant Biotechnology Tool

Lew

Park

Wang

et al. 2020

ACS Materials Lett.

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As the male gametophyte of flowering plants, pollen grains are ideal targets for the introduction of transgenes for plant genetic engineering and crop improvement. However, the difficulty of delivering exogenous DNA into pollen grains, because of chemically inert cell walls, has hindered their widespread application in plant biotechnology. Herein, we report a new class of nanocarriers, composed of imidazolium (IM)-functionalized single-walled carbon nanotubes (SWNTs), which can efficiently traverse past pollen barriers and deliver genes without external physical aid. IM-SWNTs display high biocompatibility with pollen grains, compared to existing SWNT nanocarriers previously used for cargo delivery into living plant cells. Using IM-SWNTs as nanotransporters, we investigate the compatibility of various pollen-specific promoters with oil palm pollen transcription machinery. We show that nanoparticle transport past the pollen plasma membrane is mainly controlled by its zeta potential, and we describe this entry mechanism with the lipid exchange envelope penetration model. We further estimate the pollen membrane effective dielectric constant with this model. These findings provide insights for the rational design and refinement of nanocarriers for plant biotechnology applications.

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EgRBP42 encoding an hnRNP-like RNA-binding protein from Elaeis guineensis Jacq. is responsive to abiotic stresses

et al. 2012

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An Efficient Clustered Regularly Interspaced Short Palindromic Repeat (CRISPR)/CRISPR-Associated Protein 9 Mutagenesis System for Oil Palm (Elaeis guineensis)

Yeap¹,

Khan²,

Jamalludin³

et al. 2021

Front. Plant Sci.

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The clustered regularly interspaced short palindromic repeat (CRISPR)/CRISPR-associated protein 9 (Cas9) system has emerged as a powerful tool for the precise editing of plant genomes for crop improvement. Rapid in vitro methods for the determination of guide RNA (gRNA) cleavage efficiency and an efficient DNA delivery system is essential for gene editing. However, we lack an efficient gene-editing system for palm species. In this study, we described the development of a transient oil palm protoplast assay to rapidly evaluate the cleavage efficiency of CRISPR/Cas9 mutagenesis and the generation of stable transformed oil palms using biolistic particle bombardment in immature embryos. Using the phytoene desaturase (EgPDS) gene, we found cleavage frequency of up to 25.49% in electro-transfected protoplast, which enables the production of transgenic oil palm shoots exhibiting chimeric albino phenotypes as a result of DNA insertions, deletions (InDels), and nucleotide substitutions, with a mutation efficiency of 62.5–83.33%. We further validated the mutagenesis efficiency and specificity of the CRISPR/Cas9 system in oil palm by targeting the brassinosteroid-insensitive 1 (EgBRI1) gene, which resulted in nucleotide substitutions in EgBRI1 with premature necrosis phenotype in oil palm transgenic shoots and stunted phenotype resulting from DNA InDels. Taken together, our results showed that effective and efficient editing of genes using the CRISPR/Cas9 system can be achieved in oil palm by optimizing the selection of efficient gRNA and DNA delivery methods. This newly designed strategy will enable new routes for the genetic improvement in oil palm and related species.

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Wan-Chin Yeap

Evaluation of suitable reference genes for qRT-PCR gene expression normalization in reproductive, vegetative tissues and during fruit development in oil palm

WRI1‐1, ABI5, NF‐YA3 and NF‐YC2 increase oil biosynthesis in coordination with hormonal signaling during fruit development in oil palm

Nanocarriers for Transgene Expression in Pollen as a Plant Biotechnology Tool

EgRBP42 encoding an hnRNP-like RNA-binding protein from Elaeis guineensis Jacq. is responsive to abiotic stresses

An Efficient Clustered Regularly Interspaced Short Palindromic Repeat (CRISPR)/CRISPR-Associated Protein 9 Mutagenesis System for Oil Palm (Elaeis guineensis)

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