Publications by authors named "Ai Ling Ong"

The oil palm-pollinating weevil ( Faust) was introduced from Cameroon, West Africa, to Malaysia in 1981, and subsequently, to other oil palm-growing countries as well. This study aims to develop a set of robust -specific nuclear DNA markers to directly assess the genetic diversity of the weevil populations. A total of 19,148 SNP and 223,200 SSR were discovered from 48 weevils representing three origins (Peninsular Malaysia, Sabah, and Riau) using RAD tag sequencing.

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Oil palm ( Jacq.) is the most traded crop among the economically important palm species. Here, we report an extended version genome of that is 1.

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Superior oil yield is always the top priority of the oil palm industry. Short trunk height (THT) and compactness traits have become increasingly important to improve harvesting efficiency since the industry started to suffer yield losses due to labor shortages. Breeding populations with low THT and short frond length (FL) are actually available, such as AVROS (DAV) and (GM).

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Background: Legitimacy in breeding and commercial crop production depends on optimised protocols to ensure purity of crosses and correct field planting of material. In oil palm, the presence of three fruit forms permits these assumptions to be tested, although only after field planting. The presence of incorrect fruit forms in a cross is a clear sign of illegitimacy.

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Meiotic crossovers in outbred species, such as oil palm (Elaeis guineensis Jacq., 2n = 32) contribute to allelic re-assortment in the genome. Such genetic variation is usually exploited in breeding to combine positive alleles for trait superiority.

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Article Synopsis
  • Genomic selection (GS) aims to enhance breeding programs for plants and animals using genome-wide markers, which is especially beneficial for long-breeding perennial crops like oil palm; this study evaluates GS methods in a specific dura family with key traits linked to oil yield and quality.
  • The study finds that different marker systems (SSRs vs. SNPs) and modeling techniques influence GS accuracy, with SNPs showing more promise; the most accurate trait measurements came from SNPs, significantly boosting the reliability of predicted traits.
  • Overall, the research concludes that using whole-genome SNPs dramatically improves GS effectiveness for breeding oil palm, leading to better genetic advancements in oil yield and composition.
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The fructose-1,6-bisphosphate aldolase catalyzed glycolysis branch that forms dihydroxyacetone phosphate and glyceraldehyde-3-phosphate was identified as a key driver of increased oil synthesis in oil palm and was validated in Saccharomyces cerevisiae. Reduction in triose phosphate isomerase (TPI) activity in a yeast knockdown mutant resulted in 19% increase in lipid content, while yeast strains overexpressing oil palm fructose-1,6-bisphosphate aldolase (EgFBA) and glycerol-3-phosphate dehydrogenase (EgG3PDH) showed increased lipid content by 16% and 21%, respectively. Genetic association analysis on oil palm SNPs of EgTPI SD_SNP_000035801 and EgGAPDH SD_SNP_000041011 showed that palms harboring homozygous GG in EgTPI and heterozygous AG in EgGAPDH exhibited higher mesocarp oil content based on dry weight.

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The fundamental trait in selective breeding of oil palm (Eleais guineensis Jacq.) is the shell thickness surrounding the kernel. The monogenic shell thickness is inversely correlated to mesocarp thickness, where the crude palm oil accumulates.

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Article Synopsis
  • Genomic selection (GS) leverages genome-wide markers to identify breeding individuals with optimal traits, focusing on various ratios and fruit yield in a population of 1,218 oil palms.
  • The study analyzed traits such as shell-to-fruit ratio and oil per palm, estimating genomic heritability between 0.40 to 0.80 and evaluating multiple GS methods with prediction accuracies of 0.40 to 0.70.
  • Ultimately, RR-BLUP method showed the potential for higher accuracy by refining marker selection, aiding in faster parental selection for oil palm breeding programs.
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High-density single nucleotide polymorphism (SNP) genotyping arrays are powerful tools that can measure the level of genetic polymorphism within a population. To develop a whole-genome SNP array for oil palms, SNP discovery was performed using deep resequencing of eight libraries derived from 132 Elaeis guineensis and Elaeis oleifera palms belonging to 59 origins, resulting in the discovery of >3 million putative SNPs. After SNP filtering, the Illumina OP200K custom array was built with 170 860 successful probes.

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Article Synopsis
  • GWAS in perennial crops like oil palm is challenging due to limited marker density and diverse population structures, leading to many false positives.
  • A study was conducted with 2,045 genotyped tenera palms using 200K SNPs to identify significant loci associated with oil-to-dry-mesocarp content (O/DM), resulting in 80 loci, with three key signals identified.
  • Progeny from a breeding trial showed a 4% higher O/DM in palms with beneficial genotypes, prompting efforts in marker-assisted selection (MAS) and large-scale planting of improved parent types to enhance O/DM potential.
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Laccases are industrially attractive enzymes and their applications have expanded to the field of bioremediation. The challenge of today's biotechnology in enzymatic studies is to design enzymes that not only have a higher activity but are also more stable and could fit well with the condition requirements. Laccases are known to oxidize non-natural substrates like polycyclic aromatic hydrocarbons (PAHs).

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Laccase belongs to the family of blue multi-copper oxidases and are capable of oxidizing a wide range of aromatic compounds. Laccases have industrial applications in paper pulping or bleaching and hydrocarbon bioremediation as a biocatalyst. We describe the design of a laccase with broader substrate spectrum in bioremediation.

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