Your search keyword '"Trọng Quốc Trịnh"' showing total 2 results

1. A major quantitative trait locus affecting resistance to Tilapia lake virus in farmed Nile tilapia (Oreochromis niloticus)

Author

John A. H. Benzie, Ross D. Houston, Ophelie Gervais, Carolina Peñaloza, Trọng Quốc Trịnh, Athina Papadopoulou, Mahirah Mahmuddin, V Mohan Chadag, and Agustin Barría

Subjects

0301 basic medicine, Candidate gene, Quantitative trait loci, food.ingredient, Population, Quantitative trait locus, medicine.disease_cause, Quantitative trait, Genome-wide association studies, Article, 03 medical and health sciences, Nile tilapia, Fish Diseases, food, Genetics, medicine, Animals, education, Genetics (clinical), Animal breeding, education.field_of_study, biology, Tilapia lake virus, Outbreak, Correction, Tilapia, 04 agricultural and veterinary sciences, Cichlids, biology.organism_classification, Oreochromis, 030104 developmental biology, 040102 fisheries, 0401 agriculture, forestry, and fisheries, Genetic markers, Genome-Wide Association Study

Abstract

Enhancing host resistance to infectious disease has received increasing attention in recent years as a major goal of farm animal breeding programs. Combining field data with genomic tools can provide opportunities to understand the genetic architecture of disease resistance, leading to new opportunities for disease control. In the current study, a genome-wide association study was performed to assess resistance to the Tilapia lake virus (TiLV), one of the biggest threats affecting Nile tilapia (Oreochromis niloticus); a key aquaculture species globally. A pond outbreak of TiLV in a pedigreed population of the GIFT strain was observed, with 950 fish classified as either survivor or mortality, and genotyped using a 65 K SNP array. A significant QTL of large effect was identified on chromosome Oni22. The average mortality rate of tilapia homozygous for the resistance allele at the most significant SNP (P value = 4.51E−10) was 11%, compared to 43% for tilapia homozygous for the susceptibility allele. Several candidate genes related to host response to viral infection were identified within this QTL, including lgals17, vps52, and trim29. These results provide a rare example of a major QTL affecting a trait of major importance to a farmed animal. Genetic markers from the QTL region have potential in marker-assisted selection to improve host resistance, providing a genetic solution to an infectious disease where few other control or mitigation options currently exist.

Published

2021

2. Development and Validation of an Open Access Snp Array for Nile Tilapia (Oreochromis niloticus)

Author

Trọng Quốc Trịnh, John A. H. Benzie, Carolina Peñaloza, Ross D. Houston, Mahirah Mahmuddin, Pamela Wiener, Agustin Barría, and Diego Robledo

Subjects

food.ingredient, Nile Tilapia, Fish farming, Population, Population genetics, GIFT, Aquaculture, QH426-470, Abbassa, nile tilapia, Nile tilapia, snp array, food, Genetics, SNP, education, Molecular Biology, Genetics (clinical), education.field_of_study, biology, business.industry, abbassa, Tilapia, biology.organism_classification, Biotechnology, Oreochromis, aquaculture, gift, business, SNP array, human activities

Abstract

Tilapia are among the most important farmed fish species worldwide, and are fundamental for the food security of many developing countries. Several genetically improved Nile tilapia (Oreochromis niloticus) strains exist, such as the iconic Genetically Improved Farmed Tilapia (GIFT), and breeding programs typically follow classical pedigree-based selection. The use of genome-wide single-nucleotide polymorphism (SNP) data can enable an understanding of the genetic architecture of economically important traits and the acceleration of genetic gain via genomic selection. Due to the global importance and diversity of Nile tilapia, an open access SNP array would be beneficial for aquaculture research and production. In the current study, a ∼65K SNP array was designed based on SNPs discovered from whole-genome sequence data from a GIFT breeding nucleus population and the overlap with SNP datasets from wild fish populations and several other farmed Nile tilapia strains. The SNP array was applied to clearly distinguish between different tilapia populations across Asia and Africa, with at least ∼30,000 SNPs segregating in each of the diverse population samples tested. It is anticipated that this SNP array will be an enabling tool for population genetics and tilapia breeding research, facilitating consistency and comparison of results across studies.

Published

2020