Applications of Next-Generation Sequencing Technologies and Statistical Tools in Identifying Pathways and Biomarkers for Heat Tolerance in Livestock DOI Creative Commons
Gajendirane Kalaignazhal, Veerasamy Sejian, M. V. Silpa

и другие.

Veterinary Sciences, Год журнала: 2024, Номер 11(12), С. 616 - 616

Опубликована: Дек. 2, 2024

The climate change-associated abnormal weather patterns negatively influences the productivity and performance of farm animals. Heat stress is major detrimental factor hampering production, causing substantial economic loss to livestock industry. Therefore, it important identify heat-tolerant breeds that can survive produce optimally in any given environment. To achieve this goal, a clearer understanding genetic differences underlying molecular mechanisms associated with change impacts heat tolerance are prerequisite. Adopting next-generation biotechnological statistical tools like whole transcriptome analysis, metagenome sequencing, bisulphite genome-wide association studies (GWAS), selection signatures provides an opportunity goal. Through these techniques, possible permanent markers for tolerance, by incorporating those marker-assisted breeding selection, target livestock. This review gives overview recent advancements assessing using such ‘omics’ approaches models. salient findings from research highlighted several candidate biomarkers have potential be incorporated into future heat-tolerance studies. Such could revolutionise production changing scenario support food demands growing human population.

Язык: Английский

Applications of Next-Generation Sequencing Technologies and Statistical Tools in Identifying Pathways and Biomarkers for Heat Tolerance in Livestock DOI Creative Commons
Gajendirane Kalaignazhal, Veerasamy Sejian, M. V. Silpa

и другие.

Veterinary Sciences, Год журнала: 2024, Номер 11(12), С. 616 - 616

Опубликована: Дек. 2, 2024

The climate change-associated abnormal weather patterns negatively influences the productivity and performance of farm animals. Heat stress is major detrimental factor hampering production, causing substantial economic loss to livestock industry. Therefore, it important identify heat-tolerant breeds that can survive produce optimally in any given environment. To achieve this goal, a clearer understanding genetic differences underlying molecular mechanisms associated with change impacts heat tolerance are prerequisite. Adopting next-generation biotechnological statistical tools like whole transcriptome analysis, metagenome sequencing, bisulphite genome-wide association studies (GWAS), selection signatures provides an opportunity goal. Through these techniques, possible permanent markers for tolerance, by incorporating those marker-assisted breeding selection, target livestock. This review gives overview recent advancements assessing using such ‘omics’ approaches models. salient findings from research highlighted several candidate biomarkers have potential be incorporated into future heat-tolerance studies. Such could revolutionise production changing scenario support food demands growing human population.

Язык: Английский

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