Objectives: Training is essential for enhancing equine athletic performance, but the genetic mechanisms that regulate athletic performance are unknown. Therefore, this paper aims to identify candidate genes and metabolic pathways for the effects of training on equine athletic performance through multi-omics analyses.
Methods: The experiment selected 12 untrained trot-type Yili horses, which underwent a 12-week professional training program. Blood samples were collected at rest before training (BT) and after training (AT). Based on their race performance, whole blood and serum samples from 4 horses were chosen for transcriptomic and metabolomic analyses.
Results: The race performance of the horses is dramatically improved in the AT period compared to the BT ( < 0.01) period. The transcriptome analysis identified a total of 57 differentially expressed genes, which were significantly enriched in pathways related to circadian entrainment, steroid hormone biosynthesis, chemokine signaling, and cholinergic synapses ( < 0.05). Additionally, metabolomic analysis revealed 121 differentially identified metabolites, primarily enriched in metabolic pathways such as histidine metabolism, purine metabolism, and the PI3K-Akt signaling pathway. The integration of transcriptomic and metabolomic analyses uncovered five shared pathways, and further combined pathway analyses identified eight differentially expressed genes that correlate with 19 differentially identified metabolites.
Conclusions: The current findings will contribute to establishing a theoretical framework for investigating the molecular mechanisms of genes associated with the impact of training on equine athletic performance. Additionally, these results will serve as a foundation for enhancing the athletic capabilities of trot-type Yili horses.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11855102 | PMC |
| http://dx.doi.org/10.3390/genes16020197 | DOI Listing |
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