| RNA |
Transcriptome profiles revealed mechanisms of yak underlying adaptation to high-altitude environments |
scientific reports |
| Comparisons of lung and gluteus transcriptome profiles among yaks at different ages |
scientific reports |
| Transcriptome analysis identified long non-coding RNAs involved in the adaption of yak to high-altitude environments |
Royal Society Open Science |
| Protein |
Comparative analysis of skeleton muscle proteome profile between yak and cattle provides insight into high-altitude adaptation |
Current Proteomics |
| Differences in proteomic profiles between yak and three cattle strains provide insights into molecular mechanisms underlying high-altitude adaptation |
Proteome Science |
| Signature of high altitude adaptation in the gluteus proteome of the Yak |
Journal of Experimental Zoology Part B Molecular and Developmental Evolution-Wiley |
| Epigenetics |
Methylome and transcriptome analyses of yaks of different ages revealed that DNA methylation and transcription factor ZGPAT co-regulate milk production |
BMC Genetics |
| Unique pattern of whole genome methylation associated with neuromodulation, immune response, and metabolism in yak |
Journal of Agricultural and Food Chemistry |
| Genome-wide DNA methylation and hydroxymethylation changes revealed epigenetic regulation of neuromodulation and myelination in yak hypothalamus |
Frontiers in Genetics |