1. Wang, J., Hua, G., Chen, J. et al. Epigenetic mechanism of
Gtl2-miRNAs causes the primitive sheep characteristics found in purebred Merino sheep. Cell Biosci 13, 190 (2023).
2. Wang J, Hua G, Cai G, Ma Y, Yang X, Li R, Liu J, Ma Q, Deng X*. et al. Genome-wide DNA methylation and transcriptome analyses reveal the key gene for wool type variation in sheep. J Anim Sci Biotechnol 14, 88 (2023).
3. Wang J, Cui K, Yang Z, Li T, Hua G, Han D, Yao Y, Chen J, Deng X*, et al. Transcriptome Analysis of Improved Wool Production in Skin-Specific Transgenic Sheep Overexpressing Ovine beta-Catenin. Int J Mol Sci 20(2019).
4. Wang J, Ma Y, Wu K, Xue M, et al. MiR-199a-3p Regulates the PTPRF/β-Catenin Axis in Hair Follicle Development: Insights
into the Pathogenic Mechanism of Alopecia Areata. Int J Mol Sci. 2023; 24(24).
5. Zhang, L., Wang, J., Cai, G. et al. Imprinted Dlk1-Gtl2 cluster miRNAs are potential epigenetic regulators of lamb fur quality. BMC Genomics 24, 632 (2023).
6. Wang J, Hua G, Yang X, Zhang L, Ma Y, Ma Q, Li R, Wu K, Zhao Y, Deng X*. A newly identified small tRNA fragment reveals the regulation of different wool types and oxidative stress in lambs. Sci Rep 13, 10213 (2023).
7. Wang J, Cui K, Hua G, Han D, Yang Z, Li T, Yang X, Zhang Y, Cai G, Deng X* et al. Skin-specific transgenic overexpression of ovine beta-catenin in mice. Front Genet 13, 1059913 (2022).
8. Hua G, Yang X, Ma Y, Li T, Wang J*, Deng X. m6A Methylation Analysis Reveals Networks and Key Genes Underlying the Coarse and Fine Wool Traits in a Full-sib Merino Family. Biology 11(2022).