Cashmere goats produce high-value fine fibers derived from secondary hair follicles; however, the molecular mechanisms underlying this trait remain incompletely understood. In this study, comparative transcriptome sequencing was performed on skin tissues from Inner Mongolian cashmere goats and normal goats to characterize gene expression differences associated with cashmere fiber production. High-quality RNA-seq data with strong mapping efficiency and reproducibility were obtained across all samples. Differential expression analysis identified 1543 significantly differentially expressed genes (DEGs) between cashmere and normal goats, including genes involved in hair follicle morphogenesis, epidermal differentiation, cell proliferation, and extracellular matrix organization. Multivariate analyses showed a clear transcriptomic separation between fleece types, indicating that fleece phenotype is the primary driver of variation in global gene expression. Functional enrichment revealed significant involvement of the Wnt, MAPK, and PI3K–Akt signaling pathways, and several biologically relevant regulators of hair follicle development and hair cycle control, including FGF5, SOX9, LHX2, and VDR, were differentially expressed. Gene fusion events were rare and showed no group specific patterns, whereas alternative splicing was widespread, with exon skipping as the predominant splicing event in goat skin. Overall, these results provide quantitative transcriptomic evidence linking signaling regulation, follicle development, and structural differentiation to secondary hair follicle activity and cashmere fiber formation, offering candidate genes and molecular pathways for functional validation and molecular breeding in cashmere goats.
Riaz et al. (Mon,) studied this question.