Abstract
Wool is an important material in textile manufacturing. In order to investigate the intrinsic factors that regulate wool follicle cycling and wool fiber properties, Illumina sequencing was performed on wool follicle bulb samples from the middle anagen, catagen and late telogen/early anagen phases. In total, 13,898 genes were identified. KRTs and KRTAPs are the most highly expressed gene families in wool follicle bulb. In addition, 438 and 203 genes were identified to be differentially expressed in wool follicle bulb samples from the middle anagen phase compared to the catagen phase and the samples from the catagen phase compared to the late telogen/early anagen phase, respectively. Finally, our data revealed that two groups of genes presenting distinct expression patterns during the phase transformation may have important roles for wool follicle bulb regression and regeneration. In conclusion, our results demonstrated the gene expression patterns in the wool follicle bulb and add new data towards an understanding of the mechanisms involved in wool fiber growth in sheep.
Highlights
IntroductionHair (including wool, fleece and alpaca) is an important material in textile manufacturing, and it is produced from the hair follicle (HF), which is invaginated in skin [1]
Hair is an important material in textile manufacturing, and it is produced from the hair follicle (HF), which is invaginated in skin [1]
Due to the fact that the intrinsic factors in the bulb play important roles in controlling the hair follicle cycling and the wool fiber properties, the aim of the present study was to determine the gene expression patterns in hair follicle bulb during the regression and regeneration phases in sheep, and the results revealed that groups of genes might act as the wool follicle bulb and wool fiber growth-related activators/inhibitors in sheep
Summary
Hair (including wool, fleece and alpaca) is an important material in textile manufacturing, and it is produced from the hair follicle (HF), which is invaginated in skin [1]. Modulated by extra-follicular macroenvironmental factors, the hair follicle bulb undergoes growth cycles, including anagen (growth), catagen (regression) and telogen (rest) phases. At the end of anagen, the speed of HMCs proliferation and differentiation declines, and the cells at the lower regenerating region of the hair follicle enter an apoptosis phase, termed catagen. At this stage, the hair follicle becomes recessionary, and the hair follicle bulb condenses and moves upward. By the end of telogen, the hair follicle bulb starts to regenerate, and the hair follicle remodels back into its growth phase state (anagen), restarting the growth cycle. Given that hair is produced from the rapidly proliferating hair follicle bulb, it is of importance to identify the intra-follicle bulb expressed genes that function to enhance or suppress the growth process of the hair follicle bulb and hair fiber
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