Abstract
Background
Wool fibers are valuable materials for textile industry. Typical wool fibers are divided into medullated and non-medullated types, with the former generated from primary wool follicles and the latter by either primary or secondary wool follicles. The medullated wool is a common wool type in the ancestors of fine wool sheep before breeding. The fine wool sheep have a non-medullated coat. However, the critical period determining the type of wool follicles is the embryonic stage, which limits the phenotypic observation and variant contrast, making both selection and studies of wool type variation fairly difficult.
Results
During the breeding of a modern fine (MF) wool sheep population with multiple-ovulation and embryo transfer technique, we serendipitously discovered lambs with ancestral-like coarse (ALC) wool. Whole-genome resequencing confirmed ALC wool lambs as a variant type from the MF wool population. We mapped the significantly associated methylation locus on chromosome 4 by using whole genome bisulfite sequencing signals, and in turn identified the SOSTDC1 gene as exons hypermethylated in ALC wool lambs compare to their half/full sibling MF wool lambs. Transcriptome sequencing found that SOSTDC1 was expressed dozens of times more in ALC wool lamb skin than that of MF and was at the top of all differentially expressed genes. An analogy with the transcriptome of coarse/fine wool breeds revealed that differentially expressed genes and enriched pathways at postnatal lamb stage in ALC/MF were highly similar to those at the embryonic stage in the former. Further experiments validated that the SOSTDC1 gene was specifically highly expressed in the nucleus of the dermal papilla of primary wool follicles.
Conclusion
In this study, we conducted genome-wide differential methylation site association analysis on differential wool type trait, and located the only CpG locus that strongly associated with primary wool follicle development. Combined with transcriptome analysis, SOSTDC1 was identified as the only gene at this locus that was specifically overexpressed in the primary wool follicle stem cells of ALC wool lamb skin. The discovery of this key gene and its epigenetic regulation contributes to understanding the domestication and breeding of fine wool sheep.
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Details
1 China Agricultural University, State Key Laboratory of Animal Biotech Breeding, Beijing, People’s Republic of China (GRID:grid.22935.3f) (ISNI:0000 0004 0530 8290); China Agricultural University, Key Laboratory of Animal Genetics, Breeding and Reproduction, Ministry of Agriculture & Beijing Key Laboratory for Animal Genetic Improvement, Beijing, People’s Republic of China (GRID:grid.22935.3f) (ISNI:0000 0004 0530 8290)
2 China Agricultural University, State Key Laboratory of Animal Biotech Breeding, Beijing, People’s Republic of China (GRID:grid.22935.3f) (ISNI:0000 0004 0530 8290)
3 Jinfeng Animal Husbandry Group Co., Ltd., Chifeng, China (GRID:grid.22935.3f)
4 Chinese Academy of Agricultural Sciences, Lanzhou Institute of Husbandry and Pharmaceutical Sciences, Lanzhou, China (GRID:grid.410727.7) (ISNI:0000 0001 0526 1937)
5 Animal Science Institute of Ningxia Agriculture and Forestry Academy, Yinchuan, China (GRID:grid.410727.7)