With the completion of the draft assembly of the giant panda genome sequence,RNA sequencing technology has been widely used in genetic research on giant pandas.We used RNA-seq to examine black and white hair follicle ...With the completion of the draft assembly of the giant panda genome sequence,RNA sequencing technology has been widely used in genetic research on giant pandas.We used RNA-seq to examine black and white hair follicle samples from adult pandas.By comparison with the giant panda genome,75963 SNP loci were labeled,2426 differentially expressed genes(DEGs)were identified,and 2029 new genes were discovered,among which 631 were functionally annotated.A cluster analysis of the DEGs showed that they were mainly related to the Wnt signaling pathway,ECM–receptor interaction,the p53 signaling pathway,and ribosome processing.The enrichment results showed that there were significant differences in the regulatory networks of hair follicles with different colors during the transitional stage of hair follicle resting growth,which may play a regulatory role in melanin synthesis during growth.In conclusion,our results provide new insights and more data support for research on the color formation in giant pandas.展开更多
基金supported by the Open Project of Key Laboratory of SFGA on Conservation Biology of Rare Animals in the Giant Panda National Park(KLSFGAGP2020.009).
文摘With the completion of the draft assembly of the giant panda genome sequence,RNA sequencing technology has been widely used in genetic research on giant pandas.We used RNA-seq to examine black and white hair follicle samples from adult pandas.By comparison with the giant panda genome,75963 SNP loci were labeled,2426 differentially expressed genes(DEGs)were identified,and 2029 new genes were discovered,among which 631 were functionally annotated.A cluster analysis of the DEGs showed that they were mainly related to the Wnt signaling pathway,ECM–receptor interaction,the p53 signaling pathway,and ribosome processing.The enrichment results showed that there were significant differences in the regulatory networks of hair follicles with different colors during the transitional stage of hair follicle resting growth,which may play a regulatory role in melanin synthesis during growth.In conclusion,our results provide new insights and more data support for research on the color formation in giant pandas.