Genome-wide detection and sequence conservation analysis of long non-coding RNA during hair follicle cycle of yak

Zhang, Xiaolan; Bao, Qi; Jia, Congjun; Li, Chen; Chang, Yongfang; Wu, Xiaoyun; Liang, Chunnian; Bao, Pengjia; Yan, Ping

doi:10.21203/rs.3.rs-17011/v4

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“…Bao used RNA sequencing (RNA-Seq) to reveal the gene expression pattern of the seasonal hair cycle in Tianzhu white yak [14]. Zhang analyzed the expression pattern of lncRNAs during the HFs cycle of Tianzhu yak and explored the role of lncRNAs in the HFs cycle [15]. In addition, Bao analyzed the whole genome sequencing data between long-haired and normal-haired Tianzhu white yak to explore the hair lengthrelated genes [16].…”

Section: Introductionmentioning

confidence: 99%

Genome-wide detection of RNA editing events during the hair follicles cycle of Tianzhu white yak

et al. 2022

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Background The hair coat is available for the yak to live in the harsh environment of the plateau. Besides, improving the hair production of yak is necessary for its textile industry development. Hair grows from hair follicles (HFs). The HFs undergo periodic growth after birth and are regulated by the complex gene regulatory network. However, the molecular mechanism of HFs regeneration in the Tianzhu white yak remains unclear. RNA editing is a post-transcriptional mechanism that regulates gene expression and produces new transcripts. Hence, we investigated the influence of the A-to-I RNA editing events on the HFs cycle of the Tianzhu white yak. Results We finally identified 54,707 adenosine-to-inosine (A-to-I) RNA editing sites (RESs) from RNA sequencing data of the HFs cycle in the Tianzhu white yak. Annotation results showed RESs caused missense amino acid changes in 7 known genes. And 202 A-to-I editing sites altered 23 target genes of 140 microRNAs. A total of 1,722 differential RESs were identified during the HFs cycle of Tianzhu white yak. GO and KEGG enrichment analysis revealed several signaling pathways and GO terms involved skin development, hair growth, and HFs cycle. Such as genes with differential RNA editing levels were significantly enriched in the peroxisome, metabolic pathways, Notch signaling pathway, and PPAR signaling pathway. Besides, the editing sites in HFs development-related genes FAS, APCDD1, WWOX, MPZL3, RUNX1, KANK2, DCN, DSC2, LEPR, HEPHL1, and PTK2B were suggested as the potential RESs involving HFs development. Conclusion This study investigated the global A-to-I RNA editing events during the HFs cycle of yak skin tissue and expanded the knowledge of A-to-I RNA editing on the HFs cycle. Furthermore, this study revealed that RNA editing-influenced genes may regulate the HFs cycle by participating in the HFs development-related pathways. The findings might provide new insight into the regulation of RNA editing in hair growth.

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Section: Introductionmentioning

confidence: 99%