| Literature DB >> 31139846 |
Huiying Zou1,2, Dawei Yu3, Xuguang Du2, Jing Wang2, Lei Chen4, Yangyang Wang1, Huitao Xu1, Yunxuan Zhao3, Shanjiang Zhao1, Yunwei Pang1, Yan Liu1, Haisheng Hao1, Xueming Zhao1, Weihua Du1, Yunping Dai2, Ning Li2, Sen Wu5,6, Huabin Zhu7.
Abstract
Dosage compensation, which is achieved by X-chromosome inactivation (XCI) in female mammals, ensures balanced X-linked gene expression levels between the sexes. Although eutherian mammals commonly display random XCI in embryonic and adult tissues, imprinted XCI has also been identified in extraembryonic tissues of mouse, rat, and cow. Little is known about XCI in pigs. Here, we sequenced the porcine XIST gene and identified an insertion/deletion mutation between Asian- and Western-origin pig breeds. Allele-specific analysis revealed biallelic XIST expression in porcine ICSI blastocysts. To investigate the XCI pattern in porcine placentas, we performed allele-specific RNA sequencing analysis on individuals from reciprocal crosses between Duroc and Rongchang pigs. Our results were the first to reveal that random XCI occurs in the placentas of pigs. Next, we investigated the H3K27me3 histone pattern in porcine blastocysts, showing that only 17-31.8% cells have attained XCI. The hypomethylation status of an important XIST DMR (differentially methylated region) in gametes and early embryos demonstrated that no methylation is pre-deposited on XIST in pigs. Our findings reveal that the XCI regulation mechanism in pigs is different from that in mice and highlight the importance of further study of the mechanisms regulating XCI during early porcine embryo development.Entities:
Keywords: Biallelic XIST expression; Duroc and Rongchang hybrids; No imprinted XIST expression; Pig; Random XCI; SNPs
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Year: 2019 PMID: 31139846 DOI: 10.1007/s00018-019-03123-3
Source DB: PubMed Journal: Cell Mol Life Sci ISSN: 1420-682X Impact factor: 9.261