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Loss of WTAP Impairs Early Parthenogenetic Embryo Development.

Animals : an open access journal from MDPI (2021-07-03)
Jindong Hao, Siyi Huang, Dongxu Wang, Yongxun Jin, Mingjun Zhang, Jiabao Zhang, Xianfeng Yu
ABSTRACT

m6A is one of the most common and abundant modifications of RNA molecules present in eukaryotes. The methyltransferase complex, consisting of methyltransferase-like 3 (METTL3), METTL14, and WTAP, is responsible for the m6A modification of RNA. WTAP was identified as an mRNA splicing regulator. Its role as a regulatory subunit of the m6A methyltransferase complex in embryonic development remains largely unknown. To investigate the role of WTAP in porcine early embryonic development, si-WTAP was microinjected into porcine parthenogenetic zygotes. WTAP knockdown significantly reduced the blastocyst rate and global m6A levels, but did not affect the cleavage rate. Betaine was supplemented into the in vitro culture (IVC) to increase the m6A levels. Betaine significantly increased the global m6A levels but did not affect the blastocyst rate. Furthermore, the pluripotency genes, including OCT4, SOX2, and NANOG, were downregulated following WTAP knockdown. The apoptotic genes BAX and CASPASE 3 were upregulated, while the anti-apoptotic gene BCL2 was downregulated in WTAP knockdown blastocysts. TUNEL staining revealed that the number of apoptotic cells was significantly increased following WTAP knockdown. Our study indicated that WTAP has an indispensable role in porcine early embryonic development.

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Sigma-Aldrich
Betaine, ≥98% (perchloric acid titration)