The molecular mechanism by which sperm triggers Ca 2C oscillation, oocyte activation, and early embryonic development has not been clarified. Recently, oocyte activation has been shown to be induced by sperm-specific phospholipase Cz (PLCz). The ability of PLCz to induce oocyte activation is highly conserved across vertebrates. In the present study, porcine PLCz cDNA was identified and the nucleotide sequence was determined. The expression pattern of porcine PLCz mRNA during the period of postnatal testicular development was shown to be similar to that of mouse PLCz. PLCz mRNA expression in the pig and mouse was detected only in the testes when the elongated spermatids had differentiated, and was detected from day 96 after birth in the pig. Histological examination of porcine testis during the period of postnatal development revealed the presence of spermatozoa from day 110 after birth. These findings suggest that the synthesis of PLCz mRNA starts when spermiogenesis is initiated. Microinjection of porcine PLCz complementary RNA into porcine oocytes demonstrated that porcine PLCz has the ability to trigger repetitive Ca 2C transients in porcine oocytes similar to that observed during fertilization. It was also found that porcine PLCz cRNA has the potential to induce oocyte activation and initiate embryonic development up to the blastocyst stage.
Background: Orexin plays a central role in the integration of sleep/wake states and feeding behaviors. Results: Orexin neurons were induced from pluripotent stem cells by supplementation of ManNAc. Conclusion: ManNAc induced switching of epigenetic factors from Sirt1/Ogt to Mgea5 at Hcrt gene locus. Significance: This study will be useful to investigate molecular mechanism in the orexin system and development of regenerative medicine.
We report here newly discovered O-linked-N-acetylglucosamine (O-GlcNAc) modification of histone H2A at Ser40 (H2AS40Gc). The mouse genome contains 18 H2A isoforms, of which 13 have Ser40 and the other five have Ala40. The combination of production of monoclonal antibody and mass spectrometric analyses with reverse-phase (RP)-high performance liquid chromatography (HPLC) fractionation indicated that the O-GlcNAcylation is specific to the Ser40 isoforms. The H2AS40Gc site is in the L1 loop structure where two H2A molecules interact in the nucleosome. Targets of H2AS40Gc are distributed genome-wide and are dramatically changed during the process of differentiation in mouse trophoblast stem cells. In addition to the mouse, H2AS40Gc was also detected in humans, macaques and cows, whereas non-mammalian species possessing only the Ala40 isoforms, such as silkworms, zebrafish and Xenopus showed no signal. Genome database surveys revealed that Ser40 isoforms of H2A emerged in Marsupialia and persisted thereafter in mammals. We propose that the emergence of H2A Ser40 and its O-GlcNAcylation linked a genetic event to genome-wide epigenetic events that correlate with the evolution of placental animals.
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