Abstract
Full-grown Xenopus laevis oocytes were incubated in NaHCO 3 buffer equilibrated with carbon dioxide (5 to 100%). Germinal vesicle breakdown never occurred in spite of the appearance of the characteristic white spot at the animal pole. The effect of carbon dioxide was analyzed during progesterone-induced maturation. Carbon dioxide did not inhibit the early steps of maturation whereas it inhibited germinal vesicle breakdown even when applied 4 hr after the initial hormonal trigger. When oocytes were treated transiently in NaHCO 3 buffer equilibrated with carbon dioxide and further incubated in Tris buffer, drastic delay in the kinetic of germinal vesicle breakdown was observed. Inhibition of progesterone-induced maturation by carbon dioxide treatment is coincident with the time of maturation promoting factor appearance (MPF). On the basis of microinjection experiments of MPF into recipient oocytes, it was also shown that MPF expression is not inhibited by carbon dioxide and thus indicates that the late phase of MPF formation and/or MPF amplification is a carbon dioxide-sensitive period.
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