The transition from maternal to embryonic control in the 2-cell mouse embryo.

Abstract

The development of the early 2‐cell mouse embryo to the late 2‐cell stage is marked by the appearance between 23 and 26 h post‐insemination of a complex of polypeptides of mol. wt. approximately 67 K. Addition of alpha‐amanitin between 18 and 21 h post‐insemination prevents or reduces the subsequent appearance of these polypeptides. Addition of alpha‐amanitin after 21 h does not obviously affect the appearance of the approximately 67 K polypeptides. A major change in synthetic profile occurs between 29 and 32 h post‐insemination involving many polypeptides. Addition of alpha‐amanitin to 2‐cell embryos prior to 29 h post‐insemination prevents the appearance of the new polypeptides observed during this major change but does not prevent the disappearance of the old polypeptides. In contrast, addition of alpha‐amanitin after this time does not affect the appearance of the new polypeptides. This result, together with other evidence presented, suggests that during the 2‐cell stage the embryonic genome shows transcriptional activity in two phases at 18‐21 and 26‐29 h post‐insemination, that these transcripts are utilized soon after their synthesis, and that most maternal transcripts used before the second phase of embryonic transcription become ineffective soon afterwards.