The effects of bovine serum albumin (BSA) lot and breed on in vitro development of early porcine embryos in modified Whitten's medium

Abstract

Bovine embryos developed in vivo from the first to the fourth post-fertilization cell cycles were processed for ultrastructural autoradiography after incubation with 3H-uridine for 10 h. We wished to detect and localize transcriptional activity. During the first (1-cell stage) and second (2-cell stage) cell cycles we observed electron-dense fibrillar spheres (nucleolus precursor bodies) and fibrillo-granular complexes in the nuclei. During these cell cycles, autoradiographic labeling was observed in heterochromatic areas and at the periphery of the fibrillo-granular complexes. During the third cell cycle (4-cell stage) the electron dense fibrillar spheres exhibited vacuolization. Autoradiographic labeling was found in heterochromatic areas and in the vacuoles of the fibrillar spheres. During the fourth cell cycle (8-cell stage), the electron dense fibrillar spheres exhibited both a large eccentric vacuole and peripheral smaller vacuoles. Autoradiographic labeling was found in heterochromatic areas throughout the nucleus and over the substance of the vacuolated fibrillar spheres, especially where chromatin penetrated into them and where presumptive fibrillar centers were formed. In conclusion, a low level of transcription can be detected in in vivo developed bovine embryos as early as the one-cell stage. Moreover, nuclear entities that probably prepare for nucleolus formation during the fourth cell cycle, display a progressive autoradiographic labeling that signals a possible initiation of transcription of the ribosomal RNA genes during the third cell cycle.