Induction of microspore embryogenesis in Brassica napus L. is accompanied by specific changes in protein synthesis

Culture temperature determines the developmental fate of isolated microspores from Brassica napus L. At 18°C, tricellular pollen develops, whereas culture at 32°C for 8 h leads to the quantitative and synchronous induction of embryogenesis, and ultimately to the formation of embryos. We investigated the changes in protein synthesis that are associated with this 8-h inductive period by using in-situ [³⁵S]methionine labeling, followed by two-dimensional (2-D) gel electrophoretic analysis of the radiolabeled proteins. Qualitative and quantitative computer analyses of 2-D [³⁵S]methionine protein patterns showed six polypeptides specifically labeled under embryogenic culture conditions. Eighteen polypeptides incorporated [³⁵S]methionine at a statistically significant higher rate under embryogenic culture conditions (32°C) than in the controls (18°C), whereas one protein was preferentially labeled under non-embryogenic culture conditions (18°C). These results indicate that only a limited number of proteins detectable in the 2-D gels of microspore extracts are associated with the early induction of embryogenesis. The reproducible identification of the differentially radiolabeled proteins in the 2-D gels allow the sequencing of representative peptides and the isolation of the corresponding cDNAs. This may lead to the identification and characterization of proteins associated with the very first stages of plant embryogenesis.Abbreviations 2-D two-dimensionalWe would like to thank Dr. H. Van Steeg (Rijks Instituut voor Milieubeheer (RIVM), Bilthoven, The Netherlands) for use of the PhosphorImager apparatus. This research was carried out as part of the EC-Bridge project Regulation of the inductive phase of microspore embryogenesis and EC-Science project The role of mitotic and cytoskeletal genes in the induction of plant cell division.