Proteome study of somatic embryogenesis in Nothapodytes nimmoniana (J. Graham) Mabberly

Somatic embryogenesis (SE) is the most suitable biotechnological tool for the rapid clonal propagation of endangered woody plants, but many bottlenecks limit understanding its molecular and physiological processes in Nothapodytes nimmoniana. Combinations of two-dimensional electrophoresis (2-DE) and mass spectrometry (MaSp) were used to study proteomic expression changes during SE of the forest tree. Callus was induced from mature seed embryos, and embryogenic callus (EC) obtained at very low frequency after about 6 month culture. Globular embryos were induced from the seed embryo-derived EC and the subsequent stages of the SE. Analysis of the extracted proteins from globular, heart/torpedo-shaped, and maturing embryo stages resolved in the 2-DE gels showed increased protein expression across developmental stages of the somatic embryos. The mass spectrometric analysis with database search aided identification of 55 out of 100 and 54 selected protein spots. Identified proteins classified by the cellular role which they perform are involved in aspects of stress responses, energy metabolism, carbon fixation, secondary metabolism, and other metabolic functions, while three proteins are of unknown cellular role. The putative role of the expressed proteins during SE provided insight into the physiology of somatic embryo development in N. nimmoniana.