[
WormBook,
2005]
In C. elegans, the germ line is set apart from the soma early in embryogenesis. Several important themes have emerged in specifying and guiding the development of the nascent germ line. At early stages, the germline blastomeres are maintained in a transcriptionally silent state by the transcriptional repressor PIE-1 . When this silencing is lifted, it is postulated that correct patterns of germline gene expression are controlled, at least in part, by MES-mediated regulation of chromatin state. Accompanying transcriptional regulation by PIE-1 and the MES proteins, RNA metabolism in germ cells is likely to be regulated by perinuclear RNA-rich cytoplasmic granules, termed P granules. This chapter discusses the molecular nature and possible roles of these various germline regulators, and describes a recently discovered mechanism to protect somatic cells from following a germline fate.
[
Results Probl Cell Differ,
1992]
Nematodes were first used to study embryogenesis more than 100 years ago, and this in part led to the concepts of cell-autonomous differentiation and localized cytoplasmic determinants. More recently, the techniques of genetics, experimental and descriptive embryology, and molecular biology have been combined to study the development of the small, free-living nematode Caenorhabditis elegans (Brenner 1974, 1988. This chapter focuses on embryonic development and is intended as a general overview of C. elegans embryogenesis, illustrating the experimental techniques available for this organism and the conclusions that can be drawn. Excellent reviews on postembryonic development (i.e. after hatching) in C. elegans and most other aspects of the worm's development, genetics and biology can be found in Wood (1988a). This book includes extensive appendices detailing techniques and anatomy and includes phenotypic descriptions of all mutants known at the time of publication. Other reviews of C. elegans embryogenesis can be found in Kemphues (1989), Wood (1988b), Schierenberg (1989) and Strome (1989).