[
Methods Cell Biol,
2012]
This chapter is an update of the previously published book chapter "Correlative Light and Electron Microscopy of Early C. elegans Embryos in Mitosis" (Muller-Reichert, Srayko, Hyman, O'Toole, & McDonald, 2007). Here, we have adapted and improved the protocol for the isolated meiotic embryos, which was necessary to meet the specific challenges a researcher faces while investigating the development of very early Caenorhabditis elegans embryos ex-utero. Due to the incompleteness of the eggshell assembly, the meiotic embryo is very fragile and much more susceptible to changes in the environmental conditions than the mitotic ones. To avoid phototoxicity associated with wide-field UV illumination, we stage the meiotic embryos primarily using transmitted visible light. Throughout the staging and high-pressure freezing, we incubate samples in an isotonic embryo buffer. The ex-utero approach allows precise tracking of the developmental events in isolated meiotic embryos, thus facilitating the comparison of structural features between wild-type and mutant or RNAi-treated samples.
[
Methods Cell Biol,
2019]
We describe a routine method to locate cells of appropriate meiotic stages in the gonad of Caenorhabditis elegans males prior to 3D reconstruction of meiotic spindles by electron tomography. For this, serial semi-thick (300nm) sections of whole worms are pre-screened and recorded at low magnification by transmission electron microscopy. Cells of interest are identified in aligned image stacks showing the entire proximal region of male gonads at low magnification. Tilt series of selected cells are then recorded at higher magnification to reconstruct meiotic spindles of selected cells in 3D. Our approach allows a routine staging of spermatocytes without the use of anesthetics or the application of physical immobilization of worms. We also describe a modification of a previously published protocol (Muller-Reichert, Srayko, Hyman, O'Toole, & McDonald, 2007) by using polyvinylpyrrolidone (PVP) instead of bovine serum albumin (BSA) as a "filler" for specimen loading in high-pressure freezing.