Does genome size in Dasypyrum villosum vary with fruit colour?

Dasypyrum villosum (2n=14), a Mediterranean grass species of the Triticeae, exhibits intraindividual fruit colour polymorphism from pale yellow to almost black. Several studies have reported differences between the plants emerging from pale and dark fruits. They include histone content in root meristem nuclei, cell cycle duration, heterochromatin banding pattern, frequency of a tandemly repeated sequence, and nuclear genome size. In the present study, we examine whether the reports of genome size being up to 1.24-fold larger in seedlings from the lighter caryopses are reproducible. In all, 29 accessions from various countries, totaling 186 plants, were investigated for genome size using flow cytometry with propidium iodide as the DNA stain. Individuals differed 1.12-fold at most and accessions 1.07-fold. The mean genome size (1C-value) was 5.07 pg or 4954 Mbp. Within-accession comparisons of seedlings derived from light and dark caryopses were insignificant (P>0.100). Thus, we found no evidence for a modificatory genome size plasticity in D. villosum. In the light of our data, the previously reported genome size variation, up to 1.66-fold within populations and 1.67-fold between populations, appears unrealistically high. Suboptimal technical procedures for quantitative Feulgen staining are probably responsible for these earlier observations.

Application of an optical immersion-gel in a flow cytometer with horizontally oriented objective.

In certain flow cytometry systems, it is desirable to use immersion optics to obtain optimum fluorescence yield. This is important when propidium iodide and other DNA fluorochromes are used that have weaker fluorescence emission compared to DAPI, when a lamp is used instead of a laser and when the DNA concentrations are low. Our Partec PA II with a horizontally oriented objective and a vertically oriented flow chamber precludes using a liquid immersion medium. The problem was solved using an optical gel with appropriate characteristics. This gel is commercially available and commonly used for connecting glass fiber cables, but has never been used for microscopy before. Compared to the manufacturer's objective (40 x, aperture 0.8), the fluorescence yield was improved approximately four-fold using the optical gel and a 40 x glycerol objective (aperture 1.25). This innovation widens the applicability of flow cytometers with horizontally oriented objectives and vertical flow chambers. We expect it to facilitate the use of propidium iodide as a DNA stain, especially when interspecific genome size comparisons are to be done and base ratio dependent bias must be avoided.