Determination of developmental stage to obtain high frequencies of embryogenic microspores in Brassica napus

Abstract

Individual buds of Brassica napus cv. Topas, near the first pollen mitosis, were used for microspore culture. Bud and petal lengths were recorded. Microspores isolated from the individual buds were plated and small samples were fixed for cytology. Following embryo induction and three weeks of culturing, numbers of embryos were scored. Bud and petal lengths did not accurately indicate which buds would supply microspores that would form embryos at high frequencies. Fluorescence microscopy was used to examine nuclei stained with Hoechst 33258 and vacuolar morphology of microspores was revealed by the weaker fluorescence due to glutaraldehyde fixation. Following isolation, nuclear and vacuolar characteristics were used to stage the microspores as miduninucleate, late uninucleate vacuolate, late uninucleate, mitotic, or binucleate. The relationship of developmental stage to the frequency of microspore‐derived embryos was evaluated. A classification scheme was developed which uses the relative proportions of microspores at each of the stages to identify microspore isolations that would form embryos at high frequencies. It was found that when 1 to 87% of the isolated microspores were binucleate, 21.4 ± 3.0% of the viable microspores developed into embryos. This was a significant (P < 0.001) increase over the other 3 classes. The ability to select highly embryogenic microspore isolations is of great advantage for developmental cell biology studies.