Glucosinolates Determined by HPLC in the Seeds of Microspore‐Derived Homozygous Lines of Rapeseed (Brassica napus L.)*

Microspore culture was employed to measure the relative efficiencies of anther culture and isolated microspore culture for the regeneration of embryoids and plants of Brassica napus. The yield of embryoids and plants was at least 10-fold greater from isolated microspores than from anther cultures. Approximately 1400 microspore-derived homozygous line's, the parental varieties and the corresponding F2 plants were grown in a field trial. Important agricultural characteristics, such as morphological homogeneity, growth rate, onset of flowering and seed setting were evaluated subjectively and seed yield and glucosinolate content of individual plants were determined. The relative concentrations of up to S different glucosinolates in these seeds were measured via an automated high performance liquid chromatography (HPLC) system. The alkenyl and indole glucosinolates, the two most important categories of glucosinolates, were found in varying proportions and were independently determined in these line's. Our results do not support the previously suggested connection between low concentrations of glucosinolates and weak growth and/or poor seed yield. Additionally, no evidence was found that the lines derived from isolated microspore culture were subjected to unexpected selection pressures that might adversely affect the diversity of the lines obtained. These results demonstrate that microspore culture is a powerful tool not only for genetic analysis bur also for practical plant breeding.