d‐glufosinate as a male sterility agent for hybrid seed production

A chemical male sterility system based on anther‐localized conversion of the inactive d ‐enantiomer of the herbicide, glufosinate (2‐amino‐4‐(methylphosphinyl)‐butanoate) to the phytotoxic l is described. Highly pure d ‐glufosinate was isolated in >98% enantiomeric excess from the racemate via fermentation with a strain of Escherichia coli expressing the PAT (l ‐glufosinate N‐acetyl transferase) gene and purification of the unreacted d ‐enantiomer from the broth by ion exchange. A modified (F58K, M213S) form of the d ‐amino acid oxidase (DAAO) (EC 1.4.3.3) from Rhodosporidium toruloides was designed, tested in vitro and found to efficiently oxidize d ‐glufosinate to its 2‐oxo derivative 2‐oxo‐4‐(methylphosphinyl)‐butanoic acid]. Tobacco (Nicotiana tabacum) plants were transformed to express this modified oxidase under control of the TAP1 tapetum‐specific promoter. A number of the resultant transgenic lines exhibited complete male sterility that persisted for two or more weeks immediately following foliar treatment with 75 or 200 g/ha of d ‐glufosinate without exhibiting obvious phytotoxic symptoms or any measurable decline in female fertility. Similarly, plants containing the same construct and, additionally, a PAT gene expressed from a plastocyanin promoter exhibited significantly reduced male fertility and no reduction in female fertility following foliar application of racemic glufosinate. Thus, foliar application of d ‐glufosinate either purified or as the commercial herbicide, combined with anther expression of a modified DAAO promises to provide a cost‐effective conditional chemical male sterility system with the characteristics necessary for practical F₁ hybrid seed production.