Experession and integration of genes introduced into highly synchronized plant protoplasts

Summary Chimaeric genes containing the chloramphenicol acetyltransferase (CAT) coding sequence were introduced into protoplasts of suspension-cultured tobacco cells using improved conditions of electroporation (Okada et al. 1986). CAT activity became detectable in the protoplasts within 3 h, was maximal during a period of 18–36 h after electroporation, and then declined gradually. Alpha-amanitin added to the medium abolished the transient expression of the CAT gene. The closed circular form of input DNA was as effective as the linear form for the transient expression. The suspension culture was treated with aphidicolin, and S, G₂, M and G₁ phases were identified in the highly synchronized cell cycle obtained by releasing the cells from the inhibition of DNA synthesis. When a chimacric CAT gene was introduced into M phase protoplasts prepared from the synchronized culture, the transient expression of the CAT gene was 3–4 times higher than when it was introduced into protoplasts of other cell cycle phases. The frequency of stable transformation with a chimaeric neomycin phosphotransferase II gene was studied using the same system. G-418-resistant transformants were obtained from M phase protoplasts at frequencies 2–8 times those obtained from protoplasts at other cell cycle phases. The results indicate that the absence of the nuclear membrane in mitotic cells favours delivery to the nucleus of exogenous DNA introduced into the cytoplasm.