Cremart: A new chemical for efficient induction of micronuclei in cells and protoplasts for partial genome transfer.

Results on efficient induction of micronuclei by Cremart in suspension cells and protoplasts of potato are reported. Cremart is a highly effective phosphoric amide herbicide, which acts on the mitotic spindle, and induces micronuclei through modification of mitosis. After treatment with Cremart, metaphase chromosomes changed directly into micronuclei without centromere division and chromatid separation. When suspension cells were treated with Cremart (3.7-15.0 µM) for 48h, and subsequently incubated in a mixture of cell wall-digesting enzymes in the presence of cytochalasin-B and Cremart for 18h, the frequency of micronucleation in the cell/protoplast mixture increased significantly, as compared to that obtained after treatment of suspension cells with Cremart (3.7-15.0 µM) for 48 h. Sieving after enzyme incubation resulted in the recovery of protoplasts, showing mass induction of micronuclei. Also synchronized suspension cells of Nicotiana plumbaginifolia responded with high frequency of micronucleation after Cremart (3.7 µM) treatment. The application of this procedure for partial genome transfer is discussed.

Asymmetric hybridization in Nicotiana by "gamma fusion" and progeny analysis of self-fertile hybrids.

Mesophyll protoplasts of the nitrate-reductase (NR)-deficient Nicotiana plumbaginifolia mutant, "Nia26", were fused with γ-irradiated mesophyll protoplasts of Nicotiana sylvestris, V-42. Hybrid selection was based on complementation of NR deficiency by transfer of the donor NR gene to N. plumbaginifolia. Regenerated hybrids had different numbers of donor chromosomes in a tetraploid background of N. plumbaginifolia. The transfer and expression of different isozymes from the donor were also observed. Six self-fertile regenerants were obtained from 21 independently isolated cell colonies. Progeny analyses revealed: (1) the linkage of NR and shikimate dehydrogenase (ShDh); (2) a stabilization of the transmission rate of NR; and (3) the obtainment of mono- and disomic addition lines in the first and second progeny of the original regenerants. Southern hybridization analyses demonstrated unequivocally the presence of the NR gene from the donor partner in progeny plants.