Characterization of a mitotic mutant of durum wheat

Abstract

An ethyl methanesulfonate-induced mitotic mutant of durum wheat (Triticum turgidum L. var. durum; 2n = 4x = 28) was found. We have characterized the mutant to determine the mechanism of abnormal cell division and to test for temperature effects on abnormal cell division. Stained root-tip meristems and pollen mother cells were studied with brightfield, phase contrast, and immunofluorescence microscopy. Abnormal cells included metaphase cells with a multiple of the normal complement (8x = 56, or 16x = 112), multinucleate cells, 4C, 8C, or 16C mononucleate cells, and cells exhibiting incomplete cytokinesis. The mutant had three classes of pollen mother cells: euploid with normal bivalent pairing, multiploid with bivalent pairing, and multiploid with multivalent pairing. Preprophase bands and spindles were normal in mononucleate cells. Some cells had asymmetrical phragmoplasts and phragmoplast dismantling that produced incomplete cytokinesis. Failure of cytokinesis followed by nuclear fusion were the mechanisms of abnormal cell division. To test for temperature sensitivity of the mutant, seedlings were germinated under six different temperature regimes. As germination temperature increased, the frequency of abnormal cells increased. When the mutant was crossed as the female with durum wheat, 3% of hybrids were hexaploid, indicating that functional-unreduced gametes had formed in megaspores.