Spline and flagellar microtubules are resistant to mitotic disrupter herbicides

Abstract

Microtubule arrays in developing spermatogenous cells of pteridophytes have unique microtubule organizing centers and post-translation modifications of tubulin. Sensitivity of these arrays to the microtubule-destabilizing effects of the mitotic disrupter herbicides was examined by immunofluorescence, transmission and immunogold electron microscopy. Acetylated, stabilized arrays, such as the spline, and microtubules of the basal bodies and flagella are formed after the final mitotic division and are resistant to these herbicides. Non-acetylated, dynamic arrays that exist prior to the final mitosis, such as interphase and mitotic arrays, are eliminated by all of these herbicides, with symptomology (arrested prometaphase, lobed nuclei, irregular cell plate formation) similar to that observed in other land plants. The only exception to the instability of these mitotic microtubule arrays are the few microtubules that are collected by kinetochores into short tufts. The presence of structurally-distinguishable MTOCs, such as the blepharoplast, did not confer resistance, despite the anchoring of the minus ends of the microtubules. Simultaneous treatment with herbicide and 5-bromodeoxyuridine (BrdU), with subsequent detection with anti-BrdU of cells that had gone through S-phase during the BrdU incubation, reveals that only acetylated arrays formed prior to herbicide treatment are resistant. These data indicate that only actively polymerizing, dynamic microtubule arrays are sensitive to the destabilizing effects of the mitotic disrupter herbicides.