Abstract

Acetylation and tyrosinization are post-translational modifications of tubulin generally associated, respectively, with highly stable or dynamic microtubule arrays in animals and protists. Little is known of these modifications in land plants, however. We examined the presence and distribution of post-translational tubulin modifications in developing spermatogenous cells of the pteridophyteCeratopteris richardii by immunofluorescence and immunogold, utilizing antibodies specific for acetylated and tyrosinated tubulin. Acetylated tubulin is found in mid to late stage spermatogenous cells in stable microtubule configurations: the spline, flagella, and basal bodies. Tyrosinated tubulin, a modification associated with dynamic microtubule arrays, is also present in these structures as well as all other microtubules in the cell. The lamellar strip of the multilayered structure, a body previously described as tubulin-containing, was not labelled by any of the tubulin antibodies or antiserum. Treatment of cultures with the microtubule stabilizer taxol results in the appearance of new arrays of microtubules, including bundles in the cytoplasm. Only those new taxol-induced microtubule arrays present in mid to late stage cells (i.e., those with other normally acetylated tubulin arrays) have acetylated domains. Younger spermatogenous cells had similar microtubule bundles but no acetylated tubulin. Tyrosinated tubulin was found in all these taxol-stabilized arrays. These data indicate that, although these pteridophyte cells have the ability to acetylate tubulin, that this ability is limited to stages after the final spermatogenous cell mitosis and is limited to the highly stable spline and flagella microtubules.

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