Kinetochore behavior during generative cell division inTradescantia virginiana

Abstract

Previous observations indicate that division of the generative cell inTradescantia virginiana is characterized by several unusual features, including persistence of surrounding microtubule (Mt) bundles during karyokinesis, lack of a distinct metaphase plate and direct contribution by mitotic Mts to the cytoskeleton of young sperm. We have further probed karyokinesis in these cells using additional antitubulin and chromosome staining, as well as kinetochore visualizations with CREST serum. The CREST antibodies reveal kinetochores as paired and single fluorescent dots similar to those seen in other species stained with this preparation. Double localizations show that the dots are located at the ends of Mt bundles previously identified as kinetochore fibers (Palevitz and Cresti 1989). Before anaphase, paired kinetochores are distributed along the length of the cell. They also tend to be located at the cell periphery or are directly connected to peripheral Mt bundles by their kinetochore (K)-fibers. Twelve pairs of dots can be counted per cell, equal to the expected number of chromosomes. During anaphase, kinetochore separation starts at various positions along the length of the cell, producing single, relatively uniformly distributed kinetochores in the crotches of forks formed by K-fiber trunks and elongating Mt branches attached to the base of the trunks. Eventually, K-fibers with attached kinetochores aggregate in stepwise fashion on thick Mt bundles at both ends of the cell. This pattern is reflected in the cytoskeleton of young sperm. These results further document the unusual distribution of chromosomes and kinetochores inTradescantia generative cells and the origin of the Mt cytoskeleton in sperm cells.