Malorientation in half-bivalents at anaphase in crane fly spermatocytes following Colcemid treatment.

Addition of Colcemid to the medium in which larvae of the crane fly Nephrotoma suturalis are cultivated induces a number of anomalous patterns of chromosome segregation. One of these is the anaphase lagging of autosomal half-bivalents. To investigate the cause of anaphase lagging, the orientation of sister kinetochores in Colcemid-treated spermatocytes having lagging half-bivalents was analyzed in serial sections. In contrast to nonlaggard half-bivalents that had pure syntelic orientation (sister kinetochores having all of their kinetochores microtubules (KMTs) extending to the same pole), six of the seven autosomal laggards that were selected for analysis had kinetochores with either amphitelic orientation (sister kinetochores each with a bundle of KMTs extending to opposite poles) or merotelic orientation (a single kinetochore having KMTs extending toward both poles). An additional laggard had syntelic orientation but two of the microtubules that were in its kinetochore fiber passed through the kinetochore and extended beyond it toward the equator. The bipolar malorientations observed in anaphase half-bivalents are interpreted to be a cause of the anaphase lagging induced by Colcemid treatment. Furthermore, it is hypothesized that such bipolar malorientations also may be stabilized at metaphase and thus explain the unusual tilting of metaphase bivalents commonly observed in Colcemid-treated cells.