Journal of Cell Science, Vol 109, Issue 1 155-163, Copyright © 1996 by Company of Biologists

JOURNAL ARTICLES

Coordinated movements between autosomal half-bivalents in crane-fly spermatocytes: evidence that 'stop' signals are sent between partner half-bivalents

B Yin and A Forer
Biology Department, York University, Downsview, Ontario, Canada.

During anaphase-I in crane-fly spermatocytes, sister half-bivalents separate and move to opposite poles. When we irradiate a kinetochore spindle fibre with an ultraviolet microbeam, the associated half-bivalent temporarily stops moving and so does the partner half-bivalent with which it was paired during metaphase. To test whether a 'signal' is transmitted between partner half-bivalents we irradiated the spindle twice, once in the interzone (the region between separating partner half-bivalents) and once in a kinetochore fibre. For both irradiations we used light of wavelength 290 microns and a dose that, after irradiating a spindle fibre only, altered movement in 63% of irradiations (12/19); in 11 of the 12 cells both partner half-bivalents stopped moving after the irradiation. In control experiments we irradiated the interzone only: these irradiations generally did not stop chromosomal poleward motion but sometimes (14/29) caused poleward movement to each pole to be abruptly reduced to about half the velocity prior to irradiation. In double irradiation experiments we varied the order of the irradiations. In some double irradiation experiments we irradiated the interzonal region first and the spindle fibre second; in 75% (9/12) of the cells the half-bivalent associated with the irradiated fibre stopped moving while the partner half-bivalent moved normally, i.e. in 9/12 cells the interzonal irradiations uncoupled the movements of the partner half-bivalents. In other double irradiation experiments we irradiated the spindle fibre first and the interzone second: in 80% (4/5) of the cells the half-bivalents not associated with the irradiated spindle fibre resumed movement immediately after the irradiation while the other half-bivalent remained stopped. Interzonal irradiations therefore uncouple the poleward movements of sister half-bivalents and the uncoupling does not depend on the order of the irradiation. Our experiments suggest therefore that the irradiation of a spindle fibre causes negative ('stop') signals to be transmitted across the interzone and that irradiation of the interzone blocks the transmission of the stop signal.

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