A regulatory model for spindle function during mitosis

Structural information on the mitotic spindle of Saccharomyces cerevisiae obtained from isolated whole mount preparations has shown that the spindle undergoes a two-fold increase in length whilst comprising only a single microtubule continuous between the two spindle pole bodies. Further data from immunofluorescence microscopy on the timing of anaphase B has suggested that microtubules do not directly produce the required force, but instead have a more passive role. Here a regulatory function for spindle microtubules during mitosis is explored and the existence of a non-microtubule force-generating system is postulated. Thus it is suggested that the continuous microtubules govern the velocity of anaphase B by providing a resistive force that is itself regulated by the number of microtubules and their rate of polymerization. On this basis a model for the forces acting on a spindle pole body during anaphase is proposed.