The origin and organization of cortical microtubules during the transition between M and G1 phases of the cell cycle as observed in highly synchronized cells of tobacco BY-2

Abstract

The organization of microtubules (MTs) during the transition from the M phase to the G1 phase of the cell cycle was followed in highly synchronized suspension-cultured cells ofNicotiana tabacum L. (tobacco BY-2) by sequential treatment of cells with aphidicolin and propyzamide. Short MTs were first formed in the perinuclear regions at the expense of phragmoplasts, but when these short MTs elongated to reach the cell cortex, they grew parallel to the long axis and towards the distal end of the cells. As soon as, or shortly before the tips of elongated MTs reached the distal end, transverse cortical MTs were formed in the region proximal to the division plane. Thereafter, almost all cells retained cortical MTs which were transversely orientated to the long axis of cells and could be observed in the G1 phase. Thus, in the organization of cortical MTs, there are two steps that have been overlooked thus far. This novel observation provides a new scheme for the organization of cortical MTs, which could unify two contrasting hypotheses, i.e. organization in the perinuclear regions versus that in the cell cortex. These observations are discussed in relation to the microtubule-organizing center of plant cells.