Pu Kai-Ming, Akamatsu Matthew, Pollard Thomas D
J Cell Sci. 2015 Feb 1;128(3):441-6. doi: 10.1242/jcs.160077.
In the fission yeast Schizosaccharomyces pombe, cortical protein structures called interphase nodes help to prepare the cell for cytokinesis by positioning precursors of the cytokinetic contractile ring, and the septation initiation network (SIN) regulates the onset of cytokinesis and septum formation. Previous work has noted that one type of interphase node disappears during mitosis providing SIN activity is high. Here, we used time-lapse fluorescence microscopy to provide evidence that SIN activity is necessary and sufficient to disperse the type 1 node proteins Cdr2p and Mid1p into the cytoplasm, so these nodes assemble only during interphase through early mitosis when SIN activity is low. Activating the SIN in interphase cells dispersed Cdr2p and anillin Mid1p from type 1 nodes a few min after the SIN kinase Cdc7p–GFP accumulated at spindle pole bodies. If the SIN was then turned off in interphase cells, Cdr2p and Mid1p reappeared in nodes in parallel with the decline in SIN activity. Hyperactivating SIN during mitosis dispersed type 1 nodes earlier than normal, and prolonged SIN activation prevented nodes from reforming at the end of mitosis.
在裂殖酵母粟酒裂殖酵母中,一种名为间期节点的皮质蛋白结构通过定位胞质分裂收缩环的前体来帮助细胞为胞质分裂做准备,而隔膜起始网络(SIN)则调节胞质分裂和隔膜形成的起始。先前的研究指出,在有丝分裂期间,如果SIN活性较高,一种间期节点会消失。在这里,我们使用延时荧光显微镜提供证据表明,SIN活性对于将1型节点蛋白Cdr2p和Mid1p分散到细胞质中是必要且充分的,因此这些节点仅在间期到有丝分裂早期SIN活性较低时组装。在间期细胞中激活SIN后,在SIN激酶Cdc7p–GFP在纺锤极体积累几分钟后,Cdr2p和膜联蛋白Mid1p从1型节点分散开来。如果随后在间期细胞中关闭SIN,Cdr2p和Mid1p会随着SIN活性的下降而重新出现在节点中。在有丝分裂期间过度激活SIN会比正常情况更早地分散1型节点,并且延长SIN激活会阻止节点在有丝分裂末期重新形成。