Cell-free system is interesting and useful for studying nuclear assembly in mitosis. Atomic force micro- scopy (AFM), which is a simple way for imaging fixed reas-semble nuclei with high resolution, has not been used ...Cell-free system is interesting and useful for studying nuclear assembly in mitosis. Atomic force micro- scopy (AFM), which is a simple way for imaging fixed reas-semble nuclei with high resolution, has not been used in the cell-free system. In this paper, we put forward an air-drying sample preparation for AFM. Using AFM, we observed nu-clear reassembly process within 100 nm resolution in a cell-free system. As a result, we found that the images were artifact-free, and with higher resolution compared with fluo-rescent optical microscope images. Furthermore, the mor-phology of membrane vesicles was obtained clearly, and a dynamic change of morphology during the vesicles?ap-proaching to nuclear envelope was also observed, which is enlightened to understand the mechanism of nuclear enve-lope assembly.展开更多
基金supported by the National Natural Science Foundation of China(Grant Nos.19890380 and 30070388)the Special Funds for the Major State Bask Research of China(Grant No.G19990539).
文摘Cell-free system is interesting and useful for studying nuclear assembly in mitosis. Atomic force micro- scopy (AFM), which is a simple way for imaging fixed reas-semble nuclei with high resolution, has not been used in the cell-free system. In this paper, we put forward an air-drying sample preparation for AFM. Using AFM, we observed nu-clear reassembly process within 100 nm resolution in a cell-free system. As a result, we found that the images were artifact-free, and with higher resolution compared with fluo-rescent optical microscope images. Furthermore, the mor-phology of membrane vesicles was obtained clearly, and a dynamic change of morphology during the vesicles?ap-proaching to nuclear envelope was also observed, which is enlightened to understand the mechanism of nuclear enve-lope assembly.
