DNA Strand Scission by Neocarzinostatin and its Relation to the Inhibition of Cell Cycle Traverse and DNA Synthesis
スポンサーリンク
概要
- 論文の詳細を見る
The effect of neocarzinostatin (NCS) on the cell cycle traverse of BHK cells was examined with flow microfluorometry and [<SUP>3</SUP>H]-thymidine incorporation. At a low concentration (1μg/ml) of NCS a large number of cells were arrested at the G<SUB>2</SUB> phase. At a high concentration (10μg/ml) cell cycle traverse from the G<SUB>1</SUB> to the S phase and DNA synthesis in the middle S phase were inhibited.<BR>Chain elongation, strand scission and repair of DNA were determined by alkaline sedimentation analysis. In the presence of 10μg/ml NCS, parental DNA was degraded to the size of the replication unit (1.1×10<SUP>8</SUP>dalton). DNA elongated at most to the size of the replication unit, before the parental DNA was degraded to the same size. DNA strand scission took place even at the low concentration of NCS that induced G<SUB>2</SUB> arrest. The DNA strand scission induced by 10μg/ml NCS was repaired only slightly by 5 h afer the removal of NCS.<BR>A short exposure of cells to NCS was sufficient to cause the inhibition of DNA synthesis and cell cycle traverse, as well as DNA strand scission.
- 日本細胞生物学会の論文
日本細胞生物学会 | 論文
- テトラヒメナにおけるDNA-核膜複合体の研究 (細胞核内小器官の生物学)
- 核小体におけるリボゾ-ムRNA合成の制御 (細胞核内小器官の生物学)
- 細胞分裂とその調節-分裂装置をめぐって (細胞増殖と分化)
- 細胞雑種研究の現状 (細胞融合)
- 浮遊増殖性癌細胞の無血清培養と培地添加アルブミンの役割 (細胞融合)