从中国仓鼠细胞中释放的DNA的沉降。
Sedimentation of DNA released from Chinese hamster cells.
作者信息
Elkind M M
出版信息
Biophys J. 1971 Jun;11(6):502-20. doi: 10.1016/S0006-3495(71)86231-8.
Under high pH and high salt conditions, Chinese hamster cells lyse and release a DNA-containing material of large molecular weight. With increasing lysis time, a smaller material is resolved from the large one. Relative to T4 DNA, the smaller is estimated to be approximately 2 x 10(8) daltons (number average). From a comparison of radiation data, the target size of the larger is about 15 times that of the smaller (probably a lower limit estimate). In addition to concentration of alkali, temperature, and time of lysis, the resolution of the smaller from the larger material is shown to be affected by other factors. Three of these are: fluorescent light exposure during lysis, X-irradiation before lysis, and incorporation of actinomycin D before lysis. All of these treatments result in degradation of the smaller molecules if large enough exposures are used. The sedimentation patterns of both DNA materials are strongly speed dependent. This probably results from changes in molecular conformation and concomitant increases in viscous drag with speed. The speed dependence differs qualitatively for the two materials, an observation which suggests that they differ in ways in addition to size.
在高pH值和高盐条件下,中国仓鼠细胞会裂解并释放出一种含有大分子质量DNA的物质。随着裂解时间的增加,一种较小的物质从较大的物质中分离出来。相对于T4 DNA,较小的物质估计约为2×10⁸道尔顿(数均分子量)。通过对辐射数据的比较,较大物质的靶标大小约为较小物质的15倍(可能是下限估计)。除了碱浓度、温度和裂解时间外,较小物质从较大物质中的分离还受其他因素影响。其中三个因素是:裂解过程中的荧光暴露、裂解前的X射线照射以及裂解前放线菌素D的掺入。如果使用足够大的暴露量,所有这些处理都会导致较小分子的降解。两种DNA物质的沉降模式都强烈依赖于速度。这可能是由于分子构象的变化以及随之而来因速度增加导致的粘性阻力增加。两种物质的速度依赖性在性质上有所不同,这一观察结果表明它们除了大小之外在其他方面也存在差异。
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