Beridze T G, Bragvadze G P
Mol Biol (Mosk). 1976 Nov-Dec;10(6):1279-89.
Nuclear DNA components of Ph. vulgaris were preparatively separated by equilibrium ultracentrifugation in Hg++-Cs2SO4 density gradient (buoyant density of the major component in CsCl density gradient 1.694 g/cm3., satellite component--1.703 g/cm3). The properties of individual DNA fractions were investigated. The melting curve of satellite DNA of Ph. vulgaris has biphasic character. The observed heterogeneity of satellite DNA component is of intermolecular nature. This is illustrated by the splitting of unsheared satellite DNA into two components during renaturation, as well as by its behaviour in Hg++-Cs2SO4 density gradient at high rf value. The width of satellite DNA reassociation curve covers three decades of Cot. The length of the major repeating sequences of the satellite component is close to the length of phage T2 DNA. During chromatography on MAK column satellite DNA elutes earlier than the major component due to its higher GC-content. It is suggested that one of the satellite DNA fractions of Ph. vulgaris contains rRNA genes.
通过在Hg++-Cs2SO4密度梯度中进行平衡超速离心,对菜豆的核DNA成分进行了制备性分离(在CsCl密度梯度中主要成分的浮力密度为1.694 g/cm3,卫星成分——1.703 g/cm3)。研究了各个DNA组分的性质。菜豆卫星DNA的解链曲线具有双相特征。观察到的卫星DNA成分的异质性是分子间性质的。这通过未剪切的卫星DNA在复性过程中分裂成两个成分以及其在高rf值下在Hg++-Cs2SO4密度梯度中的行为得到说明。卫星DNA重缔合曲线的宽度涵盖了三个数量级的Cot。卫星成分的主要重复序列的长度接近噬菌体T2 DNA的长度。在MAK柱上进行色谱分析时,卫星DNA由于其较高的GC含量而比主要成分更早洗脱。有人提出菜豆的一种卫星DNA组分含有rRNA基因。