大鼠老化过程大脑皮层细胞核、染色质转录研究

 本实验对不同鼠龄(4—,16—17—,33—34—和99—103周)大鼠老化动物模型进行脑细胞核、染色质体外转录研究,结果表明:(1)大脑皮层细胞核、染色质转录活性在老化过程中呈下降趋势,其中RNA聚合酶Ⅰ、Ⅱ活性与染色质模板效率变化一致,说明染色质模板活性降低是导致细胞核转录功能减退的原因之一。(2)幼年鼠染色质RNA和NHCP含量高于老年鼠,提示染色质结合蛋白及RNA可能参与不同生理时期脑神经元染色质结构和功能的调节。(3)老年鼠脑染色质DNA抗DN-aseⅠ酶解能力增强,提示衰老导致转录活性染色质区域减少。     

Further studies on the diurnal rhythm of uridine incorporation into RNA in the long-day duckweed, Lemna gibba G3

Using the long-day duckweed Lemna gibba G3, the changes in theactivities of RNA synthesis in isolated nuclei and chloroplastsand of the reaction prerequisite for the incorporation of exogenousuridine into RNA were examined. When the duckweed was exposedto either a light-dark cycle or to continuous light, the activityof RNA synthesis in the nuclear and chloroplast fractions changeddiurnally and reached its highest levels during the night phase.The changes coincided with uridine incorporation into RNA invivo. However, the amount of radioactive uridine taken up intothe acid-soluble fraction remained unchanged during the wholeday. The proportion of radioactivity incorporated into phosphorylateduridine compounds as well as UTP+UDP to the radioactivity inthis fraction remained constant. Thus, the diurnal rhythm ofuridine incorporation into RNA was related to the diurnal rhythmof RNA synthesis in isolated nuclei and chloroplasts. The loweractivity of uridine incorporation into RNA under continuousdarkness may be determined by the activity of RNA synthesisin nuclei and chloroplasts as well as the uptake rate of uridineinto the duckweed cells, not by the activity of its phosphorylation. (Received August 30, 1977; )     

RNA metabolism in isolated nuclei: effect of temperature on RNA transport from intact and membrane-denuded nuclei

The kinetics of RNA transport from intact (both inner and outer nuclear membranes present) and membrane-denuded myeloma nuclei were monitored at temperatures between 10 and 37 degrees C. A linear rate for RNA transport was calculated and the log of RNA transported from membrane-denuded nuclei was greater than that transported from intact nuclei and ii) RNA transport from both nuclear preparations exhibited straight line Arrhenius plots. We conclude the nuclear envelope (or a nuclear matrix element) modulates the amount of RNA transported from nuclei and that nuclear membrane thermal phase transitions do not alter the apparent energy of activation for the transport process.