阳离子与小麦胚芽核糖体结合的定量分析:对亚基缔合平衡和核糖体活性的影响。
Quantitation of cation binding to wheat germ ribosomes: influences on subunit association equilibria and ribosome activity.
作者信息
Sperrazza J M, Spremulli L L
出版信息
Nucleic Acids Res. 1983 May 11;11(9):2665-79. doi: 10.1093/nar/11.9.2665.
Abstract
The binding of Mg2+, spermine, and spermidine to wheat germ ribosomes was quantitated following equilibrium dialysis. The Mg2+ binding data demonstrate that Mg2+ and K+ compete for binding to the ribosomes. Mg2+ binding saturates at approximately 0.56 positive charges per phosphate (+/P). The Mg2+, spermine and spermidine binding data indicate that either polyamine replaces Mg2+ upon binding to the ribosomes. Mg2+ and polyamine binding combined saturates at approximately 0.29 +/P under the conditions reported. When a critical number of Mg2+ ions are replaced by either polyamine, the activity of the ribosomes falls dramatically. Ribosomal subunit association increases with the degree of phosphate charge neutralization due to the binding of Mg2+. Total charge neutralization during subunit association by Mg2+ and polyamine binding combined, is much less than that achieved by Mg2+ alone.
摘要
通过平衡透析对镁离子(Mg2+)、精胺和亚精胺与小麦胚芽核糖体的结合进行了定量分析。Mg2+结合数据表明,Mg2+和钾离子(K+)竞争与核糖体的结合。Mg2+结合在每个磷酸基团约0.56个正电荷(+/P)时达到饱和。Mg2+、精胺和亚精胺的结合数据表明,任一多胺在与核糖体结合时都会取代Mg2+。在报道的条件下,Mg2+和多胺结合共同作用在约0.29 +/P时达到饱和。当一定数量的Mg2+离子被任一多胺取代时,核糖体的活性会急剧下降。由于Mg2+的结合,核糖体亚基的缔合随着磷酸基团电荷中和程度的增加而增加。Mg2+和多胺结合共同作用在亚基缔合过程中实现的总电荷中和远低于仅由Mg2+实现的电荷中和。
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