Gold J C, Spremulli L L
J Biol Chem. 1985 Dec 5;260(28):14897-900.
The chloroplast protein synthesis factor responsible for the binding of fMet-tRNAMeti to chloroplast 30 S ribosomal subunits (IF-2chl) has been identified in whole cell extracts of Euglena gracilis. The IF-2chl activity is present in considerably higher amounts in extracts of light-grown cells than in extracts of dark-grown cells. About 90% of this activity is found in the postribosomal supernatant of the cell. Chromatography on phosphocellulose results in the partial purification of IF-2chl and separates the chloroplast factor from the cytoplasmic factor eIF-2A. The binding of fMet-tRNAMeti to chloroplast 30 S subunits is message-dependent as observed for prokaryotic systems. In addition, GTP stimulates the IF-2chl-dependent reaction 3-fold. The binding reaction shows broad monovalent and divalent cation optima. The activity of IF-2chl is stimulated 2-fold by the addition of either Escherichia coli IF-1 or IF-3, and 4-fold by the inclusion of both factors. Chloroplast IF-2 is quite active on the homologous 30 S ribosomal subunits but shows little activity on E. coli 30 S or wheat germ 40 S subunits.
在纤细裸藻的全细胞提取物中已鉴定出负责将甲酰甲硫氨酰 - tRNA(^{Meti})与叶绿体30 S核糖体亚基结合的叶绿体蛋白质合成因子(IF - 2(^{chl}))。与黑暗生长细胞的提取物相比,IF - 2(^{chl})活性在光照生长细胞的提取物中的含量要高得多。该活性约90%存在于细胞的核糖体后上清液中。在磷酸纤维素上进行色谱分离可实现IF - 2(^{chl})的部分纯化,并将叶绿体因子与细胞质因子eIF - 2A分离。如在原核系统中所观察到的,甲酰甲硫氨酰 - tRNA(^{Meti})与叶绿体30 S亚基的结合依赖于信使。此外,GTP可使依赖IF - 2(^{chl})的反应增强3倍。结合反应显示出较宽的单价和二价阳离子最佳浓度范围。添加大肠杆菌IF - 1或IF - 3可使IF - 2(^{chl})的活性增强2倍,同时加入这两种因子则可使其活性增强4倍。叶绿体IF - 2在同源的30 S核糖体亚基上活性相当高,但在大肠杆菌30 S或小麦胚芽40 S亚基上活性很低。
