Glick B R, Ganoza M C
Proc Natl Acad Sci U S A. 1975 Nov;72(11):4257-60. doi: 10.1073/pnas.72.11.4257.
A soluble protein factor was isolated, free of elongation factor (EF)-T and EF-G, based on its ability to stimulate the synthesis of peptide bonds using ribosomal bound 70S-AUG-N-formyl-[35S]methionyl-tRNA complex and added puromycin as substrates. Over 90% of this activity was found in the ribosome-free cytoplasm of Escherichia coli extracts. Otherfeatures such as molecular weight, purification properties, and catalytic activities distinguish this factor from ribosomal proteins and known activators of translation. The factor requires all components needed for peptide bond synthesis and is inhibited by antibiotics known to specifically block the peptidyl transferase activity of ribosomes. The factor increases the binding affinity of the ribosome for the aminoacyl-tRNA analog puromycin about 10-fold. We suggest that this extraribosomal factor modulates the intrinsic activity of ribosomes to catalyze peptide-bond synthesis, and regard it as a new factor required for peptide chain elongation, which we call EF-P.
一种可溶性蛋白质因子被分离出来,它不含延伸因子(EF)-T和EF-G,其依据是利用核糖体结合的70S-AUG-N-甲酰-[35S]甲硫氨酰-tRNA复合物和添加的嘌呤霉素作为底物来刺激肽键合成的能力。这种活性的90%以上存在于大肠杆菌提取物的无核糖体细胞质中。分子量、纯化特性和催化活性等其他特征将该因子与核糖体蛋白及已知的翻译激活剂区分开来。该因子需要肽键合成所需的所有成分,并受到已知能特异性阻断核糖体肽基转移酶活性的抗生素的抑制。该因子使核糖体对氨酰-tRNA类似物嘌呤霉素的结合亲和力提高了约10倍。我们认为这种核糖体外因子调节核糖体催化肽键合成的内在活性,并将其视为肽链延伸所需的一种新因子,我们将其称为EF-P。