Limited Hydrolysis of the Polypeptide Chain Elongation Factor Tu by Trypsin
Isolation and Characterization of the Polypeptide Fragments
1976 Volume 79 Issue 1 Pages 69-83
Details
1976 Volume 79 Issue 1 Pages 69-83
The digestion of EF-Tu•DP (or EF-Tu•TP) by trypsin [EC 3.4.21.4] under native conditions has been shown to proceed through two different and characteristic stages.
1. In the first phase, the protein is transformed into a fragment (Fragment A) with a molecular weight of 39, 000 by exposure to trypsin for a relatively short period of time. Fragment A is unable to catalyze the binding of aminoacyl-tRNA to ribosomes. The ability to promote two partial steps of the binding reaction, i.e., formation of the aminoacyl-tRNA•F-Tu•TP ternary complex as well as the methanol-stimulated, ribosome-dependent GTPase reaction, was rapidly destroyed. On the other hand, the ability to interact with guanine nucleotides as well as EF-Ts survived well during prolonged digestion.
2. In the second phase of digestion, a nick is introduced in Fragment A to yield two subfragments (Fragments B and C). These two fragments exist as a hybrid molecule which migrates as a single peak on a Sephadex G-75 column, and which dissociates into Fragments B and C only in the presence of 6 M guanidine hydro-chloride or 5% sodium dodecyl sulfate. The molecular weights of Fragments B and C, as determined by polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate, were 22, 000 and 12, 000 respectively. The hybrid molecule still retained one mole of bound guanine nucleotide and was resistant to further tryptic digestion.
3. Three sulfhydryl groups of EF-Tu were found to be present in Fragment B, both by amino acid analysis of the purified fragments and also by electrophoresis of Cryptic digests labeled with N-ethyl[14C]maleimide.
4. The tryptic digestion of EF-Tu•DP (or EF-Tu•TP) labeled with N-(1-anilino-naphthyl-4)maleimide (ANM) at SH2 (the second SH), caused a 30% decrease in the fluorescence emission during the first rapid phase of digestion. This indicates that destruction of the hydrophobic environment near SH2 of EF-Tu occurred in the early phase of tryptic digestion.
5. The kinetic studies on the reaction of ANM with EF-Tu before and after tryptic digestion indicated that both Fragment A and the hybrid molecule reacted with ANM in the presence of GTP three to four times more rapidly than in the presence of GDP. Thus, it appears that the ability to induce conformational transition near SH2 by a change of the nucleotide ligands is still retained in the hybrid molecule con-sisting of Fragments B and C.
