Recovery of Pure Ribosomal Proteins from Stained Gels. A Fast Method of Purification of Active Proteins (original) (raw)
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Functional Roles of 50-S Ribosomal Proteins
European Journal of Biochemistry, 1977
Ribosomal proteins previously inactivated by treatment with fluorescein isothiocyanate have been incorporated into 50-S ribosomal subunits during reconstitution from particles disassembled by 2 M LiCl in the presence of an excess of the modified proteins. The reconstituted particles show alterations in some functional activities resulting from the incorporation of the inactive ribosomal proteins added exogenously. Of the fluorescein-isothiocyanate-treated proteins incorporated, L24 and L25 drastically affect all the activities tested and these proteins possibly play a fundamental role in determining the overall structure of the particle. Proteins L16 and LIO are apparently involved both in the GTP hydrolysis dependent on elongation factor G and in peptidyl transferase activity but the modified protein L11 only affects GTPase activity indirectly and interferes with the ribosome assembly process involving proteins L7 and L12. Protein L1 may be involved with peptidyl transferase activity while proteins L7 and L12, in agreement with many reports in the literature, affect the factor-dependent hydrolysis of GTP.
Modification of the accessibility of ribosomal proteins after
1990
Free- and EF-2-bound 80 S ribosomes, within the high-affinity complex with the non-hydrolysable GTP analog: guanylylmethylenediphosphonate (GuoPP(CH2)P), and the low-affinity complex with GDP, were treated with trypsin under conditions that modified neither their protein synthesis ability nor their sedimentation constant nor the bound EF-2 itself. Proteins extracted from trypsin-digested ribosomes were unambiguously identified using three different two-dimensional gel electrophoresis systems and 5 S RNA release was checked by submitting directly free- and EF-2-bound 80 S ribosomes, incubated with trypsin, to two-dimensional gel electrophoresis. Our results indicate that the binding of (EF-2)-GuoPP[CH2]P to 80 S ribosomes modified the behavior of a cluster of five proteins which were trypsin-resistant within free 80 S ribosomes and trypsin-sensitive within the high-affinity complex (proteins: L3, L10, L13a, L26, L27a). As for the binding of (EF-2)-GDP to 80 S ribosomes, it induced an intermediate conformational change of ribosomes, unshielding only protein L13a and L27a. Quantitative release of free intact 5 S RNA which occurred in the first case but not in the second one, should be related to the trypsinolysis of protein(s) L3 and/or L10 and/or L26. Results were discussed in relation to structural and functional data available on the ribosomal proteins we found to be modified by EF-2 binding.
1990
Free-and EF-2-bound 80 S ribosomes, within the high-affinity complex with the non-hydrolysable GTP analog: guanylylmethylenediphosphonate (GuoPP(CH 2)P), and the low-affinity complex with GDP, were treated with trypsin under conditions that modified neither their protein synthesis ability nor their sedimentation constant nor the bound EF-2 itself. Proteins extracted from trypsin-digested ribosomes were unambiguously identified using three different two-dimensional gel electrophoresis systems and 5 S RNA release was checked by submitting directly free-and EF-2-bound 80 S ribosomes, incubated with trypsin, to two-dimensional gel electrophoresis. Our results indicate that the binding of (EF-2)-GuoPP[CH2]P to 80 S ribosomes modified the behavior of a cluster of five proteins which were trypsin-resistant within free 80 S ribosomes and trypsin-sensitive within the high-affinity complex (proteins: L3, L10, Ll3a, L26, L27a). As for the binding of (EF-2)-GDP to 80 S ribosomes, it induced an intermediate conformational change of ribosomes, unshielding only protein L13a and L27a. Quantitative release of free intact 5 S RNA which occurred in the first case but not in the second one, should be related to the trypsinolysis of protein(s) L3 and/or LI0 and/or L26. Results were discussed in relation to structural and functional data available on the ribosomal proteins we found to be modified by EF-2 binding.
Guanosinetriphosphatase activity dependent on elongation factor Tu and ribosomal protein L7/L12
Proceedings of the National Academy of Sciences, 1978
Incubation of electrophoretically pure samples of the Escherichia coli 50S ribosomal protein L7/L12 together with elongation factor Tu leads to the hydrolysis of GTP. Addition of elongation factor Ts stimulates this reaction. Elongation factor G cannot replace elongation factor Tu for the ribosome-free GTPase reaction dependent on L7/L12. The data suggest that elongation factor Tu and the protein L7/L12 interact directly at the ribosomal A site. The 50S ribosomal protein, L7/L12, is involved directly or indirectly in the-function of protein factors required for initiation, elongation, and termination of protein synthesis by the Escherichia colh system (reviewed in ref.
The Biochemical journal, 1987
Ribosomal proteins from the yeast Saccharomyces cerevisiae were separated, on a preparative scale, by ion-exchange h.p.l.c. Proteins from the small and large ribosomal subunits were resolved, respectively, into 33 and 23 peaks, and most of the proteins present in these peaks were identified by using one- and two-dimensional gel electrophoresis. Several of the peaks appeared to contain a single protein uncontaminated by other species. Ribosomal proteins were also separated by using reverse-phase h.p.l.c. Analysis of the peaks resolved indicated that the order of elution for the proteins of both ribosomal subunits is, in certain cases, different for each of the two h.p.l.c. techniques used. Thus a combination of the two chromatographic methods employed here has the potential to facilitate the rapid and preparative separation of each of the proteins present in yeast ribosomes.