Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.16.2 (PCP)
 3,761 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Columns containing ribosomes translating poly(U) covalently bound with cellulose (solid-phase translating system) were used to study translocation in ribosomes. It is shown that the passing of elongation factor G (EF-G) with the non-cleavable analog of GTP (GMP-PCP) through a column containing pre-translocated ribosomes results in the increase of competence for puromycin (i. e. to the transition of pre-translocated peptidyl-tRNA into the post-translocated state) just as in the case of the passing of EF-G with GTP. On the other hand, it is shown that the passing of EF-G with GMP-PCP through a column with pre-translocated ribosomes makes them capable of binding the next aminoacyl-tRNA (i. e. leads to the vacation of the ribosomal A-site). Thus, by means of the two independent tests it is shown that EF-G-promoted translocation in the ribosome can proceed without GTP hydrolysis. On the basis of the data obtained, a controlled step-wise elongation of polypeptide with the participation of EF-G without GTP cleavage has been carried out in the solid-phase column system of translation.
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PMID:[Translocation in ribosomes induced by elongation factor G without cleavage of GTP. Study using a solid phase translation system in columns]. 25 70

The requirement of initiation factors F(1) (highly purified) and F(2) (electrophoretically homogeneous) for ribosomal binding of N-formylmethionyl transfer RNA (fMet approximately tRNA) at low Mg(2+) concentration (3.5 mM), with the trinucleoside diphosphate ApUpG as messenger, was studied under various experimental conditions with 30S + 50S ribosomes and with 30S subunits alone. The results were qualitatively the same in both cases but the amount of binding was two to three times higher when both 30S and 50S subunits were present. Although there was a virtually absolute requirement for F(2) in all cases, considerable binding occurred at 0 degrees in the absence of added F(1). F(1) addition stimulated binding up to twofold under these conditions. However, at 25 degrees , the temperature at which the reaction is usually carried out, there was very little binding with F(2) alone and addition of F(1) stimulated the reaction five- to sixfold. Contrary to current belief, the GTP analog 5'-guanylyldiphosphonate (GMP-PCP) cannot replace GTP in the binding reaction. In particular, there was but little stimulation of binding (about 1.5-fold) by addition of F(1) to F(2)-containing samples when GMP-PCP was used. In marked contrast, binding was stimulated up to sevenfold by addition of F(1) when GTP was substituted for the analog. Under these conditions, there was an ApUpG and F(1)-dependent hydrolysis of GTP. This is observable with 30S subunits alone and can hardly be related to the occurrence of translocation. The results may be interpreted to mean that a complex relatively stable at 0 degrees , but less stable at 25 degrees , is formed upon addition of F(2) alone. Conversion of the less stable to the more stable form of complex is made possible by addition of F(1). This is accompanied or mediated by cleavage of GTP.
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PMID:Polypeptide chain initiation in E. coli: studies on the function of initiation factor F1. 489 78

The translocation of the mRNA in relation to the ribosome during peptide synthesis represents an example for a mechanochemical reaction in which the chemical bond energy of GTP is transformed into coordinated motion. We demonstrate here that translocation can be explained simply by binding equilibria between the tRNA, the mRNA, and their binding sites on the ribosome. The presence of two cognate tRNAs shifts the association constant for the 70 S ribosome . AUGU3 complex from 6.8 x 10(5) to 2.2 x 10(8) M-1. The elongation factor G and GTP or guanosine-5'-(beta,gamma-methylene)triphosphate GMP-PCP) displace the methionine tRNAs which can be formylated (tRNAfMet) from the quaternary complex 70 S . AUGU3 . tRNAfMet . tRNAPhe. Only the ternary complex Phe-tRNAPhe . elongation factor Tu . GMP-PCP shows an absolute preference for the aminoacyl-tRNA binding site (A site) (K a = 6.6 x 10(6) M-1). AcPhe-tRNAPhe, (N alpha-acetylphenylalanyl-tRNA) an analogue of a peptidyl-tRNA exhibits a 20-fold higher affinity to the peptidyl-tRNA binding site (P site) (K a = 3.5 x 10(6) M-1) as against the A site (K a = 1.8 x 10(6) M-1) at 8 mM Mg2+. Compared to aminoacyl-tRNA and tRNA, peptidyl-tRNA shows a 3- to 15-fold higher affinity toward complementary oligonucleotides both in the binary complex and in the presence of 70 S ribosomes (UUCA . AcPhe-tRNAPhe: K a = 1.9 x 10(5) M-1), UUCA . tRNAPhe:K a = 3.2 x 10(4) M-1). This indicates a stabilization of the peptidyl-tRNA . mRNA complex during translocation. Our data support a concept of mRNA translocation in which the removal of the deacylated tRNA from the P site requires GTP energy and a peptidyl-tRNA . mRNA complex diffuses from its low affinity site (A) to its high affinity binding site (P).
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PMID:Mechanism of translocation. Binding equilibria between the ribosome, mRNA analogues, and cognate tRNAs. 703 57

Aminoacyl-tRNA synthetases play a key role in protein biosynthesis by catalyzing the specific aminoacylation of tRNA. The energy required for the formation of the ester bond between the amino acid carboxylate group and the tRNA acceptor stem is supplied by coupling the reaction to the hydrolysis of ATP. Lysyl-tRNA synthetase from Escherichia coli belongs to the family of class II synthetases and carries out a two-step reaction, in which lysine is activated by being attached to the alpha-phosphate of AMP before being transferred to the cognate tRNA. Crystals of the thermo-inducible E. coli lysyl-tRNA synthetase LysU which diffract to 2.1 A resolution have been used to determine crystal structures of the enzyme in the presence of lysine, the lysyl-adenylate intermediate, and the nonhydrolyzable ATP analogue AMP-PCP. Additional data have been obtained from crystals soaked in a solution containing ATP and Mn(2+). The refined crystal structures give "snapshots" of the active site corresponding to key steps in the aminoacylation reaction and provide the structural framework for understanding the mechanism of lysine activation. The active site of LysU is shaped to position the substrates for the nucleophilic attack of the lysine carboxylate on the ATP alpha-phosphate. No residues are directly involved in catalysis, but a number of highly conserved amino acids and three metal ions coordinate the substrates and stabilize the pentavalent transition state. A loop close to the catalytic pocket, disordered in the lysine-bound structure, becomes ordered upon adenine binding.
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PMID:Active site of lysyl-tRNA synthetase: structural studies of the adenylation reaction. 1091 47