Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0027960 (mole)
21,279 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have prepared homogeneous radiolabeled Escherichia coli Elongation Factor G (EF-G) and examined its interactions with the ribosome. In agreement with earlier indirect observations we found that in the presence of high concentrations of fusidic acid approximately equimolar amounts of [3H]EF-G and [alpha-32P]GDP are stably bound to the ribosome. In the absence of fusidic acid, we observed a previously undescribed nucleotide-independent binding interaction between EF-G and the ribosome. This binding is detectable by rapid elution on small gel columns but is not apparent when reactions are analyzed by sucrose density gradient sedimentation. With the exception of the fact that the nucleotide-independent binding of EF-G to ribosome is apparently unaffected even by high concentrations of fusidic acid, it shares many properties in common with that binding which occurs in the presence of GDP. Nucleotide-independent binding requires magnesium ion (10 to 20 mM ) and does not require a monovalent cation but is strongly inhibited by even moderate concentrations of NH4Cl. This binding requires the presence on the ribosome of Protein L7/L12 and is inhibited by the antibiotic thiostrepton. Although we were unable to examine the binary ribosome.EF-G complex by equilibrium means, the observed stoichiometry under the conditions we employed did not exceed 0.2 mol of EF-G/mole of ribosome. Nonequilibrium measurements revealed that one-half of the EF-G was bound at a ribosome concentration of about 50 muM.
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PMID:Binding interactions between radiolabeled Escherichia coli elongation factor G and the ribosome. 76 40

50-S ribosomal subunits from the extreme halophilic bacterium, Halobacterium cutirubrum, contain an alanine-rich acidic "A" protein which resembles the L7--L12 multimer (Kaltschmidt and Wittmann, 1970) found in the 50-S ribosomal subunit of Escherichia coli cells. The protein contains 24 mole % alanine and is devoid of histidine, tryptophan and cysteine. Unlike E. coli which has two forms of the "A" protein distinguished solely by the acetylation state of the serine amino terminus. H. cutirubrum 50-S subunits contain only one unsubstituted form of the "A" protein in vivo. However, during purification of ribosomes from cells grown between 25 and 37 degrees C the latter "A" protein undergoes rapid, specific, in vitro enzymatic alteration at its carboxy-terminal end. When the halophile is grown in the temperature range of 40 to 42 degrees C the cleaving enzyme is not active and only one form of the "A" protein is found on the ribosomes.
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PMID:Temperature related alterations in the acidic alanine-rich "A" protein from the 50S ribosomal particle of the extreme halophile, Halobacterium cutirubrum. 110 49

Two monoclonal antibodies against different epitopes in Escherichia coli ribosomal protein L7/L12 were prepared and characterized as reported previously (Sommer, A., Etchison, J.R., Gavino, G., Zecherle, N., Casiano, C., and Traud, R.R. (1985) J. Biol. Chem. 260, 6522-6527). Both antibodies strongly inhibited polyuridylic acid-directed polyphenylalanine synthesis, ribosome-dependent GTPase activity, and the binding of elongation factor G to the ribosome at mole ratios over ribosomes of 4:1 or less. One epitope was shown to be within residues 1-73 (Ab 1-73) and the other within 74-120 (Ab 74-120). Incubation of 50 S ribosomal subunits or 70 S ribosomes with Ab 1-73, but not with Ab 74-120, leads to a partial loss of L7/L12 from the particle with no loss of any other protein. The experiment was repeated with ribosomes reconstituted with pure radioactive L7/L12 of determined specific activity in order to quantify the L7/L12 in the antibody-treated particle. The protein-deficient core particles isolated by sucrose gradient centrifugation after incubation with Ab 1-73 were found to contain, on average, two copies of L7/L12 and one Ab 1-73. The constancy of this stoichiometry in many experiments and the demonstration of Ab 1-73 on all particles indicate the presence of a homogeneous population of ribosomes, each with only one of the two L7/L12 dimers originally present. The results show a difference in the interactions of the two dimers with the ribosome and present a means of preparing ribosomes with one dimer in a specific binding site. The accompanying paper (Olson, H.M., Sommer, A., Tewari, D. S., Traut, R.R., and Glitz, D.G. (1986) J. Biol. Chem. 261, 6924-6932) shows by immune electron microscopy the location of the two antibody-binding sites and the effect of Ab 1-73 on structure.
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PMID:The selective release of one of the two L7/L12 dimers from the Escherichia coli ribosome induced by a monoclonal antibody to the NH2-terminal region. 242 72

Photoaffinity labeling of E. coli ribosomes within the 70S initiation complex was studied by using photoreactive derivatives of fMet-tRNAfMet bearing arylazidogroups scattered statistically over guanosine residues. It is shown that fMet-azido-tRNAfMet-II bearing 2 moles of the reagent residues per mole of tRNA (modified in the conditions of stability of tRNA tertiary structure) is fully active in aminoacylation and in the factor-dependent binding with ribosomes to form the 70S initiation complex. Functional activity of fMet-azido-tRNAfMet-I bearing also 2 moles of the reagent residues per mole of tRNA (but modified in conditions of lability of tRNA tertiary structure) decreases up to approximately 45% in aminoacylation and up to 70% in IF-2 X GTP-dependent binding to the ribosomes. Irradiation of complexes 70S ribosome-MS2-RNA-fMet-azido-tRNAfMet results in covalent linking of the tRNA derivative to the ribosomes. Both subunits are labeled, the 30S to a larger extent than 50S. It is shown that fMet-azido-tRNAfMet-II labels proteins S1, S7, S9, L27 whereas fMet-azido-tRNAfMet-1--proteins S1, S3, S5, S9, S14, L1, L2, L7/L12.
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PMID:[Photoaffinity modification of Escherichia coli ribosomes by fMet-tRNAf Met derivatives in the 70S initiation complex]. 243 42

Oligo(U) derivatives with [14C]-4-(N-2-chloroethyl-N-methylamino)benzaldehyde attached to 3'-end cis-diol group via acetal bond, p(Up)n-1UCHRCl as well as with [14C]-4-(N-2-chloroethyl-N-methylamino)benzylamine attached to 5'-phosphate via amide bond, ClRCH2NHpU(pU)6 were used to modify 70S E. coli ribosomes near mRNA binding centre. Within ternary complex with ribosome and tRNAPhe all reagents covalently bind to ribosome the extent of modification being 0.1-0.4 mole/mole 70S. p(Up)n-1UCHRCl alkylates either 30S (n=5,7) or both subunits (n=6,8). rRNA is preferentially modified within 30S subunit. ClRCH2NHpU(pU)6 alkylates both subunits the proteins being mainly modified. The distribution of the label among proteins differ for various reagents. S4, S5, S7, S9, S11, S13, S15, S18 and S21 are found to be alkylated within 30S subunit, proteins L1, L2, L6, L7/L12, L19, L31 and L32 are modified in the 50S subunit. Most proteins modified within 30S subunit are located at the "head" of this subunit and proteins modified within 50S subunit are located at the surface of the contact between this subunit and the "head" of 30S subunit at the model of Stoffler.
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PMID:The proteins of the messenger RNA binding site of Escherichia coli ribosomes. 702 14

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