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1.
P G Chistyakov M N Abdukayumov A G Veniaminova S N Vladimirov D M Graifer S A Kazakov G G Karpova 《FEBS letters》1988,236(1):246-250
The cleavable homobifunctional reagent dichloro[N,N,N',N'-tetrakis(2-aminoethyl)-1,6-hexamethylenediamminedi platinum (II)] dichloride was used for studying rRNA-protein cross-links in free 35S-labelled 70 S ribosomes and within initiation complex ribosome.AUGU6.fMet-tRNA(fMet). It was shown that the sets of proteins cross-linked to 16 S and 23 S rRNA in free 70 S ribosomes and in 70 S initiation complex do not differ significantly. The authors are the first to demonstrate most of the 23 S rRNA-protein cross-links and some 16 S rRNA-protein cross-links, in particular those with L7/L12 protein. 相似文献
2.
The complex N-AcPhe-tRNA(Phe).poly(U).80 S ribosome from human placenta was treated with puromycin taken in various concentrations. Based on the kinetic data of N-acetylphenylalanyl-puromycin formation, the association constant of puromycin with the acceptor site of the ribosome was estimated to be (3.96 +/- 0.84) x 10(4) M-1 at 37 degrees C. 相似文献
3.
Julia Khairulina Dmitri Graifer Konstantin Bulygin Aliya Ven'yaminova Ludmila Frolova Galina Karpova 《Biochimie》2010
The eukaryotic ribosomal protein S15 is a key component of the decoding site in contrast to its prokaryotic counterpart, S19p, which is located away from the mRNA binding track on the ribosome. Here, we determined the oligopeptide of S15 neighboring the A site mRNA codon on the human 80S ribosome with the use of mRNA analogues bearing perfluorophenyl azide-modified nucleotides in the sense or stop codon targeted to the 80S ribosomal A site. The protein was cross-linked to mRNA analogues in specific ribosomal complexes that were obtained in the presence of eRF1 in the experiments with mRNAs bearing stop codon. Digestion of modified S15 with various specific proteolytic agents followed by identification of the resulting modified oligopeptides showed that cross-link was in C-terminal fragment in positions 131–145, most probably, in decapeptide 131-PGIGATHSSR-140. The position of cross-linking site on the S15 protein did not depend on the nature of the A site-bound codon (sense or stop codon) and on the presence of polypeptide chain release factor eRF1 in the ribosomal complexes with mRNA analogues bearing a stop codon. The results indicate an involvement of the mentioned decapeptide in the formation of the ribosomal decoding site during elongation and termination of translation. Alignment of amino acid sequences of eukaryotic S15 and its prokaryotic counterpart, S19p from eubacteria and archaea, revealed that decapeptide PGIGATHSSR in positions 131–140 is strongly conserved in eukaryotes and has minor variations in archaea but has no homology with any sequence in C-terminal part of eubacterial S19p, which suggests involvement of the decapeptide in the translation process in a eukaryote-specific manner. 相似文献
4.
Alexey?A. Malygin Dmitri?M. Graifer Maria?I. Meschaninova Aliya?G. Venyaminova Olesya?A. Krumkacheva Matvey?V. Fedin Galina?G. Karpova Elena?G. Bagryanskaya 《Biophysical journal》2015,109(12):2637-2643
mRNAs are involved in complicated supramolecular complexes with human 40S and 80S ribosomes responsible for the protein synthesis. In this work, a derivative of nonaribonucleotide pUUCGUAAAA with nitroxide spin labels attached to the 5′-phosphate and to the C8 atom of the adenosine in sixth position (mRNA analog) was used for studying such complexes using double electron-electron resonance/pulsed electron-electron double resonance spectroscopy. The complexes were assembled with participation of tRNAPhe, which targeted triplet UUC of the derivative to the ribosomal peptidyl site and predetermined location of the adjacent GUA triplet coding for Val at the aminoacyl (A) site. The interspin distances were measured between the two labels of mRNA analog attached to the first nucleotide of the peptidyl site bound codon and to the third nucleotide of the A site bound codon, in the absence/presence of second tRNA bound at the A site. The values of the obtained interspin distances agree with those calculated for available near-atomic structures of similar complexes of 40S and 80S ribosomes, showing that neither 60S subunit nor tRNA at the A site have a noticeable effect on arrangement of mRNA at the codon-anticodon interaction area. In addition, the shapes of distance distributions in four studied ribosomal complexes allowed conclusions on conformational flexibility of mRNA in these complexes. Overall, the results of this study are the first, to our knowledge, demonstration of double electron-electron resonance/pulsed electron-electron double resonance application for measurements of intramolecular distances in multicomponent supramolecular complexes involving intricate cellular machineries and for evaluating dynamic properties of ligands bound to these machineries. 相似文献
5.
Dmitri Graifer Andrey Zhigailov Aliya Ven’yaminovaAlexey Malygin Bulat IskakovGalina Karpova 《FEBS letters》2012,586(20):3731-3736
The roles of 2′-OH groups in the binding of mRNA to human ribosomes were studied using site-directed cross-linking. We found that both mRNA and mDNA analogues bearing a cross-linker can modify ribosomal proteins (rps) S3e and S2e at the mRNA entry site independently on tRNA presence, but only mRNA analogues were capable of a tRNAPhe-dependent binding to human ribosomes and cross-linking to rpS26e in the mRNA binding centre. Thus, 2′-OH groups of mRNA are unimportant for binding at the entry site but they are crucial for codon-anticodon interactions at the P site, implying the existence of mRNA-ribosome contacts that do not occur in bacteria. 相似文献
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7.
In this review we summarize data on the location of template on the human ribosome that we obtained from cross-linking (affinity labeling) experiments using reactive mRNA analogs. Types of mRNA analogs, model complexes of these analogs with 80S ribosomes, and methods for analysis of the ribosomal components (proteins and rRNA nucleotides) cross-linked with the mRNA analogs are reviewed. From analysis of the cross-linking data, we suggest a scheme for the arrangement of mRNA on the human ribosome and compare the organization of the mRNA binding center on human and Escherichia coli ribosomes. 相似文献
8.
Nucleotide G-1207 of 18S rRNA is an essential component of the human 80S ribosomal decoding center. 总被引:2,自引:1,他引:1
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K N Bulygin D M Graifer M N Repkova I A Smolenskaya A G Veniyaminova G G Karpova 《RNA (New York, N.Y.)》1997,3(12):1480-1485
mRNA analogues-derivatives of oligoribonucleotides consisting of two different codons and bearing an aryl azide group at the 5'-phosphates-were crosslinked to human 80S ribosomes by UV-irradiation of the various model complexes obtained in the presence of the cognate tRNAs. Three sequences, namely pUUUGUU (coding for Phe and Val), pUUCUAAA (first triplet coding for Phe and second being stop-codon), and pGUGUUU (coding for Val and Phe), have been used. Sequences of 18S rRNA containing nucleotides crosslinked to the mRNA analogues were examined by hydrolysis with RNase H in the presence of various cDNA probes. Crosslinked nucleotides were identified by primer extension. In all cases, only nucleotide G-1207 (equivalent to G-926 in Escherichia coli 16S rRNA) has been detected as crosslinked. Crosslinking of the mRNA analogues to the large ribosomal subunit was negligible. 相似文献
9.
Yu. S. Khairulina M. V. Molotkov K. N. Bulygin D. M. Graifer A. G. Ven’yaminova L. Yu. Frolova J. Stahl G. G. Karpova 《Russian Journal of Bioorganic Chemistry》2008,34(6):691-697
Protein S3 fragments were determined that crosslink to modified mRNA analogues in positions +5 to +12 relative to the first nucleotide in the P-site bound codon in model complexes mimicking states of ribosomes at the elongation and translation termination steps. The mRNA analogues contained a Phe codon UUU/UUC at the 5′-termini that could predetermine the position of the tRNAPhe on the ribosome by the P-site binding and perfluorophenylazidobenzoyl group at a nucleotide in various positions 3′ of the UUU/UUC codon. The crosslinked S3 protein was isolated from 80S ribosomal complexes irradiated with mild UV light and subjected to cyanogen bromide—induced cleavage at methionine residues with subsequent identification of the crosslinked oligopeptides. An analysis of the positions of modified oligopeptides resulting from the cleavage showed that, in dependence on the positions of modified nucleotides in the mRNA analogue, the crosslinking sites were found in the N-terminal half of the protein (fragment 2–217) and/or in the C-terminal fragment 190–236; the latter reflects a new peculiarity in the structure of the mRNA binding center in the ribosome, unknown to date. The results of crosslinking did not depend on the type of A-site codon or on the presence of translation termination factor eRF1. 相似文献
10.
Elena Babaylova Dmitri Graifer Alexey Malygin Joachim Stahl Ivan Shatsky Galina Karpova 《Nucleic acids research》2009,37(4):1141-1151
The 5′-untranslated region of the hepatitis C virus (HCV) RNA contains a highly structured motif called IRES (Internal Ribosome Entry Site) responsible for the cap-independent initiation of the viral RNA translation. At first, the IRES binds to the 40S subunit without any initiation factors so that the initiation AUG codon falls into the P site. Here using an original site-directed cross-linking strategy, we identified 40S subunit components neighboring subdomain IIId, which is critical for HCV IRES binding to the subunit, and apical loop of domain II, which was suggested to contact the 40S subunit from data on cryo-electron microscopy of ribosomal complexes containing the HCV IRES. HCV IRES derivatives that bear a photoactivatable group at nucleotide A275 or at G263 in subdomain IIId cross-link to ribosomal proteins S3a, S14 and S16, and HCV IRES derivatized at the C83 in the apex of domain II cross-link to proteins S14 and S16. 相似文献