Biopolym. Cell. 1987; 3(3):131-134.
Short Communications
The interaction of different conformers of deacylated tRNA with 80S ribosomes
- Institute of Molecular Biology and Genetics, Academy of Sciences of the Ukrainian SSR
Kiev, USSR
Abstract
Biologically inactive tRNA conformers are able to inhibit the poly(U)-dependent binding
of phenylalanyl-tRNA to 80S ribosomes, being a more efficient inhibitor than native deacylated tRNA.
Full text: (PDF, in Russian)
References
[1]
Matsuka GKh, Babii TP, Skvirskaia EB, Ovcharenko GV, Semenikhin VI. Biologically inactive transfer RNA in animal livers. Biokhimiia. 1973;38(6):1221-7.
[2]
Demidov SV, Kovalenko MI, El'skaia AV. Biological activity of hepatic transfer RNA of rabbits of different ages. Nauchnye Doki Vyss Shkoly Biol Nauki. 1980;(12):18-24.
[3]
Kovalenko MI, Rodovichius GA, Tamulyavichius AI, Pivoriunayte Study of the molecular basis of disorders of protein biosynthesis in experimental myocardial infarction and myocardial autolysis. Molekulyarnaya biologiya. 1984; Is. 37:18-21
[4]
Negrutskii BS, Soldatkin KA. Thermodynamic assessment of conformational transitions upon renaturation biologically inactive tRNA conformers. Molekulyarnaya biologiya. 1984; Is. 37:26-8
[5]
Negrutskii BS, El'skaia AV. Characteristic features of heat inactivation of leucyl-tRNA- synthetase from the rabbit liver in the presence of various tRNA conformers. Mol Biol (Mosk). 1984;18(5):1297-300.
[6]
Sarin PS, Zamecnik PC. On the stability of aminoacyl-S-RNA to nucleophilic catalysis. Biochim Biophys Acta. 1964;91:653-5.
[7]
Ovcharenko GV, Potapov AP, NegrutskiД BS, Soldatkin AP, Ven'iaminova AG. Code correspondence of tRNK Leu 1-6 in the mammary gland of cows. Ukr Biokhim Zh. 1983;55(6):608-13.
[8]
Kovalenko MI, Zheltovskaya NI, Elkaya AV, Ovcharenko GV. Methods of isolation and individual tRNA and tRNKLeu tRNKPhe from animal tissues. Metody sovremennoy biologii. Kiev, Naukova dumka, 1979; 98-111
[9]
Nirenberg M, Leder P. RNA codewords and protein synthesis. the effect of trinucleotides upon the binding of sRNA to ribosomes. Science. 1964;145(3639):1399-407.
[10]
Wurmbach P, Nierhaus KH. Codon-anticodon interaction at the ribosomal P (peptidyl-tRNA)site. Proc Natl Acad Sci U S A. 1979;76(5):2143-7.
[11]
Peters M, Yarus M. Transfer RNA selection at the ribosomal A and P sites. J Mol Biol. 1979;134(3):471-91.
[12]
Ofengand J, Henes C. The function of pseudouridylic acid in transfer ribonucleic acid. II. Inhibition of amino acyl transfer ribonucleic acid-ribosome complex formation by ribothymidylyl-pseudouridylyl-cytidylyl-guanosine 3'-phosphate. J Biol Chem. 1969;244(22):6241-53.
[13]
Kirillov SV, Makhno VI, Odinzov VB, Semenkov YP. The mechanism of codon-anticodon interaction in ribosomes. Heterogeneity of tRNA complexes with 70-S ribosomes of Escherichia coli. Eur J Biochem. 1978;89(1):305-13.