To estimate the effect of modified nucleotide-37, the interaction of two yeast aminoacyl-tRNAs (Phe-tRNAK+YPhe and Phe-tRNAK-YPhe) with the A site of complex [70S.poly(U).deacylated tRNA(Phe) in the P site] was assayed at 0-20 degrees C. As comparisons with native Phe-tRNAK+YPhe showed, removal of the Y base decreased the association constant of Phe-tRNAK-YPhe and the complex by an order of magnitude at any temperature, and increased the enthalpy of their interaction by 23 kJ/mol. When the Y base was present in the anticodon loop of deacylated tRNA(Phe) bound to the P site of the 70S ribosome, twice higher affinity for the A site was observed for Phe-tRNAK-YPhe but not for Phe-tRNAK+YPhe. Thus, the modified nucleotide 3' of the Phe-tRNA(Phe) anticodon stabilized the codon-anticodon interaction both in the A and in the P sites of the 70S ribosome.
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Mol Cell
August 2022
Laboratory of Receptor Biology and Gene Expression, Center for Cancer Research, National Cancer Institute, NIH, Bethesda, MD 20892, USA. Electronic address:
mRNA function is influenced by modifications that modulate canonical nucleobase behavior. We show that a single modification mediates distinct impacts on mRNA translation in a position-dependent manner. Although cytidine acetylation (ac4C) within protein-coding sequences stimulates translation, ac4C within 5' UTRs impacts protein synthesis at the level of initiation.
View Article and Find Full Text PDFElife
October 2020
Department of Biochemistry, Emory University School of Medicine, Atlanta, United States.
Modifications in the tRNA anticodon loop, adjacent to the three-nucleotide anticodon, influence translation fidelity by stabilizing the tRNA to allow for accurate reading of the mRNA genetic code. One example is the N1-methylguanosine modification at guanine nucleotide 37 (mG37) located in the anticodon loop andimmediately adjacent to the anticodon nucleotides 34, 35, 36. The absence of mG37 in tRNA causes +1 frameshifting on polynucleotide, slippery codons.
View Article and Find Full Text PDFJ Biol Chem
April 2019
From the Department of Biochemistry, Emory University School of Medicine, Atlanta, Georgia 30322 and
Modification of anticodon nucleotides allows tRNAs to decode multiple codons, expanding the genetic code. Additionally, modifications located in the anticodon loop, outside the anticodon itself, stabilize tRNA–codon interactions, increasing decoding fidelity. Anticodon loop nucleotide 37 is 3′ to the anticodon and, in , is methylated at the N1 position in its nucleobase (mG37).
View Article and Find Full Text PDFA modified nucleotide on the 3'-side of the anticodon loop of tRNA is one of the most important structure element regulating codon-anticodone interaction on the ribosome owing to the stacking interaction with the stack of codon-anticodon bases. The presence and identity (pyrimidine, purine or modified purine) of this nucleotide has an essential influence on the energy of the stacking interaction on A- and P-sites of the ribosome. There is a significant influence of the 37-modification by itself on the P-site, whereas there is no such one on the A-site of the ribosome.
View Article and Find Full Text PDFMol Biol (Mosk)
June 2003
Konstantinov Institute of Nuclear Physics, Russian Academy of Sciences, Gatchina, Leningrad Oblast, 188300 Russia.
To estimate the effect of modified nucleotide-37, the interaction of two yeast aminoacyl-tRNAs (Phe-tRNAK+YPhe and Phe-tRNAK-YPhe) with the A site of complex [70S.poly(U).deacylated tRNA(Phe) in the P site] was assayed at 0-20 degrees C.
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