N. S. Polimbetova scite author profile

The binding of the 18S RNA of the 40S subunits of wheat germ ribosomes to an oligodeoxyribonucleotide complementary to the 1112-1123 region of the central domain of this RNA molecule has been studied. The selective binding of this oligomer to the complementary RNA fragment and the inhibition of the translation of uncapped chimeric RNA containing enhancer sequences in the 5'-untranslated region upstream of the reporter sequence coding for beta-glucuronidase has been shown in a cell-free protein-synthesizing system. The use of a derivative of the aforementioned oligomer containing an alkylating group at the 5' end allowed for the demonstration that the 1112-1123 region of 18S RNA can form a heteroduplex with the complementary sequence of the oligomer. The data obtained show that the 1112-1123 region in loop 27 of the central domain of 18S RNA of 40S ribosomal subunits is exposed on the subunit surface and probably participates in the cap-independent binding of the subunits to mRNA due to the complementary interaction with the enhancer sequences.

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Complementary Interaction Between the Central Domain of 18S rRNA and the 5’ Untranslated Region of mRNA Enhances Translation Efficiency in Plants

Akbergenov¹,

Zhanybekova²,

Polimbetova³

et al. 2003

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Glyphosate treatment mediates the accumulation of small discrete 5<sup>′</sup> and 3<sup>′</sup>-terminal fragments of 18S rRNA in plant cells

Zhigailov¹,

Nizkorodova²,

Sharipov³

et al. 2023

Vestn. VOGiS

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Under many kinds of stress, eukaryotic cells rapidly decrease the overall translation level of the majority of mRNAs. However, some molecular mechanisms of protein synthesis inhibition like phosphorylation of eukaryotic elongation factor 2 (eEF2), which are known to be functional in animals and yeast, are not implemented in plants. We suggest that there is an alternative mechanism for the inhibition of protein synthesis in plant cells and possibly, in other eukaryotes, which is based on the discrete fragmentation of 18S rRNA molecules within small ribosomal subunits. We identified four stressinduced small RNAs, which are 5’and 3’-terminal fragments of 18S rRNA. In the present work, we studied the induction of 18S rRNA discrete fragmentation and phosphorylation of the α-subunit of eukaryotic initiation factor 2 (eIF2α) in germinated wheat embryos in the presence of glyphosate, which imitates the condition of amino acid starvation. Using northern and western blotting, we have shown that stress-induced 18S rRNA fragments started to accumulate in wheat embryos at glyphosate concentrations that did not evoke eIF2α phosphorylation. It was also found that cleavage of 18S rRNA near the 5’-terminus began much earlier than eIF2α phosphorylation, which became noticeable only at higher concentration (500 μM) of glyphosate. This result suggests that discrete fragmentation of 18S rRNA may constitute a regulatory mechanism of mRNA translation in response to stress and may occur in plant cells in parallel with and independently of eIF2α phosphorylation. The identified small 5’and 3’-terminal fragments of 18S rRNA that accumulate during various stresses may serve as stress resistance markers in the breeding of economically important plant crops.

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Phosphorylation of the alpha-subunit of plant eukaryotic initiation factor 2 prevents its association with polysomes but does not considerably suppress protein synthesis

et al. 2022

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N. S. Polimbetova

Evidence That Phosphorylation of the α-Subunit of eIF2 Does Not Essentially Inhibit mRNA Translation in Wheat Germ Cell-Free System

Region 1112–1123 in the central domain of 18S rRNA in 40S subunits of plant ribosomes: Accessibility for complementary interactions and the functional role

Complementary Interaction Between the Central Domain of 18S rRNA and the 5’ Untranslated Region of mRNA Enhances Translation Efficiency in Plants

Glyphosate treatment mediates the accumulation of small discrete 5<sup>′</sup> and 3<sup>′</sup>-terminal fragments of 18S rRNA in plant cells

Phosphorylation of the alpha-subunit of plant eukaryotic initiation factor 2 prevents its association with polysomes but does not considerably suppress protein synthesis

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