Egor A. Smolin scite author profile

Y-box binding proteins (YB proteins) are DNA/RNA-binding proteins belonging to a large family of proteins with the cold shock domain. Functionally, these proteins are known to be the most diverse, although the literature hardly offers any molecular mechanisms governing their activities in the cell, tissue, or the whole organism. This review describes the involvement of YB proteins in RNA-dependent processes, such as mRNA packaging into mRNPs, mRNA translation, and mRNA stabilization. In addition, recent data on the structural peculiarities of YB proteins underlying their interactions with nucleic acids are discussed.

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YB-3 substitutes YB-1 in global mRNA binding

Lyabin

Eliseeva

Smolin

et al. 2020

RNA Biology

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Y-box binding proteins are DNA-and RNA-binding proteins with an evolutionarily ancient and conserved cold shock domain. The Y-box binding protein 1 (YB-1) is the most studied due to its abundance in somatic cells. YB-1 is involved in a variety of cellular processes, including proliferation, differentiation and stress response. Here, using Ribo-Seq and RIP-Seq we confirm that YB-1 binds a wide range of mRNAs and globally acts as a translation inhibitor. Surprisingly, YBX1 knockout results in only minor alterations in the expression of other genes, mostly caused by changes in RNA abundance. But YB-3 mRNA is an exception: it is better translated in the absence of YB-1, thereby producing an increased amount of YB-3 and thus suggesting that its synthesis is under YB-1 negative control. We have shown that the set of mRNAs bound to YB-3 is strikingly similar to that of YB-1, and that the mRNA-binding by YB-3 is enhanced in the absence of YB-1, resulting in a similar global reduction of translation of bound mRNAs in YB-1-null cells. Thus, YB-3 acts as a substitute for YB-1 in mRNA binding and, probably, in global translational control. ARTICLE HISTORY

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Towards the mechanism(s) of YB-3 synthesis regulation by YB-1

et al. 2020

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ATP-Independent Initiation during Cap-Independent Translation of m6A-Modified mRNA

Sakharov

Smolin

Lyabin

et al. 2021

IJMS

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The methylation of adenosine in the N6 position (m6A) is a widely used modification of eukaryotic mRNAs. Its importance for the regulation of mRNA translation was put forward recently, essentially due to the ability of methylated mRNA to be translated in conditions of inhibited cap-dependent translation initiation, e.g., under stress. However, the peculiarities of translation initiation on m6A-modified mRNAs are not fully known. In this study, we used toeprinting and translation in a cell-free system to confirm that m6A-modified mRNAs can be translated in conditions of suppressed cap-dependent translation. We show for the first time that m6A-modified mRNAs display not only decreased elongation, but also a lower efficiency of translation initiation. Additionally, we report relative resistance of m6A-mRNA translation initiation in the absence of ATP and inhibited eIF4A activity. Our novel findings indicate that the scanning of m6A-modified leader sequences is performed by a noncanonical mechanism.

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Diverse Regulation of YB-1 and YB-3 Abundance in Mammals

Eliseeva

Sogorina

Smolin

et al. 2022

Biochemistry Moscow

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Egor A. Smolin

Y-Box Binding Proteins in mRNP Assembly, Translation, and Stability Control

YB-3 substitutes YB-1 in global mRNA binding

Towards the mechanism(s) of YB-3 synthesis regulation by YB-1

ATP-Independent Initiation during Cap-Independent Translation of m6A-Modified mRNA

Diverse Regulation of YB-1 and YB-3 Abundance in Mammals

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