L. M. Mezhevikina scite author profile

L. M. Mezhevikina

5Publications

53Citation Statements Received

61Citation Statements Given

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166

Affiliations

Institute of Cell Biophysics, Russian Academy of Sciences, Institute of Theoretical and Experimental Biophysics

Publications

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Construction of the Coding Sequence of the Transcription Variant 2 of the Human Renalase Gene and Its Expression in the Prokaryotic System

Fedchenko

Kaloshin

Mezhevikina

et al. 2013

IJMS

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Renalase is a recently discovered protein, involved in regulation of blood pressure in humans and animals. Although several splice variants of human renalase mRNA transcripts have been recognized, only one protein product, hRenalase1, has been found so far. In this study, we have used polymerase chain reaction (PCR)-based amplification of individual exons of the renalase gene and their joining for construction of full-length hRenalase2 coding sequence followed by expression of hRenalase2 as a polyHis recombinant protein in Escherichia coli cells. To date this is the first report on synthesis and purification of hRenalase2. Applicability of this approach was verified by constructing hRenalase1 coding sequence, its sequencing and expression in E. coli cells. hRenalase1 was used for generation of polyclonal antiserum in sheep. Western blot analysis has shown that polyclonal anti-renalase1 antibodies effectively interact with the hRenalase2 protein. The latter suggests that some functions and expression patterns of hRenalase1 documented by antibody-based data may be attributed to the presence of hRenalase2. The realized approach may be also used for construction of coding sequences of various (especially weakly expressible) genes, their transcript variants, etc.

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Effect of the “zero” Magnetic Field on Early Embryogenesis in Mice

Фесенко

Mezhevikina

Osipenko

et al. 2010

Electromagnetic Biology and Medicine

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It was shown that the 250-fold screening of the geomagnetic field (GMF) ("zero" magnetic field with an induction of 0.2 muT) affects early embryogenesis and the reproduction capacity of mice in vivo. Pregnant NMRI mice at the zygote stage placed in this "zero" magnetic field (MF) lost the ability to bear offspring babies although their embryos developed up to the blastocyst stage without any visible deviations from the norm. The abortion of development in the "zero" MF occurred after the exit of the blastocysts from the zona pellicida and invasion into the uterus during implantation. Histological analysis indicates that possible reasons of the abnormalities of postimplantation development are a decrease in the proliferative activity of embryonic cells and the impairment of the interaction between the trophoblast and endometrium, which finally results in the resorption of embryos in the uterus.

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Deterioration of murine embryonic fibroblasts and early embryos upon magnetic field deprivation

et al. 2008

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The influence of LIF (Leukemia Inhibitory Factor) on the functional status of R1 mouse embryonic stem cells

Lobanok¹,

Mezhevikina

Belyanovich³

et al. 2009

Biochem. Moscow Suppl. Ser. B

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Cryopreservation of the human gut microbiota: Current state and perspectives

Smirnova

Zalomova

Zagainova

et al. 2019

International Journal of Medical Microbiology

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L. M. Mezhevikina

Construction of the Coding Sequence of the Transcription Variant 2 of the Human Renalase Gene and Its Expression in the Prokaryotic System

Effect of the “zero” Magnetic Field on Early Embryogenesis in Mice

Deterioration of murine embryonic fibroblasts and early embryos upon magnetic field deprivation

The influence of LIF (Leukemia Inhibitory Factor) on the functional status of R1 mouse embryonic stem cells

Cryopreservation of the human gut microbiota: Current state and perspectives

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