Your search keyword '"Nina L, Maliar"' showing total 3 results

1. Raman Scattering: From Structural Biology to Medical Applications

Author

Alexey V. Vlasov, Nina L. Maliar, Sergey V. Bazhenov, Evelina I. Nikelshparg, Nadezda A. Brazhe, Anastasiia D. Vlasova, Stepan D. Osipov, Vsevolod V. Sudarev, Yury L. Ryzhykau, Andrey O. Bogorodskiy, Egor V. Zinovev, Andrey V. Rogachev, Ilya V. Manukhov, Valentin I. Borshchevskiy, Alexander I. Kuklin, Jan Pokorný, Olga Sosnovtseva, Georgy V. Maksimov, and Valentin I. Gordeliy

Subjects

raman scattering, sers, biophysics, structural biology, dna, cancer, cell imaging, medical applications, hemoproteins, photoactive proteins, Crystallography, QD901-999

Abstract

This is a review of relevant Raman spectroscopy (RS) techniques and their use in structural biology, biophysics, cells, and tissues imaging towards development of various medical diagnostic tools, drug design, and other medical applications. Classical and contemporary structural studies of different water-soluble and membrane proteins, DNA, RNA, and their interactions and behavior in different systems were analyzed in terms of applicability of RS techniques and their complementarity to other corresponding methods. We show that RS is a powerful method that links the fundamental structural biology and its medical applications in cancer, cardiovascular, neurodegenerative, atherosclerotic, and other diseases. In particular, the key roles of RS in modern technologies of structure-based drug design are the detection and imaging of membrane protein microcrystals with the help of coherent anti-Stokes Raman scattering (CARS), which would help to further the development of protein structural crystallography and would result in a number of novel high-resolution structures of membrane proteins—drug targets; and, structural studies of photoactive membrane proteins (rhodopsins, photoreceptors, etc.) for the development of new optogenetic tools. Physical background and biomedical applications of spontaneous, stimulated, resonant, and surface- and tip-enhanced RS are also discussed. All of these techniques have been extensively developed during recent several decades. A number of interesting applications of CARS, resonant, and surface-enhanced Raman spectroscopy methods are also discussed.

Published

2020

2. Electrophysiological Characterization of Microbial Rhodopsin Transport Properties: Electrometric and ΔpH Measurements Using Planar Lipid Bilayer, Collodion Film, and Fluorescent Probe Approaches

Author

Tatyana I, Rokitskaya, Nina L, Maliar, Sergey A, Siletsky, Valentin, Gordeliy, and Yuri N, Antonenko

Subjects

Rhodopsin, Light, Bacteriorhodopsins, Lipid Bilayers, Rhodopsins, Microbial, Collodion, Proton-Motive Force, Fluorescent Dyes

Abstract

Electrophysiological approaches to the study of the activity of retinal-containing protein bacteriorhodopsin (bR) or other proteins of this family are based usually on measurements of electrical current through a planar bilayer lipid membrane (BLM) with proteoliposomes attached to the BLM surface at one side of the membrane. Here, we describe the measurements of the pumping activity of bR and channelrhodopsin 2 (ChR2) with special attention to the study of voltage dependence of the light-induced currents. Strong voltage dependence of ChR2 suggests light-triggered ion channel activity of ChR2. We also describe electrophysiological measurements with the help of collodion film instead of BLM for the measurements of fast stages of a rhodopsin photocycle as well as the estimation of the activity of proteoliposomes without a macro membrane using fluorescent probes such as oxonol VI or 9-aminoacridine.

Published

2022

3. Electrophysiological Characterization of Microbial Rhodopsin Transport Properties: Electrometric and ΔpH Measurements Using Planar Lipid Bilayer, Collodion Film, and Fluorescent Probe Approaches

Author

Tatyana I. Rokitskaya, Nina L. Maliar, Sergey A. Siletsky, Valentin Gordeliy, and Yuri N. Antonenko

Published

2022