Maxim V. Berezovski scite author profile

We propose kinetic capillary electrophoresis (KCE) as a conceptual platform for the development of kinetic homogeneous affinity methods. KCE is defined as the CE separation of species that interact during electrophoresis. Depending on how the interaction is arranged, different KCE methods can be designed. All KCE methods are described by the same mathematics: the same system of partial differential equations with only initial and boundary conditions being different. Every qualitatively unique set of initial and boundary conditions defines a unique KCE method. Here, we (i) present the theoretical bases of KCE, (ii) define four new KCE methods, and (iii) propose a multimethod KCE toolbox as an integrated kinetic technique. Using the KCE toolbox, we were able to, for the first time, observe high-affinity (specific) and low-affinity (nonspecific) interactions within the same protein-ligand pair. The concept of KCE allows for the creation of an expanding toolset of powerful kinetic homogeneous affinity methods, which will find their applications in studies of biomolecular interactions, quantitative analyses, and selecting affinity probes and drug candidates from complex mixtures.

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Development of DNA aptamers for visualization of glial brain tumors and detection of circulating tumor cells

Kichkailo¹,

Narodov²,

Komarova³

et al. 2023

Molecular Therapy - Nucleic Acids

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Real‐Time Monitoring of Protein Conformational Dynamics in Solution Using Kinetic Capillary Electrophoresis

et al. 2012

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Konformationsanalyse: Mittels Kapillarelektrophorese (CE) können langsam umwandelbare Proteinkonformere schnell getrennt werden. Die kinetische Analyse (koffen, kgeschlossen und Kd) der Elektropherogramme in Gegenwart und Abwesenheit von Effektor‐Liganden ermöglicht die Messung kinetischer und thermodynamischer Konstanten, die mit Konformationsänderungen und dem Binden von Liganden assoziiert sind.

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Structure‐ and Interaction‐Based Design of Anti‐SARS‐CoV‐2 Aptamers

Mironov

Shchugoreva

Artyushenko

et al. 2022

Chemistry A European J

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Aptamer selection against novel infections is a complicated and time-consuming approach. Synergy can be achieved by using computational methods together with experimental procedures. This study aims to develop a reliable methodology for a rational aptamer in silico et vitro design. The new approach combines multiple steps: (1) Molecular design, based on screening in a DNA aptamer library and directed mutagenesis to fit the protein tertiary structure; (2) 3D molecular modeling of the target; (3) Molecular docking of an aptamer with the protein; (4) Molecular dynamics (MD) simulations of the complexes; (5) Quantum-mechanical (QM) evaluation of the interactions between aptamer and target with further analysis; (6) Experimental verification at each cycle for structure and binding affinity by using small-angle X-ray scattering, cytometry, and fluorescence polarization. By using a new iterative design procedure, structure-and interaction-based drug design (SIBDD), a highly specific aptamer to the receptorbinding domain of the SARS-CoV-2 spike protein, was developed and validated. The SIBDD approach enhances speed of the high-affinity aptamers development from scratch, using a target protein structure. The method could be used to improve existing aptamers for stronger binding. This approach brings to an advanced level the development of novel affinity probes, functional nucleic acids. It offers a blueprint for the straightforward design of targeting molecules for new pathogen agents and emerging variants.

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Nucleic Acid Aptamers Increase the Anticancer Efficiency and Reduce the Toxicity of Cisplatin-Arabinogalactan Conjugates In Vivo

Zamay

Starkov

Kolovskaya

et al. 2022

Nucleic Acid Therapeutics

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