Mikhail Kryuchkov
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Explore the profile of Mikhail Kryuchkov including associated specialties, affiliations and a list of published articles.
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11
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95
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Recent Articles
1.
Wang Z, Valnohova J, Kolesnichenko K, Baba A, Sun H, Mao X, et al.
ACS Appl Bio Mater
. 2025 Jan;
8(1):784-791.
PMID: 39780020
Moth-eye nanostructures, known for their biological antireflective properties, are formed by a self-assembly mechanism. Understanding and replicating this mechanism on artificial surfaces open avenues for the engineering of bioinspired multifunctional...
2.
Kryuchkov M, Valnohova J, Katanaev V
Biomolecules
. 2024 Nov;
14(11).
PMID: 39595566
Artificial bio-nanocoatings, primarily composed of proteins, offer a broad range of applications across various fields thanks to their unique properties. Proteins, as major components of these structures, enable a high...
3.
Kryuchkov M, Adamcik J, Katanaev V
Nanomaterials (Basel)
. 2022 Jun;
12(11).
PMID: 35683724
In diverse living organisms, bionanocoatings provide multiple functionalities, to the surfaces they cover. We have, previously, identified the molecular mechanisms of Turing-based self-assembly of insect corneal nanocoatings and developed forward-engineering...
4.
Kryuchkov M, Savitsky V, Wilts B, Gray E, Katanaev V
ACS Appl Mater Interfaces
. 2021 May;
13(20):23481-23488.
PMID: 33974394
Light plays paramount functions for living beings in nature. In addition to color, the polarization of light is used by many animals for navigation and communication. In this study, we...
5.
Katanaev V, Kryuchkov M, Averkov V, Savitsky M, Nikolaeva K, Klimova N, et al.
Sci Rep
. 2020 Dec;
10(1):21013.
PMID: 33273532
Drosophila melanogaster has been a model for multiple human disease conditions, including cancer. Among Drosophila tissues, the eye development is particularly sensitive to perturbations of the embryonic signaling pathways, whose...
6.
Savitsky M, Solis G, Kryuchkov M, Katanaev V
Biomedicines
. 2020 Oct;
8(10).
PMID: 33036271
Several hundred genes have been identified to contribute to epilepsy-the disease affecting 65 million people worldwide. One of these genes is encoding Gαo, the major neuronal α-subunit of heterotrimeric G...
7.
Kryuchkov M, Bilousov O, Lehmann J, Fiebig M, Katanaev V
Nature
. 2020 Sep;
585(7825):383-389.
PMID: 32939070
Insect eyes have an anti-reflective coating, owing to nanostructures on the corneal surface creating a gradient of refractive index between that of air and that of the lens material. These...
8.
Buscher T, Kryuchkov M, Katanaev V, Gorb S
J R Soc Interface
. 2018 Jun;
15(143).
PMID: 29925583
In its evolution, the diverse group of stick and leaf insects (Phasmatodea) has undergone a rapid radiation. These insects evolved specialized structures to adhere to different surfaces typical for their...
9.
Keshelava A, Solis G, Hersch M, Koval A, Kryuchkov M, Bergmann S, et al.
Nat Commun
. 2018 Mar;
9(1):876.
PMID: 29491460
G protein-coupled receptors (GPCRs) constitute a large family of receptors that activate intracellular signaling pathways upon detecting specific extracellular ligands. While many aspects of GPCR signaling have been uncovered through...
10.
Kryuchkov M, Lehmann J, Schaab J, Cherepanov V, Blagodatski A, Fiebig M, et al.
J Nanobiotechnology
. 2017 Sep;
15(1):61.
PMID: 28877691
Moth-eye nanostructures are a well-known example of biological antireflective surfaces formed by pseudoregular arrays of nipples and are often used as a template for biomimetic materials. Here, we provide morphological...