Х. Г. Мусин scite author profile

Х. Г. Мусин

4Publications

2Citation Statements Received

0Citation Statements Given

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108

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Bashkir State University

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Antimicrobial Peptides — A Potential Replacement for Traditional Antibiotics

Мусин

2018

Russian Journal of Infection and Immunity

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Antimicrobial peptides are a heterogeneous group of molecules involved in the innate and acquired immune response of various organisms, ranging from prokaryotes to mammals, including humans. They consist of 12–50 amino acid residues; have different physico-chemical and biological properties. The most common feature is their ability to destroy the prokaryotic cell membrane, which causes cell death. In the action, the molecules of antimicrobial peptides are embedded in the target bacteriological cells and change their conformation, forming structures in some cases resembling channels. Some other molecules of antimicrobial peptides can cover the surface of a bacteriological cell and form a carpet, when they reach a critical mass they act like detergents. In addition, being positively charged molecules of such peptides, penetrating through the membranes of parasitic and bacteriological cells, bind to polyanionic RNA and DNA molecules. Among the benefits of antimicrobial peptides is their high metabolic activity, low probability of occurrence of addictions and side effects. In addition, bacteriological pathogens that previously did not have resistance to any antimicrobial peptide are difficult to develop a strategy to control them. In this connection, these peptides are the most promising moleculessubstitutes for traditional antibiotics. The article discusses the approaches and strategies of therapeutic use, the studies of antimicrobial peptides identified in recent years; The most frequently encountered mechanisms of interaction of antimicrobial peptides and a bacteriological membrane are described, the physicochemical properties of peptide molecules are described; the results of studies on the detection of resistance of some strains of bacteria to antimicrobial peptides and antibiotics in general are summarized.

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The expansin gene NtEXPA5 increases stress tolerance of tobacco hairy roots through an effect on the antioxidant system

Kuluev

Разяпович²,

Musin

et al. 2021

Ecological genetics

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Background: Expansins are non-enzymatic proteins involved in the softening of cell walls, the mechanism of action of which is associated with the weakening and breaking of hydrogen bonds between xyloglucans and cellulose microfibrils and is aimed at ensuring cell expansion. The aim of our work was to obtain hairy roots of tobacco with constitutive expression of the NtEXPA5 expansin gene, their morphometric analysis and assessment of the state of their antioxidant system in response to stress factors. Materials and methods: The hairy roots were obtained from transgenic tobacco plants expressing the NtEXPA5 gene under the control of the 35S promoter. Results: Constitutive expression of the NtEXPA5 gene promoted an increase in the length and dry weight of hairy roots both under normal conditions and under the action of salinity, copper sulfate, cadmium acetate, and mannitol. Both under normal conditions and under the action of stress factors in transgenic hairy roots, an increase in the activity of superoxide dismutase and the total antioxidate activity was recorded. Conclusion: Expansins exert their positive effect on the productivity and stress tolerance of plants not only through their influence on cell expansion, but also through the effect on the antioxidant system.

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Система Воспроизводства И Лесопользования В Малолесных Регионах Среднего Поволжья

Минниханов¹,

Мусин²,

Гафиятов³

et al. 2020

Лесоведение

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Состояние антиоксидантной системы и долговременное хранение волосовидных корней табака с конститутивной экспрессией гена глутатион-S-трансферазы ATGSTF11

Мусин¹,

Федяев²,

Кулуев³

2021

Физиол. раст.

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Х. Г. Мусин

Antimicrobial Peptides — A Potential Replacement for Traditional Antibiotics

The expansin gene NtEXPA5 increases stress tolerance of tobacco hairy roots through an effect on the antioxidant system

Система Воспроизводства И Лесопользования В Малолесных Регионах Среднего Поволжья

Состояние антиоксидантной системы и долговременное хранение волосовидных корней табака с конститутивной экспрессией гена глутатион-S-трансферазы ATGSTF11

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