IKBFU's Vestnik. Series: Natural and Medical Sciences

2025 Issue №1

Physical and chemical characteristics, antioxidant properties and the effect of the newly synthesized peptide on lipid deposition in cells

Abstract

A novel peptide, CG-16, with the sequence CHAECGAACKEFCLEG, was designed and synthesized. Studies were conducted to assess its physicochemical properties, antioxidant activity, and effects on lipid deposition in cells in an in vitro experiment. It was established that the CG-16 peptide does not contain antigenic determinants. A search across the PeptideAtlas, UniProt, and the National Center for Biotechnology Information (NCBI) databases confirmed the uniqueness of the synthesized peptide. The prediction of key physicochemical properties of CG-16, including molecular weight, the number of hydrogen bond acceptors and donors, the number of rings, the number of atoms in the largest ring, overall charge, rigidity, flexibility, topological polar surface area, predicted solubility, and the number of acidic sites, suggests that this peptide could be effectively used as a biologically active compound. Furthermore, CG-16 demonstrated antioxidant activity and the ability to reduce lipid accumulation in cells.

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Production and application of bacterial cellulose

Abstract

Bacterial cellulose (BC) is a biomaterial produced by certain bacteria that possesses unique properties, distinguishing it from plant-derived cellulose by its purity, high crystallinity, excellent biocompatibility, and superior water-holding capacity. Due to these advantages, BC is increasingly used in various industrial applications. However, large-scale production of BC is limited, particularly by the high cost of the culture medium. This review presents an analysis of scientific data and official reports on the properties of BC and methods to enhance its productivity for applications in the food industry, specifically as a food additive and packaging material. A literature search was conducted in both English and Russian using the Scopus, ScienceDirect, PubMed, and eLIBRARY.RU databases. The analysis of scientific and official data demonstrated that physical factors of the culture medium, such as temperature, pH, carbon source, and cultivation conditions, influence the yield and properties of BC. The utilization of agricultural and food waste as a culture medium has been shown to enhance the productivity of Komagataeibacter xylinus strains. The combination of BC with other components, including biologically active substances, metals, probiotics, polymers, and antibiotics, can improve its functional properties and expand its applications in the food industry—for instance, as a fat replacer, in the production of artificial meat, enzyme immobilization, and the development of biodegradable packaging materials.

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The possibility of using the remaining wastewater from biological treatment plants for the purposes of green construction and biological reclamation

Abstract

Various approaches to sewage sludge treatment are actively being implemented at municipal biological wastewater treatment facilities, including thermal utilization technologies such as pyrolysis. The biochar produced through this process is currently underutilized; however, it possesses the unique ability to absorb and effectively sequester CO2 for centuries when incorporated into soil, simultaneously enhancing soil quality and promoting sustainable land use and development. The link between biomass and biochar represents one of the most effective strategies for addressing climate challenges. This triple positive effect makes biochar and its production technologies highly promising in the context of climate policy. As a result, a distinct field known as pyrogenic carbon capture and storage is now emerging.

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The influence of temperature regime and spectral composition of light on the growth of biomass of the cyanobacterium Cyanobacterium sp. B-1200

Abstract

Cyanobacteria are a promising source of biologically active compounds of various types and are of great interest for their use in biotechnological processes to obtain complexes or individual bioactive substances with different orientations. Selecting optimal cultivation conditions for cyanobacteria will contribute to the rapid accumulation of bacterial biomass and maximize the yield of biologically active substances. This study analyzes the influence of temperature and light spectral composition on the growth of the cyanobacterium Cyanobacterium sp. IPPAS B-1200 under stationary conditions. The strain was cultivated under different temperatures and light conditions, with regular optical density measurements to monitor biomass growth.

A detailed analysis of the growth dynamics allowed the characterization of various phases of cyanobacteria development, including lag phase, exponential phase, slowing phase, and stationary phase. The results indicate that the duration of these phases varied depending on the cultivation conditions.

The data presented in this study can be used to optimize the cultivation process and enhance the biomass productivity of Cyanobacterium sp. IPPAS B-1200 in further research and industrial production. The findings related to the influence of light spectral composition are particularly valuable, as this parameter is often insufficiently studied when cultivating microalgae.

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Perspectives of using of composite nano- and micromaterials as agents for biomedical applications

Abstract

The development of methods for obtaining new types of materials creates the groundwork for the development and improvement of advanced techniques in biomedicine, bionanotechnology, and nanomedicine. In this context, there is a need to assess the toxicological characteristics of materials as well as develop methods for their therapeutic use. A study was conducted to evaluate the cytotoxicity of composite nanoparticles (nanostars) and micromaterials (microdisks) against Jurkat, Huh7 cell cultures, and human mononuclear cells in in vitro conditions. A concentration-dependent cytotoxic effect of nanoparticles was observed. At the same time, microdisks did not exhibit any toxic effects on the studied cells. The potential of using nano- and micromaterials as prospective tools for cancer therapy, specifically for photothermal therapy, was also discussed.

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Cultivation of local micralgae isolates with assessment of biomass productivityомасс

Abstract

The technology for microalgae production in incubators involves optimizing cultivation conditions for a specific identified strain. However, when working with samples isolated from environmental objects, it is often necessary to deal with unidentified strains, making it challenging to maintain optimal cultivation conditions. In this study, 10 isolates of Chlorella species were used, which were subsequently divided into 3 growth groups based on the volume of the basic culture medium and temperature. According to the literature, these unidentified isolates may belong to a new Chlorella species or a new lectotype of C. vulgaris.

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