Neoglycolipids Micelle-like Structures as a Basis for Drug Delivery Systems

Targeted drug delivery is one of the most promising tasks of nanomedicine, as this is a real way to increase the effectiveness of therapeutic effects against many diseases. In this regard, the development of new inexpensive highly effective stimulating and non-immunogenic drug delivery systems (DDS) is of great importance. In this work new molecular candidates were proposed and studied for the creation of such systems based on the use of new compounds, neoglycolipids. It is shown that these compounds are capable of self-association in aqueous solutions and can serve as potential carriers of drug compounds with targeted delivery determined by their terminal groups (in particular, glycans). The processes of their associates formation and features of their structure are investigated. The results show that these selforganizing nanoscale systems can be used as a basis for developing new drug delivery systems. Keywords: neoglycolipids, micelle-like structures, small-angle X-ray scattering, molecular dynamics simulatio

Formation of High-Order Structures in Solution by CBS-Pyrophosphatase from D. hafniense

To solve the question about the oligomeric state of wild-type CBS-pyrophosphatase (CBS-PPase) from D. hafniense, this enzyme has been studied using two independent structural methods: small-angle X-ray scattering (SAXS) and cryogenic transmission electron microscopy (cryoTEM). The formation of stable high-order structures (large helical associates) in a concentrated protein solution has been observed for the first time. It is also shown for the first time that the formation of these structures is a reversible process and the protein passes to the tetramer form (in which it usually exists in diluted solutions) at ligand attachment. The obtained results are important for understanding the functional features of CBS-PPase (in particular, gaining insight into the pathogenesis of some diseases)

SURVIVAL OF BACTERIAL CULTURES AND VARIATION OF BIOCHEMICAL PROPERTIES IN THE LONG-TERM STORAGE

We analyzed 67 strains from the collection of psychrophilic bacteria isolated from the water and bottom sediments of Lake Baikal in 2002 and 14 strains of mesophilic heterotrophic bacteria isolated from the digestive system of Baikal gastropods in 2010–2011. Biochemical properties were studied for 26 strains. We performed a comparative analysis of the enzymatic activities of the strains isolated in 2002 and their re-isolates of the 2014.Исследование выполнено при финансовой поддержке Российского фонда фундаментальных исследований в рамках научного проекта № 14-04-14-04-90416-Укр а

Bacterioneuston in Lake Baikal: Abundance, Spatial and Temporal Distribution

An aquatic surface microlayer covers more than 70% of the world’s surface. Our knowledge about the biology of the surface microlayer of Lake Baikal, the most ancient lake on Earth with a surface area of 31,500 km2, is still scarce. The total bacterial abundance, the number of cultured heterotrophic temporal bacteria, and the spatial distribution of bacteria in the surface microlayer and underlying waters of Lake Baikal were studied. For the first time, the chemical composition of the surface microlayer of Lake Baikal was determined. There were significant differences and a direct relationship between the total bacterial abundance in the surface microlayer and underlying waters of Lake Baikal, as well as between the number of cultured heterotrophic bacteria in studied water layers in the period of summer stratification. In the surface microlayer, the share of cultured heterotrophic bacteria was higher than in the underlying waters. The surface microlayer was characterized by enrichment with PO43−, total organic carbon and suspended particulate matter compared to underlying waters. A direct relationship was found between the number of bacteria in the surface microlayer and environmental factors, including temperature, total organic carbon and suspended particulate matter concentration