Production of subtilisin proteases in bacteria and yeast.

In this review, we discuss the progress in the study and modification of subtilisin proteases. Despite longstanding applications of microbial proteases and a large number of research papers, the search for new protease genes, the construction of producer strains, and the development of methods for their practical application are still relevant and important, judging by the number of citations of the research articles on proteases and their microbial producers. This enzyme class represents the largest share of the industrial production of proteins worldwide. This situation can explain the high level of interest in these enzymes and points to the high importance of designing domestic technologies for their manufacture. The review covers subtilisin classification, the history of their discovery, and subsequent research on the optimization of their properties. An overview of the classes of subtilisin proteases and related enzymes is provided too. There is a discussion about the problems with the search for (and selection of) subtilases from natural strains of various microorganisms, approaches to (and specifics of) their modification, as well as the relevant genetic engineering techniques. Details are provided on the methods for expression optimization of industrial subtilases of various strains: the details of the most important parameters of cultivation, i.e., composition of the media, culture duration, and the influence of temperature and pH. Also presented are the results of the latest studies on cultivation techniques: submerged and solid-state fermentation. From the literature data reviewed, we can conclude that native enzymes (i.e., those obtained from natural sources) currently hardly have any practical applications because of the decisive advantages of the enzymes modified by genetic engineering and having better properties: e.g., thermal stability, general resistance to detergents and specific resistance to various oxidants, high activity in various temperature ranges, independence from metal ions, and stability in the absence of calcium. The vast majority of subtilisin proteases are expressed in producer strains belonging to different species of the genus Bacillus. Meanwhile, there is an effort to adapt the expression of these enzymes to other microbes, in particular species of the yeast Pichia pastoris.

Diversity and occurrence of methylotrophic yeasts used in genetic engineering.

Methylotrophic yeasts have been used as the platform for expression of heterologous proteins since the 1980's. They are highly productive and allow producing eukaryotic proteins with an acceptable glycosylation level. The first Pichia pastoris-based system for expression of recombinant protein was developed on the basis of the treeexudate- derived strain obtained in the US southwest. Being distributed free of charge for scientific purposes, this system has become popular around the world. As methylotrophic yeasts were classified in accordance with biomolecular markers, strains used for production of recombinant protein were reclassified as Komagataella phaffii. Although patent legislation suggests free access to these yeasts, they have been distributed on a contract basis. Whereas their status for commercial use is undetermined, the search for alternative stains for expression of recombinant protein continues. Strains of other species of methylotrophic yeasts have been adapted, among which the genus Ogataea representatives prevail. Despite the phylogenetic gap between the genus Ogataea and the genus Komagataella representatives, it turned out possible to use classic vectors and promoters for expression of recombinant protein in all cases. There exist expression systems based on other strains of the genus Komagataella as well as the genus Candida. The potential of these microorganisms for genetic engineering is far from exhausted. Both improvement of existing expression systems and development of new ones on the basis of strains obtained from nature are advantageous. Historically, strains obtained on the southwest of the USA were used as expression systems up to 2009. Currently, expression systems based on strains obtained in Thailand are gaining popularity. Since this group of microorganisms is widely represented around the world both in nature and in urban environments, it may reasonably be expected that new expression systems for recombinant proteins based on strains obtained in other regions of the globe will appear.

An integrated method for taxonomic identification of microorganisms.

For accurate species-level identification of microorganisms, researchers today increasingly use a combination of standard microbiological cultivation and visual observation methods with molecular biological and genetic techniques that help distinguish between species and strains of microorganisms at the level of DNA or RNA molecules. The aim of this work was to identify microorganisms from the ICG SB RAS Collection using an integrated approach that involves a combination of various phenotypic and genotypic characteristics. Key molecular-genetic and phenotypic characteristics were determined for 93 microbial strains from the ICG SB RAS Collection. The strains were characterized by means of morphological, physiological, moleculargenetic, and mass-spectrometric parameters. Specific features of the growth of the strains on different media were determined, and cell morphology was evaluated. The strains were tested for the ability to utilize various substrates. The strains studied were found to significantly differ in their biochemical characteristics. Physiological characteristics of the strains from the collection were identified too, e.g., the relationship with oxygen, type of nutrition, suitable temperature and pH ranges, and NaCl tolerance. In this work, the microorganisms analyzed were combined into separate groups based on the similarities of their phenotypic characteristics. This categorization, after further refinement and expansion of the spectrum of taxa and their metabolic maps, may serve as the basis for the creation of an "artificial" classification that can be used as a key for simplified and quicker identification and recognition of microorganisms within both the ICG SB RAS Collection and other collections.

[Cloning of Escherichia coli K12 xylose isomerase (glucose isomerase) and studying the enzymatic properties of its expression product].

The coding region of Escherichia coli K12 xylose (glucose) isomerase gene was inserted into the pRAC expression vector and cloned in E. coli BL21 (DE3) cells. After induction of expression of the cloned gene, the proportion of recombinant xylose isomerase accounted for 40% of the total protein content. As a result of one-stage purification by affinity chromatography, a protein preparation of 90% purity was obtained. The recombinant enzyme catalyzed the isomerization of glucose to fructose and exhibited maximum activity (0.8 U/mg) at 45 degrees C and pH 6.8. The enzyme required Mg2+ ions as a cofactor. When Mg2+ and Co2+ ions were simultaneously present in the reaction medium, the enzyme activity increased by 15-20%. Complete replacement of Mg2+ with Co2+ decreased the enzyme activity. In the presence of Ca2+ at concentrations comparable to the concentration of Mg2+, the enzyme was not inhibited, although published data reported inhibition of similar enzymes by Ca2+. The recombinant enzyme exhibited a very low thermostability: it underwent a slow inactivation when incubated at 45 degrees C and was completely inactivated after incubation at 65 degrees C for 1 h.

[Genetic and demographic structure of the Talysh population]. / Genetiko-demograficheskaia struktura populiatsii Talyshei.

Investigation was carried out in Talysh population in mountain region of South Azerbaijan. There is extended reproduction in the population. From XVIII till the beginning of XX century there were 3-3.6 offsprings in a family. In the last generation with completed reproduction, the family size raised to 7.13. Modern factors of population size dynamics are considered. It turned out that the main new factor (in conditions of increased family size) is the intensive migration from the population, mainly in men, that results in transformation of sex index in the reproductive age (ratio men/women is 0.77), and a large part of women stay unmarried. Crow index is Itot = 0.426, its components are Im = 0.115, If = 0.260.

[The parasite-host relationships between the glochidia of the European pearl oyster Margaritifera margaritifera (Margaritiferidae: Bivalvia) and mass fish species in the European north of the USSR]. / Vzaimootnosheniia parazit--khoziain u glokhidiev Evropeiskoi zhemchuzhnitsy Margaritifera margaritifera (Margaritiferidae: Bivalvia) i massovykh vidov ryb evropeiskogo severa SSSR.

Narrow specificity of larvae (glochidia) of Margaritifera margaritifera to salmon in the rivers of the Kola Peninsula was proved experimentally. It was found that in the gills of minnow, the other mass fish in the northern rivers of the USSR, larvae of M. margaritifera cannot develop and perish. Reasons causing the narrow specificity of M. margaritifera to Salmonidae are discussed.