Chitinolytic and Fungicidal Potential of the Marine Bacterial Strains Habituating Pacific Ocean Regions.

Screening for chitinolytic activity in the bacterial strains from different Pacific Ocean regions revealed that the highly active representatives belong to the genera , , , and . The widely distributed chitinolytic species was isolated from the sea urchin . Among seventeen isolates with confirmed chitinolytic activity, only the type strain KMM 3630 and the strains of putatively new species sp.

Comparative Study of the Pharmacological Properties of Luteolin and Its 7,3'-Disulfate.

The global spread of the metabolic syndrome, oncological and viral diseases forces researchers to pay increased attention to the secondary metabolites of marine hydrobionts, which often have a high therapeutic potential in the treatment of these pathologies and are effective components of functional food. The flavone luteolin (LT), as one of the most widely distributed and studied plant metabolites, is distinguished by a diverse spectrum of biological activity and a pleiotropic nature of the mechanism of action at the molecular, cellular and organismal levels. However, there is still practically no information on the spectrum of biological activity of its sulfated derivatives, which are widely represented in seagrasses of the genus Zostera.

Engineered Fungus Producing Plant Storage Proteins.

An efficient -mediated genetic transformation based on the plant binary vector pPZP-RCS2 was carried out for the multiple heterologous protein production in filamentous fungus   F-859 (formerly   F-859). The engineered fungus   was able to produce plant storage proteins of   (α-zein Z19) and   (albumin A1) to enrich fungal biomass by valuable nutritional proteins and improved amino acid content. The mRNA levels of and genes were significantly dependent on their driving promoters: the promoter of tryptophan synthase (P) was more efficient to express , while the promoter of translation elongation factor (P) provided much higher levels of transcript abundance.

Production of Vitamin B2 (Riboflavin) by Microorganisms: An Overview.

Riboflavin is a crucial micronutrient that is a precursor to coenzymes flavin mononucleotide and flavin adenine dinucleotide, and it is required for biochemical reactions in all living cells. For decades, one of the most important applications of riboflavin has been its global use as an animal and human nutritional supplement. Being well-informed of the latest research on riboflavin production via the fermentation process is necessary for the development of new and improved microbial strains using biotechnology and metabolic engineering techniques to increase vitamin B2 yield.

Development of host strains and vector system for an efficient genetic transformation of filamentous fungi.

An ability to synthesize extracellular enzymes degrading a wide spectrum of plant and algae polymeric substrates makes many fungi relevant for biotechnology. The terrestrial thermophilic and marine fungal isolates capable of plant and algae degradation have been tested for antibiotic resistance for their possible use in a new genetic transformation system. Plasmids encoding the hygromycin B phosphotransferase (hph) under the control of the cauliflower mosaic virus 35S promoter, the trpC gene promoter of Aspergillus nidulans, and the Aureobasidium pullulans TEF gene promoter were delivered into the fungal cells by electroporation.

Data supporting functional diversity of the marine bacterium Cobetia amphilecti KMM 296.

Data is presented in support of functionality of hyper-diverse protein families encoded by the Cobetia amphilecti KMM 296 (formerly Cobetia marina KMM 296) genome ("The genome of the marine bacterium Cobetia marina KMM 296 isolated from the mussel Crenomytilus grayanus (Dunker, 1853)" [1]) providing its nutritional versatility, adaptability and biocontrol that could be the basis of the marine bacterium evolutionary and application potential. Presented data include the information of growth and biofilm-forming properties of the food-associated isolates of Pseudomonas, Bacillus, Listeria, Salmonella and Staphylococcus under the conditions of their co-culturing with C. amphilecti KMM 296 to confirm its high inter-species communication and anti-microbial activity.

Genetically modified proteins: functional improvement and chimeragenesis.

This review focuses on the emerging role of site-specific mutagenesis and chimeragenesis for the functional improvement of proteins in areas where traditional protein engineering methods have been extensively used and practically exhausted. The novel path for the creation of the novel proteins has been created on the farther development of the new structure and sequence optimization algorithms for generating and designing the accurate structure models in result of x-ray crystallography studies of a lot of proteins and their mutant forms. Artificial genetic modifications aim to expand nature's repertoire of biomolecules.

Recombinant α-NAcetylgalactosaminidase from Marine Bacterium-Modifying A Erythrocyte Antigens.

A plasmid based on pET-40b was constructed to synthesize recombinant α-N-acetylgalactosaminidase of the marine bacterium Arenibacter latericius KMM 426T (α-AlNaGal) in Escherichia coli cells. The yield of α-Al- NaGal attains 10 mg/ml with activity of 49.7 ± 1.