CHEMICAL ENZYMOLOGY DIVISION
The division consists of 5 laboratories:
SCIENTIFIC ACTIVITY
- PHYSICOCHEMICAL AND BIOCHEMICAL GROUNDS
OF BIOLUMINESCENCE
- BIOLUMINESCENT AND CHEMILUMINESCENT
MICROASSAYS FOR MEDICINE, ECOLOGY AND TECHNOLOGY
- PHYSICOCHEMICAL GROUNDS OF ENZYMATIC CATALYSIS
- ENZYME MODELS, ABZIMES
- ORGANOMETALLIC CATALYSIS
- KINETICS AND MECHANISMS OF ENZYME ACTIVITY. STRUCTURE AND FUNCTIONS OF
BIOCATALYSTS
- SUPERMOLECULAR DESIGN OF BIOCATALYSIS. UNIVERSAL APPROACH TO A DIRECTIONAL
SUPERMOLECULAR CONSTRUCTION OF GLYCOLIPOPROTEID COMPLEXES ON MOLECULAR
MATRICES OF VARIABLE FORM AND DIMENSIONS
- MICELLAR ENZYMOLOGY. APPLICATION OF SURFACTANT CONSORTIONS (MICELLES)
FOR MODELING A BIOMEMBRANE ENVIRONMENT OF PROTEIN BIOCATALYST MOLECULES
- MODE OF ACTION, PROTEIN ENGINEERING AND BIOTECHNOLOGY OF NADDEPENDENT
DEHYDROGENASES
- GENETIC ENGINEERING OF PEROXIDASES AND THEIR APPLICATION IN MICROASSAY
AND BIOTECHNOLOGY
- DEVELOPMENT OF NEW SUPERSENSITIVE CHEMICAL MICROIMMUNOASSAYS FOR
PHYSIOLOGICALLY ACTIVE AGENTS FOR MEDICINE AND ENVIRONMENTAL PROTECTION
- BIOSENSORS BASED ON ENHANCED CHEMILUMINESCENCE
- MECHANISTIC STUDY OF THE KEY ENZYME OF BLOOD PRESSURE CONTROL,
ANGIOTENSINCONVERTING ENZYME (ACE)
- ISOLATION, PURIFICATION, PHYSICAL AND CHEMICAL CHARACTERIZATION AND
MODIFICATION OF PROTEIN INHIBITORS OF PROTEINASES, POTENTIAL DRUGS IN
PATHOLOGIES RELATED TO HYPERPROTEOLYSIS, SHOCKS, CONTAMINATED WOUNDS, BURNS,
ACUTE PANCREATISIS, ISCHEMIA, ETC.
- ARTIFICIAL MATERIALS CONTROLLED BY AN OUTER PHYSICAL SIGNAL AND CONTAINING
IMMOBILIZED ENZYMES WORKING IN SIGNAL RESPONSE SYSTEMS
- PHYSICOCHEMICAL PRINCIPLES OF ENZYMATIC DEGRADATION OF BIOPOLYMERS
- DEVELOPMENT OF BIOTECHNOLOGY FOR CONVERSION OF VEGETAL RAW MATERIAL
- KINETIC STUDY OF MULTIENZYME SYSTEMS (CELLULASES, CHEMICELLULASES AMYLASES)
- FUNDAMENTAL AND APPLIED MICROBIOLOGY
- NEW MATERIALS: LIVING CELLS IN SYNTHETIC POLYMERS. BIOCATALYTIC PROCESSES
WITH IMMOBILIZED CELLS
- NEW ASSAYS. BIOSENSORS. SENSORS
- BIOELECTROCHEMISTRY. BIOELECTROCATALYSIS. ENZYME ELECTRODES, BIOSENSORS
- ENZYMES IN ORGANIC SEMICONDUCTORS. ELECTROIMMOBILIZATION OF ENZYMES
- BIOKINETICS. KINETICS OF GROWTH AND EVOLUTION OF MICROBIAL POPULATIONS
- KINETICS OF PROCESSES IN MICROBIAL CONSORTIONS. METHANE PRODUCTION FROM
BIOMASS
- THERMOPHILIC AND SUPERTHERMOPHILIC MICROORGANISMS. GENETIC ENGINEERING OF
THERMOPHILIC ENZYMES AND PLASMIDS
- KINETIC STUDY OF INTERACTION BETWEEN THE COMPONENTS OF THE FIBRINOLYTIC
SYSTEM
- DEVELOPMENT AND OPTIMIZATION OF THE METHODS FOR PRODUCTION OF ACTIVE
SITEACYLATED DERIVATIVES OF PLASMINOGEN ACTIVATORS STUDY OF THEIR THROMBOLYTIC
AND SYSTEMIC EFFECTS IN VITRO AND IN VIVO
- MICROENCAPSULATION OF ENZYMES AND HORMONES IN BIODEGRADABLE CELLS TO
PROLONG THEIR ACTION
- COMPUTATIONAL BIOLOGY, BIOINFORMATICS
EDUCATIONAL ACTIVITY
Special courses for students of the 3rd, 4th and 5th years:
- Chemical kinetics and catalysis
- Kinetics of enzymatic reactions
- Mechanisms of enzymatic catalysis
- Biokinetics
- Fundamentals of Bioorganic Chemistry
- Functional Biochemistry
- Fundamentals of Microbiology
- Biotechnology
SPECIAL COURSE: BIOKINETICS
(Prof. Sergei D. VARFOLOMEYEV)
The course deals with the kinetic fundamentals of the biological
processes.
SPECIAL COURSE: FUNDAMENTALS OF BIOTECHNOLOGY
(Prof. Sergei D. VARFOLOMEYEV)
The course deals with the methods of modern biotechnology
(industrial microbiology, enzyme engineering, genetic engineering).
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