Zobrazeno 1 - 10
of 70
pro vyhledávání: '"N.L. Eremeev"'
Publikováno v:
Biotekhnologiya. 37:51-59
A new technique has been developed for the synthesis of cross-linked catalase aggregates by treatment of the enzyme incorporated into the pores of vaterite microspheres with glutaraldehyde and subsequent dissolving of the inorganic matrix. The result
Autor:
Natalia L. Klyachko, M. A. Tagirova, A.D. Aleksashkin, N.L. Eremeev, E. A. Zaitseva, Alexander Vaneev, N. G. Balabushevich
Publikováno v:
Moscow University Chemistry Bulletin. 75:238-242
We study the factors affecting the size of two-layer polyionic bienzyme SOD1/catalase conjugates: the nature and concentration of the buffer solution, the pH maintained during particle synthesis, and the initial molar ratio of the enzymes. The optima
Publikováno v:
http://eng.biomos.ru/conference/articles.htm. 1:106-108
A procedure has been developed for the synthesis of cross-linking aggregates of catalase by treatment with glutaraldehyde incorporated into the pores of the vaterite matrix and subsequent dissolution of the inorganic core. The resulting aggregates ha
Autor:
N.L. Eremeev, Olga A. Kost, Natalia L. Klyachko, A. Alova, Peter Gorelkin, O.V. Beznos, Alexander V. Kabanov, Alexander Erofeev, N.B. Chesnokova, Alexander Vaneev
Publikováno v:
Biomedicines
Volume 9
Issue 4
Biomedicines, Vol 9, Iss 396, p 396 (2021)
Volume 9
Issue 4
Biomedicines, Vol 9, Iss 396, p 396 (2021)
Inflammatory eye diseases remain the most common clinical problem in ophthalmology. The secondary processes associated with inflammation, such as overproduction of reactive oxygen species (ROS) and exhaustion of the endogenous antioxidant system, fre
Publikováno v:
BIOTECHNOLOGY: STATE OF THE ART AND PERSPECTIVES. :84-86
Among the polymorphic modifications of CaCO3, vaterite attracts much attention due to its unique properties such as a high specific surface area, controlled particle size [1], and it is also one of the most popular carriers for the manufacture of mic
Autor:
N. S. Pokrovsky, I. Yu. Adamova, P. A. Levashov, N.L. Eremeev, D. A. Matolygina, O. A. Dmitrieva, E. D. Ovchinnikova
Publikováno v:
Russian Journal of Bioorganic Chemistry. 45:101-106
Different methods of covalent lysozyme immobilization have been compared to choose an optimal approach to the development of a material suitable for medical applications in extracorporeal therapy. A novel method for lysozyme immobilization on a polym
Autor:
Vladimir I. Tishkov, P. A. Levashov, Darya A. Gasanova, V. A. Nelyub, N.L. Eremeev, D. A. Matolygina, N. G. Belogurova, Irina Yu. Adamova, Andrey V. Levashov, E. D. Ovchinnikova, S. A. Smirnov
Publikováno v:
FEBS Open Bio
The emergence of new antibiotic‐resistant bacterial strains means it is increasingly important to find alternatives to traditional antibiotics, such as bacteriolytic enzymes. The bacteriolytic enzyme lysozyme is widely used in medicine as an antimi
Autor:
Vladimir I. Tishkov, D. L. Atroshenko, D. A. Matolygina, N. G. Belogurova, E. D. Ovchinnikova, N.L. Eremeev, S. S. Savin, P. A. Levashov, Andrey V. Levashov, N. S. Dushutina, S. A. Smirnov
Publikováno v:
Moscow University Chemistry Bulletin. 73:47-52
The data of the turbidimetric measurement for the enzymatic lysis of various living bacterial cells are analyzed. A method for the correct recalculation of the turbidimetric data (–ΔA/Δt) into absolute values of the change in the concentration of
Autor:
H. E. Osipova, Vladimir I. Tishkov, N. G. Belogurova, N.L. Eremeev, D. A. Matolygina, P. A. Levashov, S. A. Smirnov, Andrey V. Levashov
Publikováno v:
Moscow University Chemistry Bulletin. 70:292-297
A turbidimetric method for determining the activity of bacteriolytic enzymes against living Lactobacillus plantarum cells as a substrate is developed. A technique for measuring the sorption of an enzyme on living cells in an experiment for activity d
Autor:
E. D. Ovchinnikova, Nataliya V. Karelina, D. A. Matolygina, P. A. Levashov, N.L. Eremeev, Oxana A. Dmitrieva, Irina Yu. Adamova, Andrey V. Levashov, V. A. Nelyub
Publikováno v:
Biotechnology Reports
Biotechnology Reports, Vol 24, Iss, Pp-(2019)
Biotechnology Reports, Vol 24, Iss, Pp-(2019)
Graphical abstract
Highlights • Chemical modification with benzaldehyde and anisaldehyde affects only 1–2 amino groups of lysozyme molecule. • Chemical modification does not prevent further covalent immobilization of the protein using the
Highlights • Chemical modification with benzaldehyde and anisaldehyde affects only 1–2 amino groups of lysozyme molecule. • Chemical modification does not prevent further covalent immobilization of the protein using the