TY  - CHAP
A1  - Mansurov, Zulkhair
A1  - Zhubanova, Azhar A.
A1  - Digel, Ilya
A1  - Artmann, Gerhard
A1  - Temiz Artmann, Aysegül
A1  - Savitskaja, Irina S.
A1  - Kozhalakova, A. A.
A1  - Kistaubaeva, Aida S.
T1  - The sorption of LPS toxic shock by nanoparticles on base of carbonized vegetable raw materials
N2  - Immobilization of lactobacillus on high temperature carbonizated vegetable raw material (rice husk, grape stones) increases their physiological activity and the quantity of the antibacterial metabolits, that consequently lead to increase of the antagonistic activity of lactobacillus. It is implies that the use of the nanosorbents for the attachment of the probiotical microorganisms are highly perspective for decision the important problems, such as the probiotical preparations delivery to the right address and their attachment to intestines mucosa with the following detoxication of gastro-intestinal tract and the normalization of it’s microecology. Besides that, thus, the received carbonizated nanoparticles have peculiar properties – ability to sorption of LPS toxical shock and, hence, to the detoxication of LPS.
KW  - Kohlenstofffaser
KW  - Lipopolysaccharide
KW  - nanostrukturierte carbonisierte Pflanzenteile
KW  - lipopolysaccharides
KW  - nanostructured carbonized plant parts
Y1  - 2008
ER  - 
TY  - CHAP
A1  - Mansurov, Zulkhair A.
A1  - Jandosov, Jakpar
A1  - Chenchik, D.
A1  - Azat, Seitkhan
A1  - Savitskaya, Irina S.
A1  - Kistaubaeva, Aida
A1  - Akimbekov, Nuraly
A1  - Digel, Ilya
A1  - Zhubanova, Azhar Achmet
T1  - Biocomposite Materials Based on Carbonized Rice Husk in Biomedicine and Environmental Applications
T2  - Carbon Nanomaterials in Biomedicine and the Environment
N2  - This chapter describes the prospects for biomedical and environmental engineering applications of heterogeneous materials based on nanostructured carbonized rice husk. Efforts in engineering enzymology are focused on the following directions: development and optimization of immobilization methods leading to novel biotechnological and biomedical applications; construction of biocomposite materials based on individual enzymes, multi-enzyme complexes and whole cells, targeted on realization of specific industrial processes. Molecular biological and biochemical studies on cell adhesion focus predominantly on identification, isolation and structural analysis of attachment-responsible biological molecules and their genetic determinants. The chapter provides a short overview of applications of the biocomposite materials based of nanostructured carbonized adsorbents. It emphasizes that further studies and better understanding of the interactions between CNS and microbial cells are necessary. The future use of living cells as biocatalysts, especially in the environmental field, needs more systematic investigations of the microbial adsorption phenomenon.
Y1  - 2020
SN  - 978-981-4800-27-3
U6  - http://dx.doi.org/10.1201/9780429428647-2
SP  - 3
EP  - 32
PB  - Jenny Stanford Publishing Pte. Ltd.
CY  - Singapore
ER  -