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Your search keyword '"Shcheglova, T. P."' showing total 16 results
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16 results on '"Shcheglova, T. P."'

1. Covalent binding antibodies suppress advanced glycation: on the innate tier of adaptive immunity.

Author

Shcheglova, T, Makker, SP, and Tramontano, A

Subjects
Biochemistry and Cell Biology, Biological Sciences, Autoimmune Disease, Diabetes, Aetiology, Underpinning research, 1.1 Normal biological development and functioning, 2.1 Biological and endogenous factors, Natural autoantibodies, covalent binding, reactive antibody, advanced glycation, carbonyl group, diabetic complications, hydrolytic abzymes
Abstract

Non-enzymatic protein glycation is a source of metabolic stress that contributes to cytotoxicity and tissue damage. Hyperglycemia has been linked to elevation of advanced glycation endproducts, which mediate much of the vascular pathology leading to diabetic complications. Enhanced glycation of immunoglobulins and their accelerated vascular clearance is proposed as a natural mechanism to intercept alternative advanced glycation endproducts, thereby mitigating microvascular disease. We reported that antibodies against the glycoprotein KLH have elevated reactivity for glycopeptides from diabetic serum. These reactions are mediated by covalent binding between antibody light chains and carbonyl groups of glycated peptides. Diabetic animals that were immunized to induce reactive antibodies had attenuated diabetic nephropathy, which correlated with reduced levels of circulating and kidney-bound glycation products. Molecular analysis of antibody glycation revealed the preferential modification of light chains bearing germline-encoded lambda V regions. We previously noted that antibody fragments carrying V regions in the germline configuration are selected from a human Fv library by covalent binding to a reactive organophosphorus ester. These Fv fragments were specifically modified at light chain V region residues, which map to the combining site at the interface between light and heavy chains. These findings suggest that covalent binding is an innate property of antibodies, which may be encoded in the genome for specific physiological purposes. This hypothesis is discussed in context with current knowledge of the natural antibodies that recognize altered self molecules and the catalytic autoantibodies found in autoimmune disease.

Published
2009

15. Investigation of phase boundaries in composition materials based on Nb–Si eutectics reinforced by monocrystal fibers of α-Al2O3with Mo coating

Author

Shchetanov, B., Efimockin, I., Dmitrieva, V., and Shcheglova, T.

Abstract

Interaction of the Nb–Si–Ti matrix and monocrystalline fibers of α-Al2O3with barrier Mo coating at the phase boundaries matrix–coating–fiber is investigated. It is determined that the bending strength at 1300°C of the composition material reinforced by fibers with coating is two times higher than that of the matrix and higher than that of the composition material reinforced by fibers without coating by 50%.

Published
2017
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16. Organoboron compounds

Author

Shcheglova, T. A., Shashkova, E. M., Bochkareva, M. N., and Mikhailov, B. M.

Abstract

Conclusions 1.The tendency of dialkylmercaptoboranes to disproportionation depends on the nature of the alkyl radicals.2.Di-tert-butylmercaptoborane is a stable compound which remains unchanged on long standing. At room temperature, dimethyl- and diethylmercaptoboranes undergo partial disproportionation to trimers of alkylmercaptoboranes and thioborates, whereas di-n-propyl, diisopropyl, and di-n-butylmercaptoboranes are completely symmetrized.

Published
1968
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