N. A. Kolotyeva scite author profile

N. A. Kolotyeva

5Publications

10Citation Statements Received

28Citation Statements Given

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Affiliations

Samara State Medical University, Ministry of Health of the Russian Federation

Publications

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Blood Group and Human Diseases (Review of Literature)

Gilmiyarova

Kolotyeva

Kuzmicheva

et al. 2020

RCLD

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AB0 blood group antigens were discovered over a century ago; however, it is still important to study their role in development of various pathological conditions. Today it is known that antigenic determinants of this blood group are present not only on erythrocyte membrane but also on other cells and tissues: platelets, gastrointestinal epithelium and salivary glands, respiratory system cells. In the last decade, a large number of studies have appeared to reveal the relationship between a specific disease and blood group type, meta-analyses have been published. Previously, the authors have studied the metabolic status, cell composition and coagulation profile of clinically healthy individuals for more than on 180,000 donations, that allowed to identify group-specific features for each blood group. This review presents generalized data on the association of such pathological conditions as coronary heart disease, thromboembolic complications, tumors of various localizations, inflammatory and destructive oral diseases, psychiatric and some infectious diseases with the presence or absence of antigenic determinants A and B. Carriers of blood group 0 (I) are generally more resistant to diseases, with the exception of H.pylori-associated gastrointestinal diseases. Carriers of «antigenic» blood groups A (II), B (III), AB (IV) are more susceptible to development of infectious, cardiovascular and cancer diseases. The presented data demonstrate clinical significance of the definition of group typing not only for selection of blood and its components during transfusion and transplantation, but also for diagnostics, determination of risk group and tactics for treatment patients with different nosologies.

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The effect of pyruvate on antibody interaction with group-specific erythrocyte antigens

Gylmiyarova

Radomskaya

Gusyakova

et al. 2014

Biochem. Moscow Suppl. Ser. B

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ABO Blood Group Antigens as a Model of Studying Protein-Protein Interactions

Gylmiyarova¹,

Ryskina²,

Kolotyeva³

et al. 2019

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This work presents a research of intermolecular interactions on the example of the antigen antibody interactions of the ABO system. This model could be successfully used in the future due to the lack of knowledge in the area of the ABO antigen's behavior as a biomolecule and the integration of these structures into chain of metabolic processes in a human being. Using computer PASS system ("in silico" research), we describe the possible biological effects of pyruvate, lactate, and antigen determinants A and B. Glycoproteins A and B are very perspective to study as biological active connectors due to the wide range of their biological effects. The obtained knowledge proves that ABO antigen, as well as other glycoprotein conjugates, could play an important role in intercellular adhesion and signal transmission, which could be used in perspective in personalized medicine, target therapy, and evaluation of lab results in clinical practice.

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Molecular profile of oral fluid in new coronavirus infection

et al. 2021

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Oral fluid is an alternative biological material that confirms correlations with blood parameters in various pathological conditions of the body. In order to find a non-invasive approach to stratification of patients with COVID-19 disease, molecular biomarkers of the oral fluid have been determined in patients with moderate coronavirus infection in comparison with clinically healthy individuals. It has been shown that proteomic, carbohydrate, macro- and microelement profiles of the oral fluid in coronavirus infection can be used for diagnostics. The features of protein metabolism were revealed: an increase in the content of total protein, urea; increased activity of enzymes aspartate aminotransferase, gamma glutamyl transpeptidase, creatine phosphokinase, alkaline phosphatase; changes in carbohydrate metabolism, which is expressed by an increase in glucose and lactate levels, an increase in lactate dehydrogenase activity, sodium, chloride, calcium, magnesium, iron content.

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Role of the Metabolic Minor Components in the Regulation of Intermolecular Interaction

Gilmiyarova¹,

Kolotyeva²,

Radomskaya³

et al. 2016

JBM

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This work presents a study of intermolecular interactions using the model of the antigen antibody interactions of the ABO system. Absence of knowledge in the field of the ABO antigen's behavior as a biomolecule and the integration of these structures into cascade of metabolic and physiological processes create the conditions, which promote a successful using this new model in the future. Molecular recognition and designing are included into the main catalog of computer methods of research, which is called "in silico". Using PASS system, we describe the possible biological effects of pyruvate, lactate, antigen determinants A and B. Pharmacological effects and molecular mechanisms of influence on activity of the factors regulating inside and intercellular interactions are predicted for such minor components as pyruvate and lactate. Due to variety of the biological effects, glycoproteins A and B are very perspective to study as biological active connections. The obtained knowledge proves that AB0 antigens, as well as other glycoprotein conjugates are important mediators of intercellular adhesion and participants of signal transmission. Using ABO blood group system as a model helped to describe individual differences of parameters-degree and time of the agglutination beginning of antigen/antibody blood types of the AB0-are revealed.

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N. A. Kolotyeva

Blood Group and Human Diseases (Review of Literature)

The effect of pyruvate on antibody interaction with group-specific erythrocyte antigens

ABO Blood Group Antigens as a Model of Studying Protein-Protein Interactions

Molecular profile of oral fluid in new coronavirus infection

Role of the Metabolic Minor Components in the Regulation of Intermolecular Interaction

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