FORMATE DEHYDROGENASE: FROM NAD(P)H REGENERATION TO THE TARGET IN PATHOGENS BIOFILMS, A COMPONENT OF HIGHLY EFFICIENT HYBRID BIOCATALYSTS AND CO2 FIXATION FROM THE ATMOSPHERE

Vladimir I. Tishkov, Anastasia A. Pometun, Svyatoslav S. Savin
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Abstract

NAD(P)+ -dependent formate dehydrogenase (EC 1.2.1.2, FDH) catalyzes the simple from chemical and biological point of view reaction of formate ion oxidation to carbon dioxide with corresponding reduction of NAD(P)+ to NAD(P) H. Advances in the life sciences have shown that this reaction plays an extremely important role in a wide variety of organisms. The areas and types of practical applications of FDH are also permanently expanding. In this review we considered the main stages in the development of understanding and knowledge about the role of formate dehydrogenase in living systems. Achievements in creation of highly effi cient catalysts based on FDH for classic biotechnology as well as for new areas are also considered. The importance of appropriate choice of the initial FDH for the creation of a biocatalyst with the required and prescribed properties with minimal costs is shown. The prospects for the use of FDH for the fixation of CO2 are discussed.
甲酸脱氢酶:从nad (p) h再生到病原体生物膜中的目标,是高效杂交生物催化剂和大气co2固定的组成部分
NAD(P)+依赖的甲酸脱氢酶(EC 1.2.1.2, FDH)从化学和生物学的角度催化甲酸离子氧化生成二氧化碳的简单反应,并将NAD(P)+还原为NAD(P) h。生命科学的进展表明,该反应在多种生物中起着极其重要的作用。外佣的实际应用领域和类型也在不断扩大。在这篇综述中,我们考虑了甲酸脱氢酶在生命系统中作用的理解和知识发展的主要阶段。在经典生物技术和新领域中,基于FDH的高效催化剂的创造也得到了考虑。适当选择初始外佣对于以最小的成本创造具有所需和规定性质的生物催化剂的重要性。讨论了利用FDH固定CO2的前景。
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