期刊
CHEMELECTROCHEM
卷 8, 期 24, 页码 4725-4731出版社
WILEY-V C H VERLAG GMBH
DOI: 10.1002/celc.202101149
关键词
lactic acid; L-lactate; D-lactate; lactate-selective oxidoreductases; electrochemical biosensors
资金
- Ministry of Education and Science of Ukraine [0120U103398, 0121U109543]
- National Academy of Sciences of Ukraine
- National Research Foundation of Ukraine [2020.02/0100]
Lactic acid is a common metabolite in all living organisms, existing in L- and D-forms, which have various applications in biotechnology, food, pharmaceuticals, cosmetics, and the production of poly-L-lactate. Both L- and D-lactate are important biomarkers for diseases, indicators of food quality, and markers for assessing athlete training level. Enzymes such as FC b(2) and DLDH have shown high selectivity towards L- and D-stereoisomers of lactate, making them suitable for use in electrochemical biosensors.
Lactic acid, being in natural L-form, is an almost universal metabolite of all living organisms. It is also an important biotechnological product used as a food additive, component of many industrial products, pharmaceuticals, cosmetics and, recently, as a monomer for the production of biodegradable poly-L-lactate. D-Lactate is another stereoisomer known as a by-product of some fermentation processes and formed also in the colon and blood under some pathophysiological conditions, namely, diabetes, short bowel syndrome, and others. Thus, both lactate stereoisomers are important biomarkers of some diseases, indicators of food quality, and markers of sport medicine for assessing the level of athlete training. Therefore, the development of new highly selective biosensors for the routine analysis of these biomarkers is very important. Some electrochemical biosensors for lactate analysis are commercialized and exploit bacterial enzymes: NAD(+)-dependent L- or D-lactate dehydrogenases or lactate oxidase. The yeast cells produce another type of very specific response toward lactate enzymes: L-lactate:cytochrome c-oxidoreductase (EC 1.1.2.3, flavocytochrome b(2), FC b(2)) and D-lactate: ferricytochrome c-oxidoreductase (EC 1.1.2.4, DLDH), which are specific toward L- and D- stereoisomers of lactate, respectively. The main properties of both enzymes are absolute selectivity toward lactate isomers and non-specificity to the nature of electron acceptors, as well as an ability to direct electron transfer to electrodes. The listed properties make the enzymes very suitable for their application in electrochemical biosensorics. This Review is devoted mainly to the characterization of FC b(2)- and DLDH-based laboratory prototypes of electrochemical biosensors to promote scientific and possible commercial interest in such L-lactate- and D-lactate-specific bioanalytical tools.
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