EC Number |
Application |
Reference |
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1.1.99.6 | analysis |
construction of a D-Lactate electrochemical biosensor. The electrode for detection of D-lactate is prepared by immobilizing dye-linked D-LDH and multi-walled carbon nanotube within Nafion membrane. The electrode response to D-lactate is linear within the concentration range of 0.03-2.5 mM, and it shows little reduction in responsiveness after 50 days |
761556 |
1.1.99.6 | analysis |
D-lactate content is of great interest for food analysis. A D-lactate sensing system using a thermostable dye-linked D-lactate dehydrogenase (Dye-DLDH) is developed. The electrode for detection of D-lactate is prepared by immobilizing the thermostable Dye-DLDH and multi-walled carbon nanotube (MWCNT) within Nafion membrane. The electrocatalytic response of the electrode is clearly observed upon exposure to D-lactate. The electrode response to D-lactate is linear within the concentration range of 0.03-2.5 mM, and it shows little reduction in responsiveness after 50 days |
761556 |
1.1.99.6 | diagnostics |
D-lactate content is of great interest for clinical diagnosis. A D-lactate sensing system using a thermostable dye-linked D-lactate dehydrogenase (Dye-DLDH) is developed. The electrode for detection of D-lactate is prepared by immobilizing the thermostable Dye-DLDH and multi-walled carbon nanotube (MWCNT) within Nafion membrane. The electrocatalytic response of the electrode is clearly observed upon exposure to D-lactate. The electrode response to D-lactate is linear within the concentration range of 0.03-2.5 mM, and it shows little reduction in responsiveness after 50 days |
761556 |
1.1.99.6 | synthesis |
production of pyruvate in an enzyme-membrane reactor |
287842 |