EC Number |
Application |
Reference |
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4.2.1.1 | analysis |
carbonic anhydrase assay based on membrane inlet mass spectrometry. A quantitative assessment of the carbonic anhydrase activity in photosystem II |
678412 |
4.2.1.1 | analysis |
carbonic anhydrase may serve as a biochemical marker for photosynthetic capacity in teak genotypes |
682948 |
4.2.1.1 | diagnostics |
activity of carbonic anhydrase is significantly lower in patients with renal cell carcinoma than in controls. The marker carbonic anhydrase might be potentially important as an additional biochemical tool for diagnosing renal cell carcinoma |
758318 |
4.2.1.1 | drug development |
discovery and development of carbonic anhydrase inhibitors is crucial for their clinical use as antiepileptic, diurectic, and antiglaucoma agents |
747248 |
4.2.1.1 | drug development |
Drosophila beta-CA represents a highly active mitochondrial enzyme that is a potential model enzyme for anti-parasitic drug development |
714606 |
4.2.1.1 | drug development |
superfamily of metalloenzymes carbonic anhydrases (CAs) has a potential as druggable enzymes to limit the development of Plasmodium falciparum gametocytes |
748311 |
4.2.1.1 | drug development |
the isozymes CA IVX is a possible drug target for the treatment of epilepsy, some retinopathies, and skin tumors |
748270 |
4.2.1.1 | environmental protection |
carbon dioxide absorption into carbonate solutions, promoted by the enzyme carbonic anhydrase, is proposed as potential technology for CO2 capture. The use of solid CA-based biocat-alysts allows the enzyme recovery and reuse under continuous operating conditions typical of industrial applications |
747013 |
4.2.1.1 | environmental protection |
recombinant engineered mASCA enzyme exhibits high production yield and sufficient stabilities against relatively high temperature and alkaline pH, which are required conditions for the development of more efficient enzymatic CCS systems. Carbon capture and storage (CCS) is a technology that can capture up to 90% of the carbon dioxide (CO2) emissions produced from the use of fossil fuels in electricity generation and industrial processes, preventing the carbon dioxide from entering the atmosphere. mASCA has the potential to play an important role in CCS systems, particularly in an enzyme-based CO2 capture system that requires large amounts of CA enzyme |
747292 |
4.2.1.1 | environmental protection |
the enzyme can be useful in biomimetic sequestration of CO2 into CaCO3 as a biological catalyst |
-, 715948 |