S. P. S. Gill scite author profile

The carbonic anhydrases (CAs) are mostly zinc-containing metalloenzymes which catalyze the reversible hydration/dehydration of carbon dioxide/bicarbonate. The CAs have been extensively studied because of their broad physiological importance in all kingdoms of life and clinical relevance as drug targets. In particular, human CA isoform II (HCA II) has a catalytic efficiency of 108 M−1 s−1, approaching the diffusion limit. The high catalytic rate, relatively simple procedure of expression and purification, relative stability and extensive biophysical studies of HCA II has made it an exciting candidate to be incorporated into various biomedical applications such as artificial lungs, biosensors and CO2 sequestration systems, among others. This review highlights the current state of these applications, lists their advantages and limitations, and discusses their future development.

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Carbonic Anhydrase: An Efficient Enzyme with Possible Global Implications

Boone

Gill

Habibzadegan

et al. 2013

International Journal of Chemical Engineering

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As the global atmospheric emissions of carbon dioxide (CO2) and other greenhouse gases continue to grow to record-setting levels, so do the demands for an efficient and inexpensive carbon sequestration system. Concurrently, the first-world dependence on crude oil and natural gas provokes concerns for long-term availability and emphasizes the need for alternative fuel sources. At the forefront of both of these research areas are a family of enzymes known as the carbonic anhydrases (CAs), which reversibly catalyze the hydration of CO2into bicarbonate. CAs are among the fastest enzymes known, which have a maximum catalytic efficiency approaching the diffusion limit of 108 M−1s−1. As such, CAs are being utilized in various industrial and research settings to help lower CO2atmospheric emissions and promote biofuel production. This review will highlight some of the recent accomplishments in these areas along with a discussion on their current limitations.

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Chemical evaluation of some important varieties of onion (Allium cepa L.)

Bajaj

Kaur

Singh

et al. 1980

Plant Food Hum Nutr

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Structural, catalytic and stabilizing consequences of aromatic cluster variants in human carbonic anhydrase II

Boone

Gill

et al. 2013

Archives of Biochemistry and Biophysics

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The presence of aromatic clusters has been found to be an integral feature of many proteins isolated from thermophilic microorganisms. Residues found in aromatic cluster interact via π-π or C-H···π bonds between the phenyl rings, which are among the weakest interactions involved in protein stability. The lone aromatic cluster in human carbonic anhydrase II (HCA II) is centered on F226 with the surrounding aromatics F66, F95 and W97 located 12 Å posterior the active site; a location which could facilitate proper protein folding and active site construction. The role of F226 in the structure, catalytic activity and thermostability of HCA II was investigated via site-directed mutagenesis of three variants (F226I/L/W) into this position. The measured catalytic rates of the F226 variants via 18O-mass spectrometry were identical to the native enzyme, but differential scanning calorimetry studies revealed a 3-4 K decrease in their denaturing temperature. X-ray crystallographic analysis suggests that the structural basis of this destabilization is via disruption and/or removal of weak C-H···π interactions between F226 to F66, F95 and W97. This study emphasizes the importance of the delicate arrangement of these weak interactions among aromatic clusters in overall protein stability.

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Lachrymatory Factor and Other Chemical Constituents of Some Varieties of Onion (Allium cepa L.)

Bajaj

Kaur

Singh

et al. 1979

Journal of Plant Foods

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S. P. S. Gill

Carbonic Anhydrases and Their Biotechnological Applications

Carbonic Anhydrase: An Efficient Enzyme with Possible Global Implications

Chemical evaluation of some important varieties of onion (Allium cepa L.)

Structural, catalytic and stabilizing consequences of aromatic cluster variants in human carbonic anhydrase II

Lachrymatory Factor and Other Chemical Constituents of Some Varieties of Onion (Allium cepa L.)

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