2012
DOI: 10.1021/bi301099k
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Water Networks in Fast Proton Transfer during Catalysis by Human Carbonic Anhydrase II

Abstract: Variants of human carbonic anhydrase II (HCA II) with amino-acid replacements at residues in contact with water molecules in the active-site cavity have provided insights into the proton transfer rates in this protein environment. X-ray crystallography and 18O exchange measured by membrane inlet mass spectrometry have been used to investigate structural and catalytic properties of variants of HCA II containing the replacements of Tyr7 with Phe (Y7F) and Asn67 with Gln (N67Q). The rate constants for proton tran… Show more

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Cited by 53 publications
(43 citation statements)
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“…This residue is located in the enzyme active site and is connected to the zinc-bound water molecule through a well ordered hydrogen bonded water network. [6][7][8][9] In the majority of human α-CA isoforms, this residue is a histidine (e.g., His64 in hCA II, IV, VII, IX, etc). 2,5 For a long time α-CAs were studied mainly for their medicinal chemistry applications as drug targets; only recently, in parallel to these uses, these enzymes have seen an increasing interest in their employment as biocatalysts for carbon dioxide sequestration processes and biofuel production.…”
mentioning
confidence: 99%
“…This residue is located in the enzyme active site and is connected to the zinc-bound water molecule through a well ordered hydrogen bonded water network. [6][7][8][9] In the majority of human α-CA isoforms, this residue is a histidine (e.g., His64 in hCA II, IV, VII, IX, etc). 2,5 For a long time α-CAs were studied mainly for their medicinal chemistry applications as drug targets; only recently, in parallel to these uses, these enzymes have seen an increasing interest in their employment as biocatalysts for carbon dioxide sequestration processes and biofuel production.…”
mentioning
confidence: 99%
“…Furthermore, binding of 623 causes an almost complete displacement of the ordered water network in the active site that has been determined important for catalysis. 26,27 The only water present in the enzymes active site is observed coordinated between the hydroxyl of the side chain of Thr200 and the NH of the sulfonamide linker of 623 (Figure 2A). The "tail" region of 623, comprising the sulfamate-linked acetylated glucose moiety shows limited interaction with the hCA IX-mimic active site.…”
Section: Journal Of Medicinal Chemistrymentioning
confidence: 99%
“…In a linear water chain, the proton can hop forward or backward along the file, but not sideways or up and down. Moreover, a protein may construct a channel that optimizes the positions of the waters for rapid proton transfer [99]; branching in a hydrogen-bonded water network slows proton conduction [105].…”
Section: Proton Transfer In Liquid Water and In Proteinsmentioning
confidence: 99%