2000
DOI: 10.1074/jbc.275.8.5521
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X-ray Structure of β-Carbonic Anhydrase from the Red Alga,Porphyridium purpureum, Reveals a Novel Catalytic Site for CO2 Hydration

Abstract: The carbonic anhydrases (CAs) fall into three evolutionarily distinct families designated ␣-, ␤-, and ␥-CAs based on their primary structure. ␤-CAs are present in higher plants, algae, and prokaryotes, and are involved in inorganic carbon utilization. Here, we describe the novel x-ray structure of ␤-CA from the red alga, Porphyridium purpureum, at 2.2-Å resolution using intrinsic zinc multiwavelength anomalous diffraction phasing. The CA monomer is composed of two internally repeating structures, being folded … Show more

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Cited by 165 publications
(172 citation statements)
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“…The pea CA is an octamer in which dimers form tetramers that form octamers.Active sites are at the subunit interfaces and as suggested by EXAFS, mutagenesis and elemental analysis (Rowlett et al 1994;Bracey et al 1994), the zinc is bound by two cysteines and one histidine. In the algal CA an aspartate rather than water occupies the fourth co-ordination position (Mitsuhashi et al 2000). The algal CA was crystallized in the absence of substrate (or inhibitor) whereas the pea enzyme was crystallized in the presence of acetate.…”
Section: B -Carbonic Anhydrasesmentioning
confidence: 99%
“…The pea CA is an octamer in which dimers form tetramers that form octamers.Active sites are at the subunit interfaces and as suggested by EXAFS, mutagenesis and elemental analysis (Rowlett et al 1994;Bracey et al 1994), the zinc is bound by two cysteines and one histidine. In the algal CA an aspartate rather than water occupies the fourth co-ordination position (Mitsuhashi et al 2000). The algal CA was crystallized in the absence of substrate (or inhibitor) whereas the pea enzyme was crystallized in the presence of acetate.…”
Section: B -Carbonic Anhydrasesmentioning
confidence: 99%
“…In stark contrast to the mainly ␤-sheet structures of ␣-and ␥-class carbonic anhydrases, CD analysis of Cab and the S. oleracea enzyme suggests a predominantly ␣-helical structure. These prokaryotic and eukaryotic ␤-class carbonic anhydrases are from organisms at the phylogenetic extremes, suggesting this secondary structure feature is common to all ␤-class enzymes; indeed, the crystal structures of the P. sativum and P. purpureum ␤-class enzymes reveal a predominance of ␣-helical structure (35,41). The content and arrangement of the predicted secondary structure elements for Cab are similar to those of the other ␤-class carbonic anhydrases (Fig.…”
Section: Discussionmentioning
confidence: 70%
“…5). The recently solved crystal structures of the P. sativum and P. purpureum ␤-class carbonic anhydrase confirm that the two conserved cysteines and the conserved histidine are ligands to the active site zinc (35,41). The second oxygen/nitrogen ligand would be expected to be a water molecule; however, the fourth ligand of the recently solved P. purpureum crystal structure is a conserved aspartate corresponding to Asp-34 of Cab.…”
Section: Discussionmentioning
confidence: 95%
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