Spinach chloroplastic carbonic anhydrase: nucleotide sequence analysis of cDNA

We have determined the nucleotide sequence of a cDNA encoding spinach (Spinacia oleracea) chloroplastic carbonic anhydrase (CA). The open reading frame encodes a protein consisting of a transit peptide and a mature CA protein with a predicted mass of 24, 116 daltons. This represents the first report of a nucleotide sequence of a plant CA.     

Characterization of pea chloroplastic carbonic anhydrase. Expression inEscherichia coli and site-directed mutagenesis

A cDNA encoding the mature, chloroplast-localized carbonic anhydrase in pea has been expressed inE. coli. The enzyme is fully active and yields of up to 20% of the total soluble protein can be obtained from the bacteria. This expression system was used to monitor the effects of site-directed mutagenesis of seven residues found within conserved regions in the pea carbonic anhydrase amino acid sequence. The effects of these modifications are discussed with respect to the potential of various amino acids to act as sites for zinc coordination or intramolecular proton shuttles.     

Affinity chromatography of carbonic anhydrase

An insoluble support for affinity chromatography of carbonic anhydrase has been prepared by coupling Sulfamylon (p-aminomethylbenzene sulfonamide) to Sepharose 4B. Carbonic anhydrase binds to Sulfamylon-Sepharose very strongly and can be eluted under mild conditions by the addition of enzyme inhibitors. The gel was used to purify carbonic anhydrase from human erythrocytes and to separate isozymes B and C. It was also employed to separate native enzyme from modified carbonic anhydrases. The apoenzyme and the carboxymethyl enzyme of human carbonic anhydrase B were both isolated by this method.     

Immunohistochemical demonstration of carbonic anhydrase

Summary Rabbits were immunized using human erythroxyte carbonic anhydrase B (HCA B) purified. by the modified methods of Armstrong et al. (1966) and Bernstein and Schraer (1972). The globulin fraction was isolated by ammonium sulphate precipitation. The anti-HCA B globulin was specific, when judged using the double diffusion technique of Ouchterlony and immunoelectrophoresis. No cross reaction with human erythrocyte carbonic anhydrase C was found, but cross reactions with erythrocyte carbonic anhydrase from rat, mouse and guinea pig were observed. Fluorescein isothiocyanate conjugated goat anti-rabbit globulin was used for the localization of HCA B in tissue sections and erythrocytes on slides.     

Minireview plant carbonic anhydrase.

This article reviews the literature concerning plant carbonic anhydrase. The following topics are discussed: discovery, molecular weight and structure, zinc content, amino acid composition, mechanism and kinetics of catalytic activity, and function and localization in the plant. Where deficiencies exist in the literature on plant carbonic anhydrase reference is made to articles dealing with mammalian carbonic anhydrase. The theories of carbonic anhydrase function in plants are examined critically and evaluated in the light of existing evidence.     

Spirobisnaphthalenes effectively inhibit carbonic anhydrase

This study explores the correlation between human carbonic anhydrase (CA, EC 4.2.1.1) isoforms I and II (hCA I, II) and the inhibitory features of some spirobisnaphthalene derivatives. A group of spirobisnaphthalenes was synthesized and their hCA I and II inhibitory effects was investigated. The K_i values were similar for both CA isoenzymes, the compounds showing good inhibitory activity. K_i values ranged between 1.60 and 460.42?µM for hCA I and between 0.39 and 419.42?µM for hCA II, respectively. The spirobisnaphthalenes derivatives might be useful for designing CA inhibitors belonging to novel chemotypes compared to the highly investigated sulfonamides, sulfamates or coumarins.     

Human carbonic anhydrase isoenzyme C

Summary The effects of some alcohol and aldehyde containing fixatives on the antigenicity of human carbonic anhydrase isoenzyme C (HCA C) were tested in order to reveal the most suitable method for the immunohistochemical localization of this enzyme. The use of 2% and 4% paraformaldehyde or 2% glutaraldehyde solutions before immunoperoxidase (PAP) staining resulted in the loss of HCA C-specific reactivity in the surface epithelial cells of human appendicular and gastric mucosae, whereas the antigenic reactivity of HCA C was well retained in the parietal cells of gastric glands. In corresponding tissue sections fixed with one of the alcohol containing solutions (abs. methanol, methanol+chloroform 21 or Carnoy fluid) both the surface epithelial and parietal cells showed HCA C-specific immunostaining after the PAP procedure. In addition, the antigenicity of HCA C was found to be well preserved in some tubular cells of human kidney fixed in Carnoy fluid. The paraffin infiltration at relatively low temperature did not markedly affect the enzyme antigenicity. Fixation in Carnoy fluid coupled with paraffin embedding at 55–60° C in vacuo was found to give the best preservation of the antigenicity of HCA C with good morphological integrity for light microscopical localization.Grant support from the Finnish Culture Foundation