Margaret R. Dwyer scite author profile

Plant carbonic anhydrases (CAs) have a range of molecular weights (MW). Among flowering plants, dicotyledons with C3 photosynthesis have two isoenzymes of 140-250K each with 6 subunits, while monocotyledons have two isoenzymes of 42-45K. Plant and animal CAs have a similar amino acid content, subunit size and zinc content, suggesting they are homologous proteins, although the higher plant CAs have no esterase activity and are not strongly inhibited by sulfonamides. Algal CAs vary widely in MW and some are highly sensitive to sulfonamides like the animal enzymes. The two plant isoenzymes, from the chloroplast and cytosol, can be separated by gradient polyacrylamide gel electrophoresis and subsequently visualized by enzymic H+ ion production. In plants, CAs probably facilitate diffusion of CO2 to the site of photosynthetic fixation; they may also have a role in pH regulation, in the use of bicarbonate by aquatic plants and in concentrating inorganic carbon within the chloroplast.

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Evidence for the synthesis in vivo of proteins of the calvin cycle and of the photosynthetic electron-transfer pathway on chloroplast ribosomes

Smillie

Graham

Dwyer

et al. 1967

Biochemical and Biophysical Research Communications

115

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A light-induced β-1,3-glucan breakdown associated with the differentiation of chloroplasts in Euglena gracilis

Dwyer

Smillie

1970

Biochimica et Biophysica Acta (BBA) - Bioenergetics

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?-1,3 Glucan: A Source of Carbon and Energy for Chloroplast Development in Euglena A Gracilis

Dwyer¹,

Smillie

1971

Aust. Jnl. Of Bio. Sci.

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The illumination of dark-adapted cells of E. gracilis under non-dividing conditions induced not only the production of chloroplasts but also a rapid breakdown of J3-1,3�glucan, the reserve carbohydrate of this organism. The decrease in ,8-1,3-glucan preceded the synthesis of most of the chlorophyll and was confined to the first 24 hr of illumination, whereas chlorophyll synthesis continued for at least 72 hr.

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Margaret R. Dwyer

Chemical Properties, Distribution, and Physiology of Plant and Algal Carbonic Anhydrases

Evidence for the synthesis in vivo of proteins of the calvin cycle and of the photosynthetic electron-transfer pathway on chloroplast ribosomes

A light-induced β-1,3-glucan breakdown associated with the differentiation of chloroplasts in Euglena gracilis

?-1,3 Glucan: A Source of Carbon and Energy for Chloroplast Development in Euglena A Gracilis

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