K. A. Clendenning scite author profile

K. A. Clendenning

4Publications

50Citation Statements Received

16Citation Statements Given

How they've been cited

144

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Affiliations

University of California, San Diego, Kettering Foundation, Antioch College

Publications

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Carbonic Anhydrase in Green Plants

Waygood¹,

Clendenning²

1950

Can. J. Res.

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Carbonic anhydrase was found in leaf extracts prepared from 19 of 22 land and aquatic plant species examined. The most active preparations were obtained from Spinacia oleracea L., Tetragonia expansa Thunb., Tropaeolum majus L., and Sambucus canadensis L. Carbonic anhydrase is located in the leaf cytoplasm. Previously conflicting observations concerning its intracellular localization have been reconciled experimentally. Plant carbonic anhydrase is strongly inhibited by M/1000 azide, M/1000 cyanide, and M/2000 sulphanilamide and is weakly inhibited by 2,4-dichlorophenoxyacetic acid, diethyldithiocarbamate, and o-phenanthroline. The white zones of variegated Tradescantia leaves contain 50% less carbonic anhydrase than their green counterparts. Albino barley leaves contain 75% less carbonic anhydrase than normal barley leaves of the same size and age. The carbonic anhydrase content of green leaves kept in darkness for four and five days was lowered by 30–50%. Very young leaves contain less enzyme than mature leaves. These results are discussed in relation to the possible role of carbonic anhydrase in photosynthesis.

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Studies of the Tomato in Relation to Its Storage: Ii. The Effects of Altered Internal Atmosphere Upon the Respiratory and Ripening Behaviour of Tomato Fruits Stored at 12.5 °c.

Clendenning¹

1941

Can. J. Res.

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When a mature green tomato fruit is stored at 12.5 °C. either with or without its stem, the expected respiratory climacteric accompanies the colour change associated with ripening. When the stem is removed and the stem scar area is covered carefully with hot paraffin wax, the fruit thereafter ripens slowly with a low, relatively constant rate of carbon dioxide output. These characteristics are ascribed to "auto-gas" storage resulting from restricted diffusion at the stem scar. The effect of waxing is reversible within limits since removal of the artificial seal after one month has resulted in a return to normal ripening and respiratory behaviour.When yellowing, yellow orange, and full red fruits are stored either with or without their stems, they complete in storage those phases of the respiratory climacteric that had not been completed before detachment from the plant. The careful waxing of fruits picked at these stages of maturity inhibits further coloration and reduces the rate of carbon dioxide output to the same extent as in fruits waxed at the mature green stage. The respiratory drift of fruits picked and stored unwaxed at the early "growing green" stage is characterized by two distinct peaks. Such fruits eventually ripen and the second peak is associated with the colour change that accompanies ripening. Similar fruits stored with stem scars waxed fail to ripen before their pathological "death" and their respiration rate is reduced by the waxing treatment.When yellowing and yellow-orange fruits are waxed, they become soft and highly susceptible to fungal attack before their ripening coloration has been completed. To inhibit the softening process in stored tomatoes, it thus appears to be necessary to apply wax before ripening has commenced. Unwaxed fruits become highly susceptible to fungal wastage only after attaining full ripeness. Waxed fruits on the other hand are subject to fungal wastage when green or partially coloured as well as when fully ripened. This is attributed to the progress of softening in the absence of the usual colour change associated with ripening. Waxing of the stem scars does not act as a deterrent to storage moulds at the waxed area. The waxed tomato has been found to be subject to several physiological disorders the symptoms of which are described.

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Anionic stimulation of the hill reaction in isolated chloroplasts

Gorham¹,

Clendenning²

1952

Archives of Biochemistry and Biophysics

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Photosynthesis and Phototaxis in Ulva Lactuca Gametes

Haxo

Clendenning

1953

The Biological Bulletin

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K. A. Clendenning

Carbonic Anhydrase in Green Plants

Studies of the Tomato in Relation to Its Storage: Ii. The Effects of Altered Internal Atmosphere Upon the Respiratory and Ripening Behaviour of Tomato Fruits Stored at 12.5 °c.

Anionic stimulation of the hill reaction in isolated chloroplasts

Photosynthesis and Phototaxis in Ulva Lactuca Gametes

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