The Conversion of Photoinactive Protochlorophyllide(633) to Phototransformable Protochlorophyllide(650) in Etiolated Bean Leaves Treated with delta-Aminolevulinic Acid |
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Authors: | Gassman M L |
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Institution: | Department of Biological Sciences, University of Illinois at Chicago Circle, Chicago, Illinois 60680. |
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Abstract: | The relationship of phototransformable protochlorophyllide to photoinactive protochlorophyllide has been studied in primary leaves of 7- to 9-day-old dark-grown bean (Phaseolus vulgaris L. var. Red Kidney) seedlings. Various levels of photoinactive protochlorophyllide, absorbing at 633 nm in vivo, were induced by administering δ-aminolevulinic acid to the leaves in darkness. Phototransformable protochlorophyllide, absorbing at 650 nm in vivo, was subsequently transformed to chlorophyllide by a light flash, and the regeneration of the photoactive pigment was followed by monitoring the absorbance increase at 650 nm in vivo. A small increase in the level of protochlorophyllide633 causes a marked increase in the extent of regeneration of protochlorphyllide650 following a flash. High levels of the inactive pigment species, however, retard the capacity to reform photoactive protochlorophyllide. A nonstoichiometric and kinetically complex decrease in absorbance at 633 nm in vivo accompanied the absorbance increase at 650 nm. The half-time for protochlorophyllide650 regeneration in control leaves was found to be three times longer than the half-time for conversion of chlorophyllide678 to chlorophyllide683 at 22 C. The results are consistent with the hypothesis that protochlorophyllide633 is a direct precursor of protochlorophyllide650 and that the protein moiety of the protochlorophyllide holochrome acts as a “photoenzyme” in the conversion of protochlorophylide to chlorophyllide. |
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