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Bioscience, Biotechnology, and Biochemistry Volume 72, 2008 - Issue 10
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Original Articles

Conversion of L-Galactono-1,4-lactone to L-Ascorbate Is Regulated by the Photosynthetic Electron Transport Chain in Arabidopsis

Yukinori YABUTADepartment of Advanced Bioscience, Faculty of Agriculture, Kinki University;School of Agricultural, Biological, and Environmental Sciences, Faculty of Agriculture, Tottori University
,
Takanori MARUTADepartment of Advanced Bioscience, Faculty of Agriculture, Kinki University
,
Ayana NAKAMURADepartment of Advanced Bioscience, Faculty of Agriculture, Kinki University
,
Takahiro MIEDADepartment of Advanced Bioscience, Faculty of Agriculture, Kinki University
,
Kazuya YOSHIMURADepartment of Food and Nutritional Science, College of Bioscience and Biotechnology, Chubu University
,
Takahiro ISHIKAWAFaculty of Life and Environmental Science, Shimane University
&
Shigeru SHIGEOKADepartment of Advanced Bioscience, Faculty of Agriculture, Kinki University
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Pages 2598-2607 | Received 24 Apr 2008, Accepted 23 Jun 2008, Published online: 22 May 2014
 
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Abstract

In this study we focused on the effects of light irradiation and the addition of L-galactono-1,4-lactone (L-GalL) on the conversion of exogenous L-GalL to L-ascorbate (AsA) and the total AsA pool size in detached leaves of Arabidopsis plants and transgenic plants expressing the rat L-gulono-1,4-lactone oxidase gene. Increases in the total AsA level in L-GalL-treated leaves depended entirely on light irradiation. Treatment with an inhibitor of photosynthetic electron transport together with L-GalL reduced the increase in total AsA under light. Light, particularly the redox state of photosynthetic electron transport, appeared to play an important role in the regulation of the conversion of L-GalL to AsA in the mitochondria, reflecting the cellular level of AsA in plants.

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Related Research Data

The physiological roles and metabolism of ascorbate in chloroplasts
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Source: American Society for Biochemistry & Molecular Biology (ASBMB)

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