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Chlorophyll Synthesis in a Deetiolated (det340) Mutant of Arabidopsis without NADPH-Protochlorophyllide (PChlide) Oxidoreductase (POR) A and Photoactive PChlide-F655.

N. Lebedev, B. Van Cleve, G. Armstrong, K. Apel
N. Lebedev
Institute for Plant Sciences, Swiss Federal Institute of Technology Zurich (ETH), Universitatstrasse 2, CH-8092 Zurich, Switzerland.
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B. Van Cleve
Institute for Plant Sciences, Swiss Federal Institute of Technology Zurich (ETH), Universitatstrasse 2, CH-8092 Zurich, Switzerland.
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G. Armstrong
Institute for Plant Sciences, Swiss Federal Institute of Technology Zurich (ETH), Universitatstrasse 2, CH-8092 Zurich, Switzerland.
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K. Apel
Institute for Plant Sciences, Swiss Federal Institute of Technology Zurich (ETH), Universitatstrasse 2, CH-8092 Zurich, Switzerland.
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Published December 1995. DOI: https://doi.org/10.1105/tpc.7.12.2081

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Abstract

Chlorophyll (Chl) synthesis in Arabidopsis is controlled by two light-dependent NADPH-protochlorophyllide (PChlide) oxidoreductases (PORs), one (POR A) that is active transiently in etiolated seedlings at the beginning of illumination and another (POR B) that also operates in green plants. The function of these two enzymes during the light-induced greening of dark-grown seedlings has been studied in the wild type and a deetiolated (det340) mutant of Arabidopsis. One of the consequences of the det mutation is that POR A is constitutively down-regulated, and therefore, synthesis of the POR A enzyme is shut off. When grown in the dark, the det340 mutant lacks POR A and the photoactive PChlide-F655 species but maintains the second PChlide reductase, POR B. Previously, photoactive PChlide-F655 has often been considered to be the only PChlide form that leads to Chl formation. Despite its deficiency in POR A and photoactive PChlide-F655, the det340 mutant is able to green when placed in the light. Chl accumulation, however, proceeds abnormally. At the beginning of illumination, seedlings of det340 mutants are extremely susceptible to photooxidative damage and accumulate Chl only at extremely low light intensities. They form core complexes of photosystems I and II but are almost completely devoid of light-harvesting structures. The results of this study demonstrate that in addition to the route of Chl synthesis that has been studied extensively in illuminated dark-grown wild-type plants, a second branch of Chl synthesis exists that is driven by POR B and does not require POR A.

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Chlorophyll Synthesis in a Deetiolated (det340) Mutant of Arabidopsis without NADPH-Protochlorophyllide (PChlide) Oxidoreductase (POR) A and Photoactive PChlide-F655.
N. Lebedev, B. Van Cleve, G. Armstrong, K. Apel
The Plant Cell Dec 1995, 7 (12) 2081-2090; DOI: 10.1105/tpc.7.12.2081

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Chlorophyll Synthesis in a Deetiolated (det340) Mutant of Arabidopsis without NADPH-Protochlorophyllide (PChlide) Oxidoreductase (POR) A and Photoactive PChlide-F655.
N. Lebedev, B. Van Cleve, G. Armstrong, K. Apel
The Plant Cell Dec 1995, 7 (12) 2081-2090; DOI: 10.1105/tpc.7.12.2081
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The Plant Cell
Vol. 7, Issue 12
Dec 1995
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