Evidence from Chloroplast Fragments for Three Photosynthetic Light Reactions

Evidence from Chloroplast Fragments for Three Photosynthetic Light Reactions

Previous reports from this laboratory described a new concept of three light reactions in plant photosynthesis comprising two short-wavelength (λ < 700 nm) photoreactions belonging to Photosystem II and one long-wavelength (λ > 700 nm) photoreaction belonging to Photosystem I. Among the electr...

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Published in:Proceedings of the National Academy of Sciences - PNAS Vol. 67; no. 3; pp. 1404 - 1409
Main Authors: Arnon, Daniel I., Chain, Richard K., McSwain, Berah D., Tsujimoto, Harry Y., Knaff, David B.
Format: Journal Article
Language:English
Published: United States National Academy of Sciences of the United States of America 01-11-1970
National Acad Sciences
Subjects:
Biological Sciences: Biochemistry
Chemical suspensions
Chlorophylls
Chloroplasts
Cytochromes
Electrons
Ferredoxins
Photosynthesis
Photosystem I
Photosystem II
Plants
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Abstract Previous reports from this laboratory described a new concept of three light reactions in plant photosynthesis comprising two short-wavelength (λ < 700 nm) photoreactions belonging to Photosystem II and one long-wavelength (λ > 700 nm) photoreaction belonging to Photosystem I. Among the electron carriers assigned to Photosystem II were cytochrome b559and plastocyanin and to Photosystem I, cytochrome f. According to a widely held view, the light-induced reduction of NADP by water requires the collaboration of Photosystems I and II and involves specifically cytochrome f and P700 (a portion of chlorophyll a peculiar to Photosystem I). By contrast, the new concept ascribes the light-induced reduction of NADP by water solely to the two photoreactions of Photosystem II, without the participation of Photosystem I and its components, cytochrome f and P700. Further evidence in support of the new concept has now been obtained from chloroplast fragments. Two kinds of chloroplast fragments have been prepared: (a) one with Photosystem II activity, capable--in the presence of plastocyanin--of photoreducing NADP with water but lacking P700 and functional cytochrome f and (b) another having only Photosystem I activity, lacking plastocyanin, and enriched in P700.
AbstractList Previous reports from this laboratory described a new concept of three light reactions in plant photosynthesis comprising two short-wavelength (lambda &lt; 700 nm) photoreactions belonging to Photosystem II and one long-wavelength (lambda &gt; 700 nm) photoreaction belonging to Photosystem I. Among the electron carriers assigned to Photosystem II were cytochrome b(559) and plastocyanin and to Photosystem I, cytochrome f.According to a widely held view, the light-induced reduction of NADP by water requires the collaboration of Photosystems I and II and involves specifically cytochrome f and P700 (a portion of chlorophyll a peculiar to Photosystem I). By contrast, the new concept ascribes the light-induced reduction of NADP by water solely to the two photoreactions of Photosystem II, without the participation of Photosystem I and its components, cytochrome f and P700.Further evidence in support of the new concept has now been obtained from chloroplast fragments. Two kinds of chloroplast fragments have been prepared: (a) one with Photosystem II activity, capable-in the presence of plastocyanin-of photoreducing NADP with water but lacking P700 and functional cytochrome f and (b) another having only Photosystem I activity, lacking plastocyanin, and enriched in P700.
Previous reports from this laboratory described a new concept of three light reactions in plant photosynthesis comprising two short-wavelength (λ < 700 nm) photoreactions belonging to Photosystem II and one long-wavelength (λ > 700 nm) photoreaction belonging to Photosystem I. Among the electron carriers assigned to Photosystem II were cytochrome b 559 and plastocyanin and to Photosystem I, cytochrome f . According to a widely held view, the light-induced reduction of NADP by water requires the collaboration of Photosystems I and II and involves specifically cytochrome f and P700 (a portion of chlorophyll a peculiar to Photosystem I). By contrast, the new concept ascribes the light-induced reduction of NADP by water solely to the two photoreactions of Photosystem II, without the participation of Photosystem I and its components, cytochrome f and P700. Further evidence in support of the new concept has now been obtained from chloroplast fragments. Two kinds of chloroplast fragments have been prepared: ( a ) one with Photosystem II activity, capable—in the presence of plastocyanin—of photoreducing NADP with water but lacking P700 and functional cytochrome f and ( b ) another having only Photosystem I activity, lacking plastocyanin, and enriched in P700.
Previous reports from this laboratory described a new concept of three light reactions in plant photosynthesis comprising two short-wavelength (λ < 700 nm) photoreactions belonging to Photosystem II and one long-wavelength (λ > 700 nm) photoreaction belonging to Photosystem I. Among the electron carriers assigned to Photosystem II were cytochrome b 559 and plastocyanin and to Photosystem I, cytochrome f . According to a widely held view, the light-induced reduction of NADP by water requires the collaboration of Photosystems I and II and involves specifically cytochrome f and P700 (a portion of chlorophyll a peculiar to Photosystem I). By contrast, the new concept ascribes the light-induced reduction of NADP by water solely to the two photoreactions of Photosystem II, without the participation of Photosystem I and its components, cytochrome f and P700. Further evidence in support of the new concept has now been obtained from chloroplast fragments. Two kinds of chloroplast fragments have been prepared: ( a ) one with Photosystem II activity, capable—in the presence of plastocyanin—of photoreducing NADP with water but lacking P700 and functional cytochrome f and ( b ) another having only Photosystem I activity, lacking plastocyanin, and enriched in P700.
Previous reports from this laboratory described a new concept of three light reactions in plant photosynthesis comprising two short-wavelength (λ < 700 nm) photoreactions belonging to Photosystem II and one long-wavelength (λ > 700 nm) photoreaction belonging to Photosystem I. Among the electron carriers assigned to Photosystem II were cytochrome b559and plastocyanin and to Photosystem I, cytochrome f. According to a widely held view, the light-induced reduction of NADP by water requires the collaboration of Photosystems I and II and involves specifically cytochrome f and P700 (a portion of chlorophyll a peculiar to Photosystem I). By contrast, the new concept ascribes the light-induced reduction of NADP by water solely to the two photoreactions of Photosystem II, without the participation of Photosystem I and its components, cytochrome f and P700. Further evidence in support of the new concept has now been obtained from chloroplast fragments. Two kinds of chloroplast fragments have been prepared: (a) one with Photosystem II activity, capable--in the presence of plastocyanin--of photoreducing NADP with water but lacking P700 and functional cytochrome f and (b) another having only Photosystem I activity, lacking plastocyanin, and enriched in P700.
Previous reports from this laboratory described a new concept of three light reactions in plant photosynthesis comprising two short-wavelength (lambda < 700 nm) photoreactions belonging to Photosystem II and one long-wavelength (lambda > 700 nm) photoreaction belonging to Photosystem I. Among the electron carriers assigned to Photosystem II were cytochrome b(559) and plastocyanin and to Photosystem I, cytochrome f.According to a widely held view, the light-induced reduction of NADP by water requires the collaboration of Photosystems I and II and involves specifically cytochrome f and P700 (a portion of chlorophyll a peculiar to Photosystem I). By contrast, the new concept ascribes the light-induced reduction of NADP by water solely to the two photoreactions of Photosystem II, without the participation of Photosystem I and its components, cytochrome f and P700.Further evidence in support of the new concept has now been obtained from chloroplast fragments. Two kinds of chloroplast fragments have been prepared: (a) one with Photosystem II activity, capable-in the presence of plastocyanin-of photoreducing NADP with water but lacking P700 and functional cytochrome f and (b) another having only Photosystem I activity, lacking plastocyanin, and enriched in P700.
Author Tsujimoto, Harry Y.
Arnon, Daniel I.
Chain, Richard K.
Knaff, David B.
McSwain, Berah D.
AuthorAffiliation DEPARTMENT OF CELL PHYSIOLOGY, UNIVERSITY OF CALIFORNIA, BERKELEY, CALIF. 94720
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Aided by grants from the National Institute of General Medical Sciences and National Science Foundation.
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Snippet Previous reports from this laboratory described a new concept of three light reactions in plant photosynthesis comprising two short-wavelength (λ < 700 nm)...
Previous reports from this laboratory described a new concept of three light reactions in plant photosynthesis comprising two short-wavelength (lambda < 700...
Previous reports from this laboratory described a new concept of three light reactions in plant photosynthesis comprising two short-wavelength (lambda &lt; 700...
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SubjectTerms Biological Sciences: Biochemistry
Chemical suspensions
Chlorophylls
Chloroplasts
Cytochromes
Electrons
Ferredoxins
Photosynthesis
Photosystem I
Photosystem II
Plants
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Title Evidence from Chloroplast Fragments for Three Photosynthetic Light Reactions
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