Journal ArticleDOI
Macromolecular physiology of plastids. VI. Changes in membrane structure associated with shifts in the absorption maxima of the chlorophyllous pigments.
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TLDR
A causal connexion between the 2 phenomena can be suggested and the dispersal process can proceed in either light or darkness following complete photoconversion of protochlorophyllide.Abstract:
Dispersal of the prolamellar body tubules into primary lamellar layers has been studied in leaves of dark-grown bean seedlings ( Phaseolus vulgaris L.). Following complete photoconversion of protochlorophyllide the dispersal process can proceed in either light or darkness. The dispersal is reversibly inhibited in leaves at o °C. Above o °C the time course for the dispersal is temperature dependent. The spectral shift of the in vivo absorption maximum of newly formed chlorophyllide from 684 to 672 nm is also inhibited at o °C and the time course is temperature-dependent in a manner similar to that of the membrane dispersal. A causal connexion between the 2 phenomena can thus be suggested. Derangement of the tubular membranes produced by heat treatment or by freezing and thawing in darkness causes the appearance of photoactive protochlorophyllide absorbing at 635 nm. Photoconversion of protochlorophyllide 635 nm results in chlorophyllide absorbing at 672 nm and further dissociation of the membranes. Denaturation of the prolamellar body membranes by heating or by slow thawing results in the formation of photoinactive protochlorophyllide absorbing at 632 nm.read more
Citations
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Journal ArticleDOI
On the aggregational states of protochlorophyllide and its protein complexes in wheat etioplasts
TL;DR: The results support the interpretation that protochlorophyllide is present as large aggregates in combination with NADPH and NADPH-protochlorophyllides oxidoreductase in the prolamellar bodies.
Journal ArticleDOI
The Correlated Appearance of Prolamellar Bodies, Protochlorophyll(ide) Species, and the Shibata Shift during Development of Bean Etioplasts in the Dark.
Shimon Klein,Jerome A. Schiff +1 more
TL;DR: The structure and physiology of the etioplast was investigated in developing primary leaves of 3- to 9-day-old dark-grown bean seedlings, including certain similarities betweendark-grown Euglena cells and 3-to- 4- day-old etiolated bean leaves, and the presence of the Shibata shift appear to be closely correlated.
Journal ArticleDOI
The rice faded green leaf locus encodes protochlorophyllide oxidoreductase B and is essential for chlorophyll synthesis under high light conditions.
Yasuhito Sakuraba,Lutfor Rahman,Sung-Hwan Cho,Ye-Sol Kim,Hee-Jong Koh,Soo-Cheul Yoo,Nam-Chon Paek +6 more
TL;DR: The results demonstrate that OsPORB is essential for maintaining light-dependent Chl synthesis throughout leaf development, especially under HL conditions, whereas OsPORA mainly functions in the early stages of leaf development.
Journal ArticleDOI
The Regulation of Enzymes Involved in Chlorophyll Biosynthesis
TL;DR: The aim of this review is to summarize the current knowledge on the biochemistry and molecular biology of the C5-pathway enzymes, their regulated expression in response to light, and the impact of chlorophyll biosynthesis on chloroplast development.
Journal ArticleDOI
PORA and PORB, Two Light-Dependent Protochlorophyllide-Reducing Enzymes of Angiosperm Chlorophyll Biosynthesis.
TL;DR: As the “pigment of life,” Chl plays a fundamental role in the energy absorption and transduction activities of all photosynthetic organisms and helps prevent photodynamic damage by large amounts of not immediately photoconvertible Pchlide.
References
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Journal ArticleDOI
Energy transfer between protochlorophyllide molecules: evidence for multiple chromophores in the photoactive protochlorophyllide-protein complex vivo and in vitro.
TL;DR: It is concluded that at 77 °K the main form of protochlorophyllide in the holochrome transfers a large proportion of its excitation energy to PChl-650, and the efficiency of transfer increases as the fraction of chlorophyllid a molecules increases.
Journal ArticleDOI
Terminal steps of chlorophyll a biosynthesis in higher plants
John B. Wolff,Leonard Price +1 more
TL;DR: Solubility and chromatographic data indicate that protochlorophyllide is photochemically reduced to chlorophyLLide a, which is then esterified with phytol, in the presence of chlorophyllase, to formchlorophyll a.
Journal ArticleDOI
Purification of protochlorophyllide holochrome.
TL;DR: Phototransformable protochlorophyllide holochrome was prepared from etiolated bean leaves and the detergent Triton X-100 in the presence of glycerol and tricine-KOH buffer enhanced the extractability, specific activity, and phototrans formability.
Journal ArticleDOI
Early stages in the development of plastid fine structure in red and far-red light.
TL;DR: Developmental changes in fine structure were studied in plastids of etiolated bean leaves during the time required for the protochlorophyllide-chlorophyllid transformation and the following lag phase prior to chlorophyll accumulation.
Journal ArticleDOI
On the nature and possible functions of the 673- and 684-mu forms in vivo of chlorophyll.
TL;DR: The results prove that esterification determines the position of the principal red peaks in vivo of chlorophyll, probably because it changes the nature of the relations between the pigment and the lipoprotein complex.
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The Correlated Appearance of Prolamellar Bodies, Protochlorophyll(ide) Species, and the Shibata Shift during Development of Bean Etioplasts in the Dark.
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