Titlebook: Regulation of Choloroplast Biogenesis; Joan H. Argyroudi-Akoyunoglou Book 1992 Plenum Press, New York 1992 Chloroplast.algae.biosynthesis.

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Cellular Differentiation Processes During Chloroplast Development in , changing environmental conditions, e.g. light or carbon sources (Parthier, 1981; Kempner, 1982; Reinbothe and Parthier, 1990; Schwartzbach, 1990; for reviews). Light brings about chloroplast formation from proplastids in a gene expression program termed chloroplast development (Schiff and Schwartzb

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Characterization of cDNAs which Encode Enzymes Involved in Chromoplast Differentiation and Carotenoicursors (proplastids, etioplasts, chloroplasts, chromoplasts,…) are often interconvertible but each type exhibits its own structure and biological function (Sitte et al., 1980; Akoyunoglou, 1984). Chloroplast differentiation represents a complex process involving a coordinate interaction between the

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Photoreceptors and their Action on Chloroplast Development Photoregulated Gene Expressionted mainly by photoreceptors. From these the reversible red/far red sensing phytochrome is the best characterized system in plants. Here, the pioneer work by Mohr and coworkers as well as that by Borthwick and Hendricks should be mentioned. In addition, the involvement of UV/blue photoreceptor syste

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Regulation of Gene Expression in Plastidogenesis by Light, Nitrate and Plastidic Factorformation of chlorophyll (ide) from protochlorophyll(ide). Moreover, light absorption by sensor pigments is crucial as well. These are phytochrome (operating predominantly in the red and far-red spectral range) and cryptochrome (operating in the blue and UV-A spectral range).

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Heat-Induced “Photo”Morphogenesis in Dark Grown Plants and Circadian Rhythmicity — is there a Connecthis is not self-evident. It may be asked why it should not be sufficient to synchronize plant development with the oscillating environmental factors and with the demands of plants for an interaction with the living surrounding via diurnal regulation. The observation of fluctuations at the level of

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Circadian Control of Gene Expression and Morphogenesis by Heat Shock in Barleyrce in photosynthesis whereas on the other hand it provides an important feedback from the environment for development and gene expression. Expression of many of these genes has been shown to be controlled by phytochrome (Tobin and Silverthorne, 1986). In recent years, however, it has become increas

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Coordination in LHC-II mRNA Transcription, Translation and Capacity for Chlorophyll Synthesis: Circanal and post-translational control (Gallagher and Ellis, 1982; Akoyunoglou and Argyroudi-Akoyunoglou, 1986). Control at the transcriptional level is of dual nature, exerted via phytochrome photoreception and via synchronization of the endogenous circadian clock (Tavladoraki et al. 1989; Tavladoraki