eBook Phytochrome and Photoregulation in Plants download
by Masaki Furuya
Author: Masaki Furuya
Publisher: Academic Pr (October 1, 1987)
ePub: 1773 kb
Fb2: 1895 kb
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Subcategory: Science and Mathematics
Authors and affiliations. Masaki Furuya Tomizawa, . I. Sato, . Furuya, M. (1989) Phytochrome control of multiple transcripts of the phytochrome gene in Pisum sativum.
Authors and affiliations. Naoko Ito. Ken-ichi Tomizawa. In: Phytochrome and photoregulation in plants, pp. 23–27, Furuya, . ed. Academic Press, TokyoGoogle Scholar. Saji, . Furuya, . Takimoto, A. (1982) Spectral dependence of night-break effect on photoperiodic floral induction in Lemna paucicoslata 441. Plant Cell Physiol. 23, 623–629Google Scholar.
Journal of Plant Growth Regulation. Phytochrome control of multiple transcripts of the phytochrome gene in Pisum sativum. Ken-ichi Tomizawa, Naoki Sato, Masaki Furuya. Plant Molecular Biology. Phytochrome and photoperiodic induction. Pea Mutants with Reduced Sensitivity to Far-Red Light Define an Important Role for Phytochrome A in Day-Length Detection.
In: Furuya M (ed) Phytochrome and Photomorphogenesis in Plants, pp. .Tobin EM, Silverthorne J: Light regulation of gene expression in higher plants. 23–37. Academic Press, Tokyo (1987). 7. Sato N, Furuya M: Synthesis of translatable mRNA for phytochrome during imbibition in embryonic axes of Pisum sativum L. Plant Cell Physiol 26: 1511–1517 (1985). 8. Sato N: Nucleotide sequence and expression of the phytochrome gene in Pisum sativum: differential regulation by light of multiple transcripts. Plant Mol Biol 11: 697–710 (1988). Ann Rev Plant Physiol 36: 569–593 (1985).
The plant photoreceptor phytochrome is organised in a small gene family with phytochrome A (phyA) being unique, because it is specifically degraded upon activation by light. This so called photodestruction is thought to be important for dynamic aspects of sensing such as measuring day length or shading by competitors. Signal-triggered proteolytic degradation has emerged as central element of signal crosstalk in plants during recent years, but many of the molecular players are still unknown. We therefore analyzed a jasmonate (JA)-deficient rice mutant, hebiba, that in several aspects resembles.
Plants utilize light not only for photosynthesis but also as environmental signals. Masaki Furuya that gives an overview of the historical background. They are capable of perceiving wavelength, intensity, direction, duration, and other attributes of light to perform appropriate physiological and developmental changes. This volume presents overviews of and the latest findings in many of the interconnected aspects of plant photomorphogenesis, including photoreceptors (phytochromes, cryptochromes, and phototropins), signal transduction, photoperiodism, and circadian rhythms, in 42 chapters. Also included, is a prologue by Prof.
regulation of gene expression also creates characteristic distribution patterns of.
Identification of all genes involved in the phytochrome (phy)-mediated responses of plants to their light environment is an important goal in providing an overall understanding of light-regulated growth and development.
The contents of ly measurable phytochrome A (PhyA) and phytochrome B (PhyB) and the corresponding immunochemically detectable apoproteins (PHYA and PHYB) were examined in dark- and light-grown tissues of the aurea mutant of tomato and its wild-type (WT).
Furuya M (1987) Phytochrome and Photoregulation in Plants. López-Figueroa F, Rüdiger W (1990) A possible control by phytochrome and other photoreceptors of protein accumulation in the green alga Ulva rigida. Photochem Photobiol in press. Academic Press Inc Tokyo, Orlando, San Diego, New York, Austin, Boston, London, Sydney, Toronto. Grimm R, Lottspeich F, Schneider HjAW, Rüdiger W (1986) Investigation of the peptide chain of 124 kDA phytochrome: localization of proteolytic fragments and epitopes for monoclonal antibodies.
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In: Furuya M (ed) Phytochrome and photoregulation in plants. Academic Press, New York, pp 95–114. Nagatani A, Kay SA, Deak M, Chua NH, Furuya M (1991) Rice type I phytochrome regulates hypocotyls elongation in transgenic to-bacco seedlings
In: Furuya M (ed) Phytochrome and photoregulation in plants. Nagatani A, Kay SA, Deak M, Chua NH, Furuya M (1991) Rice type I phytochrome regulates hypocotyls elongation in transgenic to-bacco seedlings. Proc Natl Acad Sci USA 88:5207–5277. Nagy F, Schäfer E (2002) Phytochromes control photomorphogenesis by diVerentially regulated, interacting signaling pathways in high-er plants. Annu Rev Plant Biol 53:329–355. Nemhauser JL (2008) Dawning of a new era: photomorphogenesis as an integrated molecular network.