Results 141 to 150 of about 1,523,037 (192)
Light signaling differentially regulates the expression of group IV of the B-box zinc finger family. [PDF]
Plant Signal Behav, 2017 Zhang X, Lin R.
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Light Signaling Mechanism of Two Tandem Bacteriophytochromes. [PDF]
Structure, 2015 Yang X +5 more
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Journal of the Optical Society of America, 1975
A nomogram is presented for predicting the sighting range for white, steady-burning signal lights. The theoretical and experimental bases are explained and instructions are provided for its use for a variety of practical problems concerning the visibility of signal lights.
Jacqueline I. Gordon +2 more
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A nomogram is presented for predicting the sighting range for white, steady-burning signal lights. The theoretical and experimental bases are explained and instructions are provided for its use for a variety of practical problems concerning the visibility of signal lights.
Jacqueline I. Gordon +2 more
openaire +1 more source
Light signal transduction in plants
Trends in Cell Biology, 1997Light signal-transduction pathways are a central component of the mechanisms that regulate plant development. These pathways provide the means by which information from specific wavelengths of light may be amplified and coordinated, resulting in complex physiological and developmental responses.
S A, Barnes, R B, McGrath, N H, Chua
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Light Signal Transduction in Plants
Photochemistry and Photobiology, 1996Plants, as sessile organisms, have developed intricate signal transduction networks used to adapt to the changing environment surrounding them. One of the most important dynamic environmental factors is light, and the light control of dicotyledonous seedling development is one of the best studied examples.
J M, Staub, X W, Deng
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Critical Reviews in Plant Sciences, 1996
Abstract Light signals have profound morphogenic effects on plant development. Signals perceived by the red/far‐red absorbing phytochrome family of photoreceptors and the blue/green/ UV‐A absorbing cryptochrome photoreceptor converge on a group of pleiotropic gene products defined by the COP/DET loci to control the pattern of development. The signaling
D. A. Chamovitz, X.-W. Deng
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Abstract Light signals have profound morphogenic effects on plant development. Signals perceived by the red/far‐red absorbing phytochrome family of photoreceptors and the blue/green/ UV‐A absorbing cryptochrome photoreceptor converge on a group of pleiotropic gene products defined by the COP/DET loci to control the pattern of development. The signaling
D. A. Chamovitz, X.-W. Deng
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International Journal of Modern Physics A, 2002
A general characterisation of an impulsive light–like signal was given1,2. The signal may consist of a shell of null matter and/or an impulsive gravitational wave. Both parts of the signal can be unambiguously identified3,4. The signals can be used to model bursts of gravitational radiation and light– like matter accompanying cataclysmic events such ...
C. BARRABÈS, P. A. HOGAN
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A general characterisation of an impulsive light–like signal was given1,2. The signal may consist of a shell of null matter and/or an impulsive gravitational wave. Both parts of the signal can be unambiguously identified3,4. The signals can be used to model bursts of gravitational radiation and light– like matter accompanying cataclysmic events such ...
C. BARRABÈS, P. A. HOGAN
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Regulated proteolysis in light signaling
Current Opinion in Plant Biology, 2005Photoreceptors regulate many aspects of development throughout the life cycle of a plant. Recent advances have demonstrated the importance of ubiquitin-mediated proteolysis in the control of development by light. Both some of the photoreceptors themselves and, in particular, transcription factors that are involved in transducing the light signal are ...
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Light signalling in Arabidopsis
Plant Physiology and Biochemistry, 1998Abstract Of the numerous environmental factors that regulate the growth and development of plants, light is one of the most important. Plants employ a series of discrete photoreceptors, absorbing in different regions of the light spectrum, in order to monitor the presence, direction, intensity, quality and duration of light.
Garry C. Whitelam, Paul F. Devlin
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