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Photomorphogenesis in Plants and Bacteria Function and Signal Transduction Mechanisms
Title
Photomorphogenesis in Plants and Bacteria [electronic resource] : Function and Signal Transduction Mechanisms / edited by Eberhard Schäfer, Ferenc Nagy.
ISBN
9781402038112
Edition
3rd ed. 2006.
Publication
Dordrecht : Springer Netherlands : Imprint: Springer, 2006.
Physical Description
1 online resource (XLIX, 662 p.)
Local Notes
Access is available to the Yale community.
Access and use
Access restricted by licensing agreement.
Summary
Plants as sessile organisms have evolved fascinating capacities to adapt to changes in their natural environment. Arguably, light is by far the most important and variable environmental factor. The quality, quantity, direction and duration of light is monitored by a series of photoreceptors covering spectral information from UVB to near infrared. The response of the plants to light is called photomorphogenesis and it is regulated by the concerted action of photoreceptors. The combined techniques of action spectroscopy and biochemistry allowed one of the important photoreceptors – phytochrome – to be identified in the middle of the last century. An enormous number of physiological studies published in the last century describe the properties of phytochrome and its function and also the physiology of blue and UV-B photoreceptors, unidentified at the time. This knowledge was summarized in the advanced textbook “Photomorphogenesis in Plants” (Kendrick and Kronenberg, eds., 1986, 1994). With the advent of molecular biology, genetics and new molecular, cellular techniques, our knowledge in the field of photomorphogenesis has dramatically increased over the last 15 years.
Variant and related titles
Springer ENIN.
Other formats
Printed edition:
Printed edition:
Printed edition:
Format
Books / Online
Language
English
Added to Catalog
June 28, 2019
Contents
OVERVIEW OF PHOTOMORPHOGENESIS
HISTORICAL OVERVIEW
PHYSIOLOGICAL BASIS OF PHOTOMORPHOGENESIS
HISTORICAL OVERVIEW OF MOLECULAR BIOLOGY AND GENETICS IN PHOTOMORPHOGENESIS
GENETIC BASIS AND MOLECULAR MECHANISMS OF SIGNAL TRANSDUCTION FOR PHOTOMORPHOGENESIS
THE PHYTOCHROME
THE PHYTOCHROME CHROMOPHORE
STRUCTURE, FUNCTION, AND EVOLUTION OF MICROBIAL PHYTOCHROMES
PHYTOCHROME GENES IN HIGHER PLANTS: STRUCTURE,EXPRESSION, AND EVOLUTION
PHYTOCHROME DEGRADATION AND DARK REVERSION
INTRACELLULAR LOCALIZATION OF PHYTOCHROMES
BLUE-LIGHT AND UV-RECEPTORS
BLUE/UV-A RECEPTORS: HISTORICAL OVERVIEW
CRYPTOCHROMES
PHOTOTROPINS
BLUE LIGHT PHOTORECEPTORS -BEYOND PHOTOTROPINS AND CRYPTOCHROMES
UV-B PERCEPTION AND SIGNALLING IN HIGHER PLANTS
SIGNAL TRANSDUCTION IN BLUE LIGHT-MEDIATED RESPONSES
SIGNAL TRANSDUCTION IN PHOTOMORPHOGENESIS
GENERAL INTRODUCTION
PHYTOCHROME SIGNAL TRANSDUCTION NETWORK
THE FUNCTION OF THE COP/DET/FUS PROTEINS IN CONTROLLING PHOTOMORPHOGENESIS: A ROLE FOR REGULATED PROTEOLYSIS
BIOCHEMICAL AND MOLECULAR ANALYSIS OF SIGNALLING COMPONENTS
THE PHOTORECEPTOR INTERACTION NETWORK
INTERACTION OF LIGHT AND HORMONE SIGNALLING TO MEDIATE PHOTOMORPHOGENESIS
SELECTED TOPICS
THE ROLES OF PHYTOCHROMES IN ADULT PLANTS
A ROLE FOR CHLOROPHYLL PRECURSORS IN PLASTID-TO-NUCLEUS SIGNALING
PHOTOMORPHOGENESIS OF FERNS
PHOTOMORPHOGENESIS OF MOSSES
CIRCADIAN REGULATION OF PHOTOMORPHOGENESIS
THE MOLECULAR GENETICS OF PHOTO PERIODIC RESPONSES:COMPARISONS BETWEEN LONG-DAY AND SHORT-DAY SPECIES
COMMERCIAL APPLICATIONS OF PHOTOMORPHOGENESIS RESEARCH
PHOTOMORPHOGENESIS – WHERE NOW?.
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