The phytochromes: photosensory perception and signal transduction.

Symposia of the Society for Experimental Biology Pub Date : 1998-01-01

C D Fairchild, P H Quail

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Abstract

Phytochromes are regulatory photoreceptors which primarily absorb red (R) and far-red (FR) light. A great deal is known about the spectroscopic properties, primary structure, gene regulation and gross structure of phytochromes, and about the set of developmental changes which they control, but the early steps in signal transduction from phytochrome which result in these changes are still mysterious. In angiosperms, phytochromes are encoded by a small gene family, and as a result of recent work with mutants and transgenic overexpressors it is possible to assign distinct functions to some of the individual types of phytochrome. For two of these, phytochrome A and phytochrome B, overexpression of chimeras has revealed that the determinants for their photosensory specificity and the light-promoted degradation of phytochrome A reside on the amino-terminal halves of the molecules. The interchangeability of the C-terminal halves suggests that they may share a common signal transduction mechanism. These results also invite a reappraisal of the various models that have been proposed over the years to explain the complexity of phytochrome sensitivity to various light regimes.

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光敏色素:光感觉知觉和信号转导。

光敏色素是一种调节光感受器，主要吸收红光(R)和远红光(FR)。关于光敏色素的光谱特性、一级结构、基因调控和总体结构，以及它们所控制的一系列发育变化，人们已经了解得很多，但光敏色素信号转导的早期步骤导致这些变化仍然是一个谜。在被子植物中，光敏色素是由一个小的基因家族编码的，由于最近对突变体和转基因过表达体的研究，可能会给某些单独类型的光敏色素分配不同的功能。对于其中的两种，光敏色素A和光敏色素B，嵌合体的过度表达表明，光敏色素A的光感特异性和光促进降解的决定因素位于分子的氨基末端。c端半部分的互换性表明它们可能具有共同的信号转导机制。这些结果还要求对多年来提出的各种模型进行重新评估，以解释光敏色素对各种光机制的敏感性的复杂性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Symposia of the Society for Experimental Biology

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