Neurospora crassa Light Signal Transduction Is Affected by ROS.

Journal of signal transduction Pub Date : 2012-01-01 Epub Date: 2011-10-20 DOI:10.1155/2012/791963

Tatiana A Belozerskaya, Natalia N Gessler, Elena P Isakova, Yulia I Deryabina

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引用次数: 30

Abstract

In the ascomycete fungus Neurospora crassa blue-violet light controls the expression of genes responsible for differentiation of reproductive structures, synthesis of secondary metabolites, and the circadian oscillator activity. A major photoreceptor in Neurospora cells is WCC, a heterodimeric complex formed by the PAS-domain-containing polypeptides WC-1 and WC-2, the products of genes white collar-1 and white collar-2. The photosignal transduction is started by photochemical activity of an excited FAD molecule noncovalently bound by the LOV domain (a specialized variant of the PAS domain). The presence of zinc fingers (the GATA-recognizing sequences) in both WC-1 and WC-2 proteins suggests that they might function as transcription factors. However, a critical analysis of the phototransduction mechanism considers the existence of residual light responses upon absence of WCC or its homologs in fungi. The data presented point at endogenous ROS generated by a photon stimulus as an alternative input to pass on light signals to downstream targets.

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活性氧对粗神经孢子虫光信号转导的影响。

在子囊菌真菌中，蓝紫光控制着负责生殖结构分化、次生代谢物合成和昼夜节律振荡器活性的基因的表达。神经孢子菌细胞中的主要光感受器是WCC，它是一种异二聚体复合物，由含有pas结构域的多肽WC-1和WC-2组成，是white collar-1和white collar-2基因的产物。光信号转导是由受激发的FAD分子的光化学活性启动的，FAD分子与LOV结构域(PAS结构域的一种特殊变体)非共价结合。锌指(gata识别序列)在WC-1和WC-2蛋白中的存在表明它们可能具有转录因子的功能。然而，一项对光导机制的批判性分析认为，在真菌中缺乏WCC或其同系物时，存在残余光响应。所提供的数据表明，由光子刺激产生的内源性ROS作为将光信号传递给下游目标的替代输入。

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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Journal of signal transduction

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