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蓝藻Fremyella diplosiphon中多个富含色氨酸的感官蛋白(TSPO)基因对光、胁迫和营养的独特依赖性调控

Distinct light-, stress-, and nutrient-dependent regulation of multiple tryptophan-rich sensory protein (TSPO) genes in the cyanobacterium Fremyella diplosiphon.

作者信息

Busch Andrea W U, Montgomery Beronda L

机构信息

a Department of Energy - Plant Research Laboratory , Michigan State University , East Lansing , Michigan , USA.

b Department of Biochemistry and Molecular Biology , Michigan State University , East Lansing , Michigan , USA.

出版信息

Plant Signal Behav. 2017 Mar 4;12(3):e1293221. doi: 10.1080/15592324.2017.1293221.

DOI:10.1080/15592324.2017.1293221
PMID:28277971
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5399897/
Abstract

The cyanobacterium Fremyella diplosiphon possesses 3 genes encoding homologs of the tryptophan-rich sensory protein (TSPO). TSPO proteins are membrane proteins implicated in stress responses across a range of organisms from bacteria to humans. Diverse TSPO proteins appear to generally bind tetrapyrrole ligands. Previously, we reported that one of these homologs, FdTSPO1, is involved in salt-, osmotic- and oxidative stress responses in F. diplosiphon. Here, we show distinct regulation of cellular mRNA levels of all 3 FdTSPO homologs by different abiotic stresses. Given the prior finding that all 3 FdTSPO proteins are capable of binding tetrapyrroles of functional relevance in F. diplosiphon and the observation of a ligand-dependent functional role for FdTSPO1 in vivo, FdTSPO1, FdTSPO2, and FdTSPO3 appear to have distinct, yet overlapping, roles in vivo. We propose that these proteins regulate tetrapyrrole homeostasis and/or tetrapyrrole-modulated functions in F. diplosiphon in response to multiple environmental stresses.

摘要

蓝藻双歧鱼腥藻拥有3个编码富含色氨酸的传感蛋白(TSPO)同源物的基因。TSPO蛋白是膜蛋白,涉及从细菌到人类等一系列生物体的应激反应。不同的TSPO蛋白似乎通常结合四吡咯配体。此前,我们报道其中一个同源物FdTSPO1参与了双歧鱼腥藻的盐、渗透和氧化应激反应。在这里,我们展示了不同非生物胁迫对所有3个FdTSPO同源物细胞mRNA水平的不同调控。鉴于之前的发现,即所有3个FdTSPO蛋白都能够结合双歧鱼腥藻中具有功能相关性的四吡咯,以及观察到FdTSPO1在体内具有依赖配体的功能作用,FdTSPO1、FdTSPO2和FdTSPO3在体内似乎具有不同但重叠的作用。我们提出,这些蛋白在双歧鱼腥藻中响应多种环境胁迫调节四吡咯稳态和/或四吡咯调节的功能。

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