氧气和OxyR蛋白在球形红杆菌应对铁限制反应中的作用。

Role of oxygen and the OxyR protein in the response to iron limitation in Rhodobacter sphaeroides.

作者信息

Remes Bernhard, Berghoff Bork A, Förstner Konrad U, Klug Gabriele

机构信息

Institut für Mikrobiologie und Molekularbiologie, IFZ, Heinrich-Buff-Ring 26, Justus-Liebig-Universität, 35392 Giessen, Germany.

出版信息

BMC Genomics. 2014 Sep 15;15(1):794. doi: 10.1186/1471-2164-15-794.

DOI:10.1186/1471-2164-15-794

PMID:25220182

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4176601/

Abstract

BACKGROUND

High intracellular levels of unbound iron can contribute to the production of reactive oxygen species (ROS) via the Fenton reaction, while depletion of iron limits the availability of iron-containing proteins, some of which have important functions in defence against oxidative stress. Vice versa increased ROS levels lead to the damage of proteins with iron sulphur centres. Thus, organisms have to coordinate and balance their responses to oxidative stress and iron availability. Our knowledge of the molecular mechanisms underlying the co-regulation of these responses remains limited. To discriminate between a direct cellular response to iron limitation and indirect responses, which are the consequence of increased levels of ROS, we compared the response of the α-proteobacterium Rhodobacter sphaeroides to iron limitation in the presence or absence of oxygen.

RESULTS

One third of all genes with altered expression under iron limitation showed a response that was independent of oxygen availability. The other iron-regulated genes showed different responses in oxic or anoxic conditions and were grouped into six clusters based on the different expression profiles. For two of these clusters, induction in response to iron limitation under oxic conditions was dependent on the OxyR regulatory protein. An OxyR mutant showed increased ROS production and impaired growth under iron limitation.

CONCLUSION

Some R. sphaeroides genes respond to iron limitation irrespective of oxygen availability. These genes therefore reflect a "core iron response" that is independent of potential ROS production under oxic, iron-limiting conditions. However, the regulation of most of the iron-responsive genes was biased by oxygen availability. Most strikingly, the OxyR-dependent activation of a subset of genes upon iron limitation under oxic conditions, including many genes with a role in iron metabolism, revealed that elevated ROS levels were an important trigger for this response. OxyR thus provides a regulatory link between the responses to oxidative stress and to iron limitation in R. sphaeroides.

摘要

背景

细胞内未结合铁的高水平可通过芬顿反应促进活性氧（ROS）的产生，而铁的消耗会限制含铁蛋白质的可用性，其中一些蛋白质在抵御氧化应激方面具有重要功能。反之，ROS水平升高会导致含铁硫中心的蛋白质受损。因此，生物体必须协调并平衡它们对氧化应激和铁可用性的反应。我们对这些反应共同调节的分子机制的了解仍然有限。为了区分细胞对铁限制的直接反应和间接反应（后者是ROS水平升高的结果），我们比较了α-变形菌球形红细菌在有氧或无氧条件下对铁限制的反应。

结果

在铁限制条件下表达发生改变的所有基因中，三分之一表现出与氧气可用性无关的反应。其他铁调节基因在有氧或无氧条件下表现出不同的反应，并根据不同的表达谱分为六个簇。对于其中两个簇，在有氧条件下对铁限制的诱导依赖于OxyR调节蛋白。一个OxyR突变体在铁限制条件下表现出ROS产生增加和生长受损。

结论

一些球形红细菌基因对铁限制的反应与氧气可用性无关。因此，这些基因反映了一种“核心铁反应”，它独立于有氧、铁限制条件下潜在的ROS产生。然而，大多数铁反应基因的调节受到氧气可用性的影响。最引人注目的是，在有氧条件下铁限制时，OxyR对一组基因的依赖性激活，包括许多在铁代谢中起作用的基因，表明ROS水平升高是这种反应的重要触发因素。因此，OxyR在球形红细菌对氧化应激和铁限制的反应之间提供了一种调节联系。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6f28/4176601/6d5285a3e8ac/12864_2014_6469_Fig1_HTML.jpg

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氧气和OxyR蛋白在球形红杆菌应对铁限制反应中的作用。

Role of oxygen and the OxyR protein in the response to iron limitation in Rhodobacter sphaeroides.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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