一个合成的 PPR 蛋白的翻译激活阐明了拟南芥叶绿体中 psbA 翻译的控制。

Translational activation by a synthetic PPR protein elucidates control of psbA translation in Arabidopsis chloroplasts.

机构信息

Institute of Molecular Biology, University of Oregon, Eugene, OR 97405, USA.

出版信息

Plant Cell. 2024 Oct 3;36(10):4168-4178. doi: 10.1093/plcell/koae112.

Abstract

Translation initiation on chloroplast psbA mRNA in plants scales with light intensity, providing its gene product, D1, as needed to replace photodamaged D1 in Photosystem II. The psbA translational activator HIGH CHLOROPHYLL FLUORESCENCE 173 (HCF173) has been hypothesized to mediate this regulation. HCF173 belongs to the short-chain dehydrogenase/reductase superfamily, associates with the psbA 5'-untranslated region (5'-UTR), and has been hypothesized to enhance translation by binding an RNA segment that would otherwise pair with and mask the ribosome binding region. To test these hypotheses, we examined whether a synthetic pentatricopeptide repeat (sPPR) protein can substitute for HCF173 when bound to the HCF173 binding site. We show that an sPPR designed to bind HCF173's footprint in the psbA 5'-UTR bound the intended site in vivo and partially substituted for HCF173 to activate psbA translation. However, sPPR-activated translation did not respond to light. These results imply that HCF173 activates translation, at least in part, by sequestering the RNA it binds to maintain an accessible ribosome binding region, and that HCF173 is also required to regulate psbA translation in response to light. Translational activation can be added to the functions that can be programmed with sPPR proteins for synthetic biology applications in chloroplasts.

摘要

在植物中，叶绿体 psbA mRNA 的翻译起始与光强有关，根据需要提供其基因产物 D1，以替代光系统 II 中光损伤的 D1。推测 psbA 翻译激活因子 HIGH CHLOROPHYLL FLUORESCENCE 173（HCF173）介导这种调节。HCF173 属于短链脱氢酶/还原酶超家族，与 psbA 5'-非翻译区（5'-UTR）结合，并被假设通过结合一个原本会与核糖体结合区配对并掩盖该区域的 RNA 片段来增强翻译。为了检验这些假说，我们研究了当与 HCF173 结合位点结合时，合成五肽重复（sPPR）蛋白是否可以替代 HCF173。我们表明，设计用于结合 psbA 5'-UTR 中 HCF173 足迹的 sPPR 在体内结合了预期的位点，并部分替代 HCF173 激活 psbA 翻译。然而，sPPR 激活的翻译对光没有反应。这些结果表明，HCF173 通过隔离它结合的 RNA 来激活翻译，至少部分地维持了可访问的核糖体结合区，并且 HCF173 也需要响应光来调节 psbA 翻译。翻译激活可以添加到可以用 sPPR 蛋白为叶绿体的合成生物学应用编程的功能中。

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一个合成的 PPR 蛋白的翻译激活阐明了拟南芥叶绿体中 psbA 翻译的控制。

Translational activation by a synthetic PPR protein elucidates control of psbA translation in Arabidopsis chloroplasts.

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