The Plastidial Protein Acetyltransferase GNAT1 Forms a Complex With GNAT2, yet Their Interaction Is Dispensable for State Transitions.

IF 6.1 2区 生物学 Q1 BIOCHEMICAL RESEARCH METHODS
Annika Brünje, Magdalena Füßl, Jürgen Eirich, Jean-Baptiste Boyer, Paulina Heinkow, Ulla Neumann, Minna Konert, Aiste Ivanauskaite, Julian Seidel, Shin-Ichiro Ozawa, Wataru Sakamoto, Thierry Meinnel, Dirk Schwarzer, Paula Mulo, Carmela Giglione, Iris Finkemeier
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引用次数: 0

Abstract

Protein N-acetylation is one of the most abundant co- and post-translational modifications in eukaryotes, extending its occurrence to chloroplasts within vascular plants. Recently, a novel plastidial enzyme family comprising eight acetyltransferases that exhibit dual lysine and N-terminus acetylation activities was unveiled in Arabidopsis. Among these, GNAT1, GNAT2, and GNAT3 reveal notable phylogenetic proximity, forming a subgroup termed NAA90. Our study focused on characterizing GNAT1, closely related to the state transition acetyltransferase GNAT2. In contrast to GNAT2, GNAT1 did not prove essential for state transitions and displayed no discernible phenotypic difference compared to the wild type under high light conditions, while gnat2 mutants were severely affected. However, gnat1 mutants exhibited a tighter packing of the thylakoid membranes akin to gnat2 mutants. In vitro studies with recombinant GNAT1 demonstrated robust N-terminus acetylation activity on synthetic substrate peptides. This activity was confirmed in vivo through N-terminal acetylome profiling in two independent gnat1 knockout lines. This attributed several acetylation sites on plastidial proteins to GNAT1, reflecting a subset of GNAT2's substrate spectrum. Moreover, co-immunoprecipitation coupled with mass spectrometry revealed a robust interaction between GNAT1 and GNAT2, as well as a significant association of GNAT2 with GNAT3 - the third acetyltransferase within the NAA90 subfamily. This study unveils the existence of at least two acetyltransferase complexes within chloroplasts, whereby complex formation might have a critical effect on the fine-tuning of the overall acetyltransferase activities. These findings introduce a novel layer of regulation in acetylation-dependent adjustments in plastidial metabolism.

质体蛋白乙酰转移酶 GNAT1 与 GNAT2 形成复合物,但它们之间的相互作用在状态转换中是不可或缺的。
蛋白质 N-乙酰化是真核生物中最丰富的共翻译和翻译后修饰之一,其发生范围扩展到维管植物的叶绿体。最近,在拟南芥中发现了一个由 8 个乙酰转移酶组成的新型质体酶家族,它们具有赖氨酸和 N 端乙酰化的双重活性。其中,GNAT1、GNAT2 和 GNAT3 显现出明显的系统发育接近性,形成了一个称为 NAA90 的亚群。我们的研究重点是描述与状态转换乙酰转移酶 GNAT2 关系密切的 GNAT1 的特征。与 GNAT2 不同的是,GNAT1 并非状态转换所必需,在强光条件下与野生型相比没有明显的表型差异,而 gnat2 突变体则受到严重影响。不过,gnat1 突变体与 gnat2 突变体类似,表现出更紧密的类木质膜包装。重组 GNAT1 的体外研究表明,它对合成底物肽具有强大的 N 端乙酰化活性。通过对两个独立的 gnat1 基因敲除品系进行 N 端乙酰化组分析,证实了这种活性在体内的存在。这表明质体蛋白上的几个乙酰化位点归功于 GNAT1,反映了 GNAT2 底物谱的一个子集。此外,通过免疫共沉淀和质谱分析发现,GNAT1 和 GNAT2 之间存在强有力的相互作用,而且 GNAT2 与 NAA90 亚家族中的第三个乙酰基转移酶 GNAT3 也有显著的关联。这项研究揭示了叶绿体内至少存在两个乙酰转移酶复合物,复合物的形成可能对乙酰转移酶整体活性的微调产生关键影响。这些发现为质体代谢中乙酰化依赖性调整引入了一个新的调节层。
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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来源期刊
Molecular & Cellular Proteomics
Molecular & Cellular Proteomics 生物-生化研究方法
CiteScore
11.50
自引率
4.30%
发文量
131
审稿时长
84 days
期刊介绍: The mission of MCP is to foster the development and applications of proteomics in both basic and translational research. MCP will publish manuscripts that report significant new biological or clinical discoveries underpinned by proteomic observations across all kingdoms of life. Manuscripts must define the biological roles played by the proteins investigated or their mechanisms of action. The journal also emphasizes articles that describe innovative new computational methods and technological advancements that will enable future discoveries. Manuscripts describing such approaches do not have to include a solution to a biological problem, but must demonstrate that the technology works as described, is reproducible and is appropriate to uncover yet unknown protein/proteome function or properties using relevant model systems or publicly available data. Scope: -Fundamental studies in biology, including integrative "omics" studies, that provide mechanistic insights -Novel experimental and computational technologies -Proteogenomic data integration and analysis that enable greater understanding of physiology and disease processes -Pathway and network analyses of signaling that focus on the roles of post-translational modifications -Studies of proteome dynamics and quality controls, and their roles in disease -Studies of evolutionary processes effecting proteome dynamics, quality and regulation -Chemical proteomics, including mechanisms of drug action -Proteomics of the immune system and antigen presentation/recognition -Microbiome proteomics, host-microbe and host-pathogen interactions, and their roles in health and disease -Clinical and translational studies of human diseases -Metabolomics to understand functional connections between genes, proteins and phenotypes
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