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An AP-MS- and BioID-compatible MAC-tag enables comprehensive mapping of protein interactions and subcellular localizations

机译：兼容AP-MS和BioID的MAC标签可全面映射蛋白质相互作用和亚细胞定位

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Protein-protein interactions govern almost all cellular functions. These complex networks of stable and transient associations can be mapped by affinity purification mass spectrometry (AP-MS) and complementary proximity-based labeling methods such as BioID. To exploit the advantages of both strategies, we here design and optimize an integrated approach combining AP-MS and BioID in a single construct, which we term MAC-tag. We systematically apply the MAC-tag approach to 18 subcellular and 3 sub-organelle localization markers, generating a molecular context database, which can be used to define a protein’s molecular location. In addition, we show that combining the AP-MS and BioID results makes it possible to obtain interaction distances within a protein complex. Taken together, our integrated strategy enables the comprehensive mapping of the physical and functional interactions of proteins, defining their molecular context and improving our understanding of the cellular interactome.

机译：蛋白质-蛋白质相互作用控制着几乎所有的细胞功能。可以通过亲和纯化质谱（AP-MS）和互补的基于邻近度的标记方法（例如BioID）来映射这些稳定且瞬态关联的复杂网络。为了利用这两种策略的优势，我们在这里设计并优化了在单个结构中将AP-MS和BioID相结合的集成方法，我们将其称为MAC标签。我们系统地将MAC标签方法应用于18个亚细胞和3个亚细胞器的定位标记，生成了分子背景数据库，可用于定义蛋白质的分子位置。此外，我们表明结合AP-MS和BioID结果可以在蛋白质复合物中获得相互作用距离。综上所述，我们的综合策略能够全面映射蛋白质的物理和功能相互作用，定义其分子背景并增进我们对细胞相互作用组的了解。

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期刊名称 Nature Communications
作者
Xiaonan Liu; Kari Salokas; Fitsum Tamene; Yaming Jiu; Rigbe G. Weldatsadik; Tiina Öhman; Markku Varjosalo;
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年(卷),期 -1(9),-1
年度 -1
页码 1188
总页数 16
原文格式 PDF
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专利

1. An AP-MS- and BioID-compatible MAC-tag enables comprehensive mapping of protein interactions and subcellular localizations [J] . Xiaonan Liu, Kari Salokas, Fitsum Tamene, Nature Communications . 2018,第1期

机译：兼容AP-MS和BioID的MAC标签可对蛋白质相互作用和亚细胞定位进行全面定位
2. Subcellular Localization of the New Plant Protein 4/1 and Analysis of Heterologous Protein-Protein Interactions Indicate Its Ability for Nuclear-Cytoplasmic Transport [J] . E. A. Minina, T. N. Erokhina, S. K. Garushyants, Doklady biochemistry & biophysics . 2009,第novaadeca期

机译：新植物蛋白4/1的亚细胞定位和异源蛋白-蛋白质相互作用的分析表明其核细胞质运输的能力。
3. Mutant analysis, protein-protein interactions and subcellular localization of the Arabidopsis B sister (ABS) protein. [J] . Kaufmann K, Anfang N, Saedler H, Molecular biology reports . 2005,第2期

机译：拟南芥B姐妹（ABS）蛋白的突变分析，蛋白-蛋白相互作用和亚细胞定位。
4. Prediction of Protein-Protein Interactions Using Subcellular and Functional Localizations [C] . Yanliang Cai, Jiangsheng Yu, Hanpin Wang International conference on life system modeling and simulation;International conference on intelligent computing for sustainable energy and environment;LSMS 2010;ICSEE 2010 . 2010

机译：使用亚细胞和功能定位预测蛋白质与蛋白质的相互作用
5. Subcellular localization of plant vacuolar sorting receptor proteins and their roles in mediating protein degradation during seed germination. [D] . Li, Yubing. 2004

机译：植物液泡分选受体蛋白的亚细胞定位及其在种子萌发过程中的介导蛋白降解中的作用。
6. mCherry fusions enable the subcellular localization of periplasmic and cytoplasmic proteins in Xanthomonas sp. [O] . Michelle Mendonça Pena, Doron Teper, Henrique Ferreira, 2020

机译：MCHERRY Fusions使Xanthomonas SP中周质和细胞质蛋白的亚细胞定位。
7. An AP-MS- and BioID-compatible MAC-tag enables comprehensive mapping of protein interactions and subcellular localizations [O] . Xiaonan Liu, Kari Salokas, Fitsum Tamene, 2018

机译：AP-MS-和BIOID兼容的MAC标签可以全面映射蛋白质相互作用和亚细胞本地化

An AP-MS- and BioID-compatible MAC-tag enables comprehensive mapping of protein interactions and subcellular localizations

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