Exploring liquid-liquid phase separation in the organisation of Golgi matrix proteins

IF 2.5 4区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Biochimica et biophysica acta. Proteins and proteomics Pub Date : 2024-06-23 DOI:10.1016/j.bbapap.2024.141029

Luis Felipe S. Mendes , Carolina G. Oliveira , Kevin F. Simões , Emanuel Kava , Antonio J. Costa-Filho

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Abstract

The Golgi apparatus is a critical organelle in protein sorting and lipid metabolism. Characterized by its stacked, flattened cisternal structure, the Golgi exhibits distinct polarity with its cis- and trans-faces orchestrating various protein maturation and transport processes. At the heart of its structural integrity and organisation are the Golgi Matrix Proteins (GMPs), predominantly comprising Golgins and GRASPs. These proteins contribute to this organelle's unique stacked and polarized structure and ensure the precise localization of Golgi-resident enzymes, which is crucial for accurate protein processing. Despite over a century of research since its discovery, the Golgi architecture's intricate mechanisms still need to be fully understood. Here, we discuss that GMPs across different Eukaryotic lineages present a significant tendency to form biomolecular condensates. Moreover, we validated experimentally that members of the GRASP family also exhibit a strong tendency. Our findings offer a new perspective on the possible roles of protein disorder and condensation of GMPs in the Golgi organisation.

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探索高尔基体基质蛋白组织中的液-液相分离。

高尔基体是蛋白质分类和脂质代谢的关键细胞器。高尔基体的特征是其堆叠的扁平囊状结构，具有明显的极性，其顺式和反式面协调着各种蛋白质的成熟和运输过程。高尔基体结构完整性和组织的核心是高尔基体基质蛋白（GMPs），主要包括高尔基蛋白（Golgins）和高尔基体蛋白酶（GRASPs）。这些蛋白质促成了这一细胞器独特的堆叠和极化结构，并确保了高尔基驻留酶的精确定位，而这对于准确处理蛋白质至关重要。尽管自高尔基体被发现以来已经进行了一个多世纪的研究，但人们仍然需要充分了解高尔基体结构的复杂机制。在这里，我们讨论了不同真核生物系的 GMPs 有形成生物分子凝聚物的显著趋势。此外，我们还通过实验验证了 GRASP 家族成员也表现出强烈的倾向性。我们的发现为蛋白质紊乱和 GMPs 凝聚在高尔基体组织中的可能作用提供了一个新的视角。

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来源期刊

Biochimica et biophysica acta. Proteins and proteomics 生物-生化与分子生物学

CiteScore

8.00

自引率

0.00%

发文量

审稿时长

33 days

期刊介绍： BBA Proteins and Proteomics covers protein structure conformation and dynamics; protein folding; protein-ligand interactions; enzyme mechanisms, models and kinetics; protein physical properties and spectroscopy; and proteomics and bioinformatics analyses of protein structure, protein function, or protein regulation.