Emanuel Kava scite author profile

The Golgi complex is a membranous organelle located in the heart of the eukaryotic secretory pathway. A subfamily of the Golgi matrix proteins, called GRASPs, are key players in the stress-induced unconventional secretion, the Golgi dynamics during mitosis/apoptosis, and Golgi ribbon formation. The Golgi ribbon is vertebrate-specific and correlates with the appearance of two GRASP paralogs (GRASP55/GRASP65) and two coiled-coil Golgins (GM130/Golgin45), which interact with each other in vivo. Although essential for the Golgi ribbon formation and the increase in Golgi structural complexity, the molecular details leading to their appearance only in this subphylum are still unknown. Moreover, despite the new functionalities supported by the GRASP paralogy, little is known about the structural and evolutionary differences between these paralogues. In this context, we used ancestor sequence reconstruction and several biophysical/biochemical approaches to assess the evolution of the GRASP structure, flexibility, and how they started anchoring their Golgin partners. Our data showed that the Golgins appeared in evolution and were anchored by the single GRASP ancestor before gorasp gene duplication and divergence in Metazoans. After the gorasp divergence, variations inside the GRASP binding pocket determined which paralogue would recruit each Golgin partner (GRASP55 with Golgin45 and GRASP65 with GM130). These interactions are responsible for the protein's specific Golgi locations and the appearance of the Golgi ribbon. We also suggest that the capacity of GRASPs to form supramolecular structures is a long-standing feature, which likely affects GRASP's participation as a trigger of the stress-induced secretory pathway.

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Resurrecting Golgi proteins to grasp Golgi ribbon formation and self-association under stress

Mendes

Batista

Kava

et al. 2022

International Journal of Biological Macromolecules

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Myristoylation and its effects on the human Golgi Reassembly and Stacking Protein 55

Kava

Mendes

Batista

et al. 2021

Biophysical Chemistry

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Myristoylation and its effects on the human Golgi Reassembly and Stacking Protein 55

Kava

Mendes

Batista

et al. 2021

Preprint

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GRASP55 is a myristoylated protein localized in the medial/trans-Golgi faces and involved in the Golgi structure maintenance and the regulation of unconventional secretion pathways. It is believed that GRASP55 achieves its main functionalities in the Golgi organization by acting as a tethering factor and, when bound to the lipid bilayer, its orientation relative to the membrane surface is restricted to determine its proper trans-oligomerization. Despite the paramount role of myristoylation in GRASP function, the impact of such protein modification on the membrane-anchoring properties and the structural organization of GRASP remains elusive. Here, an optimized protocol for the myristoylation in E. coli of the membrane-anchoring domain of GRASP55 is presented. The biophysical properties of the myristoylated/non-myristoylated GRASP55 GRASP domain were characterized in a membrane-mimicking micellar environment. Although myristoylation did not cause any impact on the protein's secondary structure, according to our circular dichroism data, it had a significant impact on the protein's thermal stability and solubility. Electrophoresis of negatively charged liposomes incubated with the two GRASP55 constructions showed different electrophoretic mobility for the myristoylated anchored protein only, thus demonstrating that myristoylation is essential for the biological membrane anchoring. Molecular dynamics simulations were used to further explore the anchoring process in determining the restricted orientation of GRASPs in the membrane.

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Emanuel Kava

Uniform size PEGylated iron oxide nanoparticles as a potential theranostic agent synthesized by a simple optimized coprecipitation route

Resurrecting Golgi proteins to grasp Golgi ribbon formation and self-association under stress

Resurrecting Golgi proteins to grasp Golgi ribbon formation and self-association under stress

Myristoylation and its effects on the human Golgi Reassembly and Stacking Protein 55

Myristoylation and its effects on the human Golgi Reassembly and Stacking Protein 55

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