Farzad Hamdi scite author profile

Cytochromebo3ubiquinol oxidase is a transmembrane protein, which oxidizes ubiquinone and reduces oxygen, while pumping protons. Apart from its combination with F1Fo-ATPase to assemble a minimal ATP regeneration module, the utility of the proton pump can be extended to other applications in the context of synthetic cells such as transport, signaling, and control of enzymatic reactions. In parallel, polymers have been speculated to be phospholipid mimics with respect to their ability to self-assemble in compartments with increased stability. However, their usability as interfaces for complex membrane proteins has remained questionable. In the present work, we optimized a fusion/electroformation approach to reconstitutebo3oxidase in giant unilamellar vesicles made of PDMS-g-PEO and/or phosphatidylcholine (PC). This enabled optical access, while microfluidic trapping allowed for online analysis of individual vesicles. The tight polymer membranes and the inward oriented enzyme caused 1 pH unit difference in 30 min, with an initial rate of 0.35 pH·min−1. To understand the interplay in these composite systems, we studied the relevant mechanical and rheological membrane properties. Remarkably, the proton permeability of polymer/lipid hybrids decreased after protein insertion, while the latter also led to a 20% increase of the polymer diffusion coefficient in polymersomes. In addition, PDMS-g-PEO increased the activity lifetime and the resistance to free radicals. These advantageous properties may open diverse applications, ranging from cell-free biotechnology to biomedicine. Furthermore, the presented study serves as a comprehensive road map for studying the interactions between membrane proteins and synthetic membranes, which will be fundamental for the successful engineering of such hybrid systems.

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Integrative structure of a 10-megadalton eukaryotic pyruvate dehydrogenase complex from native cell extracts

Kyrilis

Semchonok

Skalidis

et al. 2021

Cell Reports

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Cryo-EM and artificial intelligence visualize endogenous protein community members

et al. 2022

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Cryo-EM snapshots of a native lysate provide structural insights into a metabolon-embedded transacetylase reaction

et al. 2021

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Found across all kingdoms of life, 2-keto acid dehydrogenase complexes possess prominent metabolic roles and form major regulatory sites. Although their component structures are known, their higher-order organization is highly heterogeneous, not only across species or tissues but also even within a single cell. Here, we report a cryo-EM structure of the fully active Chaetomium thermophilum pyruvate dehydrogenase complex (PDHc) core scaffold at 3.85 Å resolution (FSC = 0.143) from native cell extracts. By combining cryo-EM with macromolecular docking and molecular dynamics simulations, we resolve all PDHc core scaffold interfaces and dissect the residing transacetylase reaction. Electrostatics attract the lipoyl domain to the transacetylase active site and stabilize the coenzyme A, while apolar interactions position the lipoate in its binding cleft. Our results have direct implications on the structural determinants of the transacetylase reaction and the role of flexible regions in the context of the overall 10 MDa PDHc metabolon architecture.

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En route to dynamic life processes by SNARE-mediated fusion of polymer and hybrid membranes

et al. 2021

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A variety of artificial cells springs from the functionalization of liposomes with proteins. However, these models suffer from low durability without repair and replenishment mechanisms, which can be partly addressed by replacing the lipids with polymers. Yet natural membranes are also dynamically remodeled in multiple cellular processes. Here, we show that synthetic amphiphile membranes also undergo fusion, mediated by the protein machinery for synaptic secretion. We integrated fusogenic SNAREs in polymer and hybrid vesicles and observed efficient membrane and content mixing. We determined bending rigidity and pore edge tension as key parameters for fusion and described its plausible progression through cryo-EM snapshots. These findings demonstrate that dynamic membrane phenomena can be reconstituted in synthetic materials, thereby providing new tools for the assembly of synthetic protocells.

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Farzad Hamdi

Constructing artificial respiratory chain in polymer compartments: Insights into the interplay betweenbo₃oxidase and the membrane

Integrative structure of a 10-megadalton eukaryotic pyruvate dehydrogenase complex from native cell extracts

Cryo-EM and artificial intelligence visualize endogenous protein community members

Cryo-EM snapshots of a native lysate provide structural insights into a metabolon-embedded transacetylase reaction

En route to dynamic life processes by SNARE-mediated fusion of polymer and hybrid membranes

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Product

Resources

About

Farzad Hamdi

Constructing artificial respiratory chain in polymer compartments: Insights into the interplay betweenbo3oxidase and the membrane

Integrative structure of a 10-megadalton eukaryotic pyruvate dehydrogenase complex from native cell extracts

Cryo-EM and artificial intelligence visualize endogenous protein community members

Cryo-EM snapshots of a native lysate provide structural insights into a metabolon-embedded transacetylase reaction

En route to dynamic life processes by SNARE-mediated fusion of polymer and hybrid membranes

Contact Info

Product

Resources

About

Constructing artificial respiratory chain in polymer compartments: Insights into the interplay betweenbo₃oxidase and the membrane