Alvaro Alonso scite author profile

For the first time, respiratory complex I has been reconstituted on an electrode preserving its structure and activity. Respiratory complex I is a membrane-bound enzyme that has an essential function in cellular energy production. It couples NADH:quinone oxidoreduction to translocation of ions across the cellular (in prokaryotes) or mitochondrial membranes. Therefore, complex I contributes to the establishment and maintenance of the transmembrane difference of electrochemical potential required for adenosine triphosphate synthesis, transport, and motility. Our new strategy has been applied for reconstituting the bacterial complex I from Rhodothermus marinus onto a biomimetic membrane supported on gold electrodes modified with a thiol self-assembled monolayer (SAM). Atomic force microscopy and faradaic impedance measurements give evidence of the biomimetic construction, whereas electrochemical measurements show its functionality. Both electron transfer and proton translocation by respiratory complex I were monitored, simulating in vivo conditions.

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The wide spectrum of the asphyxiating thoracic dysplasia

Cortina¹,

Beltran²,

Olagüe³

et al. 1979

Pediatr Radiol

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Seven cases of A. T. D. are presented. Radiological findings were extraordinarily diverse. The prognosis of the disease is difficult for each individual case, because of the frequent pulmonary complications and cystic renal lesions are not always directly related to the severity of the bone changes. The authors believe that the term "thoracic-pelvic-phalangeal dysplasia" proposed by Langer, is the most adequate, since it points to the key factors in the diagnosis of the disease.

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Torsion and curvature of FtsZ filaments

et al. 2014

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FtsZ filaments participate in bacterial cell division, but it is still not clear how their dynamic polymerization and shape exert force on the underlying membrane. We present a theoretical description of individual filaments that incorporates information from molecular dynamic simulations. The structure of the crystallized Methanococcus jannaschii FtsZ dimer was used to model a FtsZ pentamer that showed a curvature and a twist. The estimated bending and torsion angles between monomers and their fluctuations were included in the theoretical description. The MD data also permitted positioning the curvature with respect to the protein coordinates and allowed us to explore the effect of the relative orientation of the preferred curvature with respect to the surface plane. We find that maximum tension is attained when filaments are firmly attached and oriented with their curvature perpendicular to the surface and that the twist serves as a valve to release or to tighten the tension exerted by the curved filaments on the membrane. The theoretical model also shows that the presence of torsion can explain the shape distribution of short filaments observed by Atomic Force Microscopy in previously published experiments. New experiments with FtsZ covalently attached to lipid membranes show that the filament on-plane curvature depends on lipid head charge, confirming the predicted monomer orientation effects. This new model underlines the fact that the combination of the three elements, filament curvature, twist and the strength and orientation of its surface attachment, can modulate the force exerted on the membrane during cell division.

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Alvaro Alonso

Reconstitution of Respiratory Complex I on a Biomimetic Membrane Supported on Gold Electrodes

The wide spectrum of the asphyxiating thoracic dysplasia

Torsion and curvature of FtsZ filaments

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