D
David Eisenberg
Researcher at Technion – Israel Institute of Technology
Publications - 719
Citations - 120468
David Eisenberg is an academic researcher from Technion – Israel Institute of Technology. The author has contributed to research in topics: Amyloid & Protein structure. The author has an hindex of 156, co-authored 697 publications receiving 112460 citations. Previous affiliations of David Eisenberg include Howard Hughes Medical Institute & Hebrew University of Jerusalem.
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Ribulose Bisphosphate Carboxylase: A Two-Layered, Square-Shaped Molecule of Symmetry 422
TL;DR: Electron micrographs and x-ray diffraction patterns of crystals of ribulose bisphosphate carboxylase, probably the most abundant protein on earth, have provided new details of the arrangement of subunits.
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The crystal structure of the Rv0301‐Rv0300 VapBC‐3 toxin—antitoxin complex from M. tuberculosis reveals a Mg2+ ion in the active site and a putative RNA‐binding site
TL;DR: The crystal structure of Rv0301‐Rv0300, an Mtb VapBC TA complex determined at 1.49 Å resolution, suggests a mechanism for RNase activity, its inhibition by antitoxin, and its ability to bind promoter DNA.
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Inhibition by small-molecule ligands of formation of amyloid fibrils of an immunoglobulin light chain variable domain
Boris Brumshtein,Boris Brumshtein,Shannon R. Esswein,Shannon R. Esswein,Lukasz Salwinski,Lukasz Salwinski,Martin L. Phillips,Alan T Ly,Alan T Ly,Duilio Cascio,Duilio Cascio,Michael R. Sawaya,Michael R. Sawaya,David Eisenberg,David Eisenberg +14 more
TL;DR: This work identifies ligands that inhibit amyloid formation by stabilizing the Mcg light chain variable domain dimer and shifting the equilibrium away from the amyloids-prone monomer.
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Some evolutionary relationships of the primary biological catalysts glutamine synthetase and RuBisCO.
David Eisenberg,Robert J. Almassy,Cheryl A. Janson,Michael Chapman,Se Won Suh,Duilio Cascio,Ward W. Smith +6 more
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A Multi-Doped Electrocatalyst for Efficient Hydrazine Oxidation.
TL;DR: An efficient electrocatalyst for the oxidation of hydrazine, a promising fuel for fuel cells and an important analyte for health and environmental monitoring, and the first carbide with HzOR activity is reported, which shows high faradaic efficiency for oxidation to N2.