René Frank scite author profile

C3 wechselt die Seite: Die Thermolyse eines Trirutheniumkomplexes mit einem μ3‐Pentylidin‐ und einem μ3‐Pentin‐Liganden zu beiden Seiten der von den Metallatomen gebildeten Ebene führt ausschließlich zu einem μ3‐Ethylidin‐μ3‐octin‐Komplex. Bei dieser Reaktion wandert ein C3‐Fragment von einer Seite der Ru3‐Ebene auf die andere, was in einer Umverteilung von zwei C5‐ in ein C2‐ und ein C8‐Molekül resultiert.

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Structure, mechanism and catalytic duality of thiamine-dependent enzymes

Frank

Leeper

Luisi

2007

Cell. Mol. Life Sci.

229

223

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Thiamine is an essential cofactor that is required for processes of general metabolism amongst all organisms, and it is likely to have played a role in the earliest stages of the evolution of life. Here, we review from a structural perspective the enzymatic mechanisms that involve this cofactor. We explore asymmetry within homodimeric thiamine diphosphate (ThDP)-dependent enzyme structures and discuss how this may be correlated with the kinetic properties of half-of-the-sites reactivity, and negative cooperativity. It is likely these structural and kinetic hallmarks may arise through reciprocal coupling of active sites. This mode of communication between distant active sites is not unique to ThDP-dependent enzymes, but is widespread in other classes of oligomeric enzyme. Thus, it appears likely to be a general phenomenon reflecting a powerful mechanism of accelerating the rate of a chemical pathway. Finally, we speculate on the early evolutionary history of the cofactor and its ancient association with protein and RNA.

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NMDA receptors are selectively partitioned into complexes and supercomplexes during synapse maturation

et al. 2016

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How neuronal proteomes self-organize is poorly understood because of their inherent molecular and cellular complexity. Here, focusing on mammalian synapses we use blue-native PAGE and ‘gene-tagging' of GluN1 to report the first biochemical purification of endogenous NMDA receptors (NMDARs) directly from adult mouse brain. We show that NMDARs partition between two discrete populations of receptor complexes and ∼1.5 MDa supercomplexes. We tested the assembly mechanism with six mouse mutants, which indicates a tripartite requirement of GluN2B, PSD93 and PSD95 gate the incorporation of receptors into ∼1.5 MDa supercomplexes, independent of either canonical PDZ-ligands or GluN2A. Supporting the essential role of GluN2B, quantitative gene-tagging revealed a fourfold molar excess of GluN2B over GluN2A in adult forebrain. NMDAR supercomplexes are assembled late in postnatal development and triggered by synapse maturation involving epigenetic and activity-dependent mechanisms. Finally, screening the quaternary organization of 60 native proteins identified numerous discrete supercomplexes that populate the mammalian synapse.

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A Molecular Switch and Proton Wire Synchronize the Active Sites in Thiamine Enzymes

Frank

Titman

Pratap

et al. 2004

Science

172

186

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Thiamine diphosphate (ThDP) is used as a cofactor in many key metabolic enzymes. We present evidence that the ThDPs in the two active sites of the E1 (EC 1.2.4.1) component of the pyruvate dehydrogenase complex communicate over a distance of 20 angstroms by reversibly shuttling a proton through an acidic tunnel in the protein. This "proton wire" permits the co-factors to serve reciprocally as general acid/base in catalysis and to switch the conformation of crucial active-site peptide loops. This synchronizes the progression of chemical events and can account for the oligomeric organization, conformational asymmetry, and "ping-pong" kinetic properties of E1 and other thiamine-dependent enzymes.

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René Frank

Pnicogen Bonds: A New Molecular Linker?

Structure, mechanism and catalytic duality of thiamine-dependent enzymes

NMDA receptors are selectively partitioned into complexes and supercomplexes during synapse maturation

A Molecular Switch and Proton Wire Synchronize the Active Sites in Thiamine Enzymes

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