Hannah M. König scite author profile

Elisabeth Funke, BS; and Hanj6rg Just, MD Background. The present study was designed to define the prevalence and characteristics of skeletal muscle alterations in patients with chronic heart failure (CHF) and their relation to exercise capacity.Methods and Results. The ultrastructure of skeletal muscle was analyzed by ultrastructural morphometry in 57 patients with CHF and 18 healthy controls. The volume density of mitochondria (Vvm) and the surface density (Svmc) of mitochondrial cristae were evaluated as a structural correlate of oxidative capacity of skeletal muscle. Vvm and Svmc were reduced by approximately 209% in patients with severe CHF irrespective of age and etiology. The cytochrome oxidase activity in mitochondria as determined by

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Supramolecular PEG−co-Oligo(p-benzamide)s Prepared on a Peptide Synthesizer

König

Gorelik

Kolb

et al. 2006

J. Am. Chem. Soc.

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An automated synthesis protocol has been developed for the preparation of oligo(p-benzamide)s on solid support using a commercial peptide synthesizer employing a variation of standard Fmoc chemistry. Bis(trichloromethyl carbonate) in NMP was used to activate the aromatic carboxylic acids for acylation of secondary aromatic amines on solid support. N-Protected hepta(p-benzamide) was automatically prepared on solid support and manually converted to a solid supported block co-oligomer by attaching a poly(ethylene glycol) chain. Cleavage from the support could be achieved with minimal loss of the p-methoxybenzyl N-protective group. While the N-protected block co-oligomer was molecularly dissolved in nonpolar organic solvents, the N-deprotected block co-oligomer adopted a rod-coil conformation and showed strong aggregation as evidenced by gel permeation chromatography and transmission electron microscopy. Rigid rodlike aggregates could be observed in chloroform, toluene, as well as water.

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Learning from Nature: β‐Sheet‐Mimicking Copolymers Get Organized

König

Kilbinger

2007

Angew Chem Int Ed

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The solution structures formed by coil-coil copolymers arise from the selective solvation of one of the two blocks and have been well described. In most cases in such relatively simple synthetic structures there are no specific attractive forces that can aid the aggregation process. Nature, however, provides plenty of inspiring polymeric architectures that are shaped and ordered hierarchically by noncovalent forces. The high level of structural definition displayed by proteins, for example, is unmatched by synthetic polymers. An emerging area of interest in polymer science tries to combine the best of both worlds, the natural and the synthetic, by conjugating synthetic polymers and beta-sheet-forming peptides. Understanding the supramolecular organization of the block copolymers driven exclusively by the intermolecular attractive forces of the peptide sequence is of particular interest. Not only do these peptide-polymer hybrid structures present an interesting new class of materials, they can also provide important insights into self-organization processes prevalent in nature.

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Solid-Phase Synthesis of Oligo(p-benzamide) Foldamers

et al. 2006

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[reaction: see text] A coupling protocol has been developed which allows the synthesis of oligo(p-benzamide)s on solid support. Aromatic carboxylic acids are activated in situ with thionyl chloride and used to acylate secondary aromatic amines. N-p-Methoxy benzyl (PMB) as well as N-hexyl protected monomers were investigated. Heterosequences of both monomers were synthesized. Such nanoscale objects are important building blocks for supramolecular chemistry.

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Janus Micelles Induced by Olefin Metathesis

et al. 2008

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A facile one-step procedure for hydrophobic modification and simultaneous TEM contrast enhancement via a regioselective olefin metathesis reaction using Grubbs' catalyst is presented. Polyether diblock copolymers were investigated, and both the chain ends of the hydrophilic and the hydrophobic block were hydrophobically modified. Modification of the hydrophilic block results in nonsymmetric supramolecular structures (Janus micelles) which self-assemble into larger hierarchically organized super-micelles.

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Hannah M. König

Alterations of skeletal muscle in chronic heart failure.

Supramolecular PEG−co-Oligo(p-benzamide)s Prepared on a Peptide Synthesizer

Learning from Nature: β‐Sheet‐Mimicking Copolymers Get Organized

Solid-Phase Synthesis of Oligo(p-benzamide) Foldamers

Janus Micelles Induced by Olefin Metathesis

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