Publications by authors named "Matthias Zeug"
Article Synopsis
- Tryptophan plays a key role in electron transfer and reducing oxidative damage in proteins, with varying electrochemical potentials influenced by its local hydrogen-bonding environment.
- The study investigates how mutations at position Phe110 affect the electrochemical properties of tryptophan at position 48, using techniques like X-ray diffraction and UV resonance Raman spectroscopy.
- Findings suggest that water molecules in the protein environment can enhance electrochemical potentials and reveal complex interactions involving hydrogen bonding and local polarity around tryptophan.
Polyketide synthases (PKSs) are versatile C-C bond-forming enzymes that are broadly distributed in bacteria and fungi. The polyketide compound family includes many clinically useful drugs such as the antibiotic erythromycin, the antineoplastic epothilone, and the cholesterol-lowering lovastatin. Harnessing PKSs for custom compound synthesis remains an open challenge, largely because of the lack of knowledge about key structural properties.
View Article and Find Full Text PDFHydroxybenzoic acids, like gallic acid and protocatechuic acid, are highly abundant natural compounds. In biotechnology, they serve as critical precursors for various molecules in heterologous production pathways, but a major bottleneck is these acids' non-oxidative decarboxylation to hydroxybenzenes. Optimizing this step by pathway and enzyme engineering is tedious, partly because of the complicating cofactor dependencies of the commonly used prFMN-dependent decarboxylases.
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