The impact of xylan on the biosynthesis and structure of extracellular lignin produced by a Norway spruce tissue culture.

In order to develop more economic uses of lignin, greater knowledge regarding its native structure is required. This can inform the development of optimized extraction methods that preserve desired structural properties. Current extraction methods alter the polymeric structure of lignin, leading to a loss of valuable structural groups or the formation of new non-native ones.

Transaminase-Catalyzed Racemization with Potential for Dynamic Kinetic Resolutions.

Dynamic kinetic resolution (DKR) reactions in which a stereoselective enzyme and a racemization step are coupled in one pot would represent powerful tools for the production of enantiopure amines through enantioconvergence of racemates. The exploitation of DKR strategies is currently hampered by the lack of effective, enzyme-compatible and scalable racemization strategies for amines. In the present work, the proof of concept of a fully biocatalytic method for amine racemization is presented.

WD40-Repeat Proteins in Plant Cell Wall Formation: Current Evidence and Research Prospects.

The metabolic complexity of living organisms relies on supramolecular protein structures which ensure vital processes, such as signal transduction, transcription, translation and cell wall synthesis. In eukaryotes WD40-repeat (WDR) proteins often function as molecular "hubs" mediating supramolecular interactions. WDR proteins may display a variety of interacting partners and participate in the assembly of complexes involved in distinct cellular functions.

Quantum chemistry applied to the mechanisms of transition metal containing enzymes -- cytochrome c oxidase, a particularly challenging case.

The Density functional theory (B3LYP) has been used to study the mechanisms of O--O bond cleavage and proton pumping in cytochrome c oxidase. To understand how the energy from the exergonic reduction of molecular oxygen is used to pump protons across the mitochondrial membrane, the energetics of all steps in the catalytic cycle have to be evaluated. For this purpose, models have to be designed that can accurately reproduce relative redox potentials and pKa values within the active site.