Protein surface charge of trypsinogen changes its activation pattern.

Background: Trypsinogen is the inactive precursor of trypsin, a serine protease that cleaves proteins and peptides after arginine and lysine residues. In this study, human trypsinogen was used as a model protein to study the influence of electrostatic forces on protein-protein interactions. Trypsinogen is active only after its eight-amino-acid-long activation peptide has been cleaved off by another protease, enteropeptidase.

One-step assay for the quantification of T4 DNA ligase.

As one of the most commonly used enzyme in molecular biology, the T4 DNA ligase presents an important tool for the manipulation of DNA. T4 DNA ligase activity measurements are based on the use of radioactivity or rather labor-intense procedures including gel-based analysis. We therefore established a homogeneous T4 DNA ligase assay utilizing a specifically designed fluorescein- and dark quencher-labeled DNA molecule.

Increased thermostability of microbial transglutaminase by combination of several hot spots evolved by random and saturation mutagenesis.

The thermostability of microbial transglutaminase (MTG) of Streptomyces mobaraensis was further improved by saturation mutagenesis and DNA-shuffling. High-throughput screening was used to identify clones with increased thermostability at 55°C. Saturation mutagenesis was performed at seven "hot spots", previously evolved by random mutagenesis.