Structure-based Design of Novel Hepatitis B Virus Capsid Assembly Modulators.

Small-molecule capsid assembly modulators (CAMs) have been recently recognized as promising antiviral agents for curing chronic hepatitis B virus (HBV) infection. A target-based in silico screening study is described, aimed towards the discovery of novel HBV CAMs. Initial optimization of four weakly active screening hits was performed via focused library synthesis.

Protein purification strategies must consider downstream applications and individual biological characteristics.

Background: Proteins are used as reagents in a broad range of scientific fields. The reliability and reproducibility of experimental data will largely depend on the quality of the (recombinant) proteins and, consequently, these should undergo thorough structural and functional controls. Depending on the downstream application and the biochemical characteristics of the protein, different sets of specific features will need to be checked.

Discovery of substituted N-phenylbenzenesulphonamides as a novel class of non-nucleoside hepatitis C virus polymerase inhibitors.

The RNA-dependent RNA polymerase NS5B of the hepatitis C virus (HCV) has emerged as one of the key targets for antiviral drug discovery. Here we describe a novel non-nucleoside inhibitor (NNI) chemotype identified by screening: The substituted N-phenylbenzenesulphonamides (SPBS) which showed reversible inhibition of NS5B from HCV genotype 1b with IC(50) values up to 40 nM. Based on the decreased inhibitory activity against a recombinant NS5B protein carrying the mutation L419M or M423T we assumed that the SPBS inhibitors bind to the thumb site II which has already been described as the allosteric binding site for the NNI carboxy thiophene.