Phage escape libraries for checkmate analysis.

Ligand-binding epitopes of proteins can mutate rapidly, as shown by viral mutations that lead to escape from neutralizing antibodies. We have undertaken to recreate in vitro the evolutionary competition between viral mutations that allow escape from antibody binding and host mutations that generate new neutralizing antibodies to the mutated viral antigen. To examine this vital race, we describe a phage-based method that allows rapid analysis of molecules that perturb the binding of proteins to their ligands.

Paclitaxel induces calcium oscillations via an inositol 1,4,5-trisphosphate receptor and neuronal calcium sensor 1-dependent mechanism.

Taxol (Paclitaxel) is an important natural product for the treatment of solid tumors. Despite a well documented tubulin-stabilizing effect, many side effects of taxol therapy cannot be explained by cytoskeletal mechanisms. In the present study submicromolar concentrations of taxol, mimicking concentrations found in patients, induced cytosolic calcium (Ca(2+)) oscillations in a human neuronal cell line.

Identification and characterization of single chain anti-cocaine catalytic antibodies.

Cocaine is a powerful and addictive stimulant whose abuse remains a prevalent health and societal crisis. Unfortunately, no pharmacological therapies exist and therefore alternative protein-based therapies have been examined. One such approach is immunopharmacotherapy, wherein antibodies are utilized to either bind or hydrolyze cocaine thereby blocking it from exerting its euphoric effect.

Complete reaction cycle of a cocaine catalytic antibody at atomic resolution.

Antibody 7A1 hydrolyzes cocaine to produce nonpsychoactive metabolites ecgonine methyl ester and benzoic acid. Crystal structures of 7A1 Fab' and six complexes with substrate cocaine, the transition state analog, products ecgonine methyl ester and benzoic acid together and individually, as well as heptaethylene glycol have been analyzed at 1.5-2.

A furanosyl-carbonate autoinducer in cell-to-cell communication of V. harveyi.

An autoinducer arising from reaction of cyclized S-DPD and carbonate is shown to induce light in V. harveyi and thus may play a previously unknown role in quorum sensing.

Quorum sensing in Vibrio harveyi: probing the specificity of the LuxP binding site.

Quorum sensing activity was investigated in the bacterium Vibrio harveyi using a series of both natural and nonnatural analogs of DPD, the penultimate precursor to autoinducer AI-2. The progression of molecules that were both synthesized and investigated includes enantiomeric variants, carbon-chain extension, and hydroxyl-functional group addition/deletions of DPD. The compilation of these studies reveals a binding cleft that can accommodate a number of different structural variants of DPD, albeit with invariably lower activities.