A Nonradioactive, High Throughput Assay for Chitin Synthase Activity

## Abstract The development of sensitive and easy‐to‐apply high‐throughput screening methods is a common need in modern biocatalysis. With these powerful analytical tools in hands, chemists can easily assess enzyme libraries to identify either novel biocatalysts or improved mutants. Within biocatal

The search for cyclic nucleotide phosphodiesterase inhibitors in large chemical and natural product libraries is limited by assay throughput. A high-throughput assay that can monitor different phosphodiesterase activities would be useful for these inhibitor searches. We have developed a sensitive ph

Microsomal cysteine-S-conjugate \(\boldsymbol{N}\)-acetyltransferase, an enzyme specific for \(\mathbf{S}\)-substituted cysteines, plays an important role in the detoxicative metabolism of xenobiotics by catalyzing the \(\mathbf{N}\)-acetylation of cysteine-S-conjugates. Cysteine-S-conjugate \(\bold

Botulinum neurotoxins (BoNT) are zinc metalloproteases that cleave and inactivate cellular proteins essential for neurotransmitter release. Because the paralytic effect of BoNT is a consequence of its enzymatic activity, selective inhibitors may be useful as drugs or as tools for further research. T

We have developed a novel fluorescence-based homogeneous binding assay for high-throughput screening of chemical compounds. In this assay, a Cy5- or Cy5.5-labeled ligand binds to receptor immobilized on a particle, either a bead or a cell. The resulting localized signal can be detected by a modified