Optimization of phagocyte chemiluminescence measurements using microplates and vials

Chemiluminescent assays have been used to quantify phagocytic activity since 1972. In recent years these assays have been adapted t o the 96-well microplate format as new luminometers have been developed. In this report w e describe the optimization of a lucigenin enhanced phagocyte chemiluminescent

The use of chemiluminescence techniques t o study the interaction between bacteria and phagocytes has been useful for examining the extent t o which serum factors, such as opsonins, are important in internalization of the organisms and the response of the cell t o phagocytosed bacteria. However, suc

We have developed a microplate photon counting system based on a cooled charge-coupled device (Lumi Box U-800 II) jointly with Maikurotekku Nition Company (Chiba, Japan). The system makes it possible to quantify chemiluminescence (CL) in a 96-well microplate automatically and simultaneously in a sin

## Abstract Retaining biopharmaceutical proteins in a stable form is critical to their safety and efficacy, and is a major factor for optimizing the final product. Freeze‐dried formulations offer one route for improved stability. Currently the optimization of formulations for freeze‐drying is an em

## Abstract Sensitive microplate‐based assays to determine low levels of key enzyme activities in mammalian cells are presented. The enzyme platform consists of four cycling assays to measure the activity of 28 enzymes involved in central carbon and glutamine metabolism. The sensitivity limit of al