A gas perfusion microcalorimeter for studies of plant tissue

A small-volume (200 ~1) titration calorimeter of high sensitivity (1 peal) has been developed for the purpose of studying biochemical reactions where the amounts of material are limited to a few nanomoles. High sensitivity is achieved by calorimetric twining, use of glass cells, elimination of vapor

A thin-layer gas-solution microcalorimeter has been developed to study the binding reactions of gaseous ligands with ligand binding macromolecules in solution. Gas partial pressures are accurately changed logarithmically by means of a precision dilution valve allowing for the stepwise determination

A perfusion culture system has been developed for 31P NMR study of human uveal melanoma metabolism by adapting the Vitafiber I cartridge system (Amicon). 31P NMR spectra collected weekly during periods of up to 10 weeks demonstrated increasing levels of phosphorus metabolites as the anchorage-depend

## Thin-Layer Chromatographic Separation and Analysis of @'-Labeled Compounds1 The isotopic analysis of oxygen in organic compounds requires the use of fairly large samples for conversion by various methods (1,2) to carbon