Benzotrifluoride and derivatives : useful solvents for organic synthesis and fluorous synthesis

Benzotrifluoride (BTF, trifluoromethylbenzene, alpha,alpha,alpha-trifluorotoluene, C6H5CF3) and related compounds are introduced as new solvents for traditional organic synthesis and for fluorous synthesis. BTF is more environmentally friendly than many other organic solvents and is available in large quantities. BTF is relatively inert and is suitable for use as a solvent for a wide range of chemistry including ionic, transition-metal catalyzed and thermal reactions. It is especially useful for radical reactions, where it may replace benzene as the current solvent of choice for many common transformations. BTF and related solvents are also crucial components of fluorous synthesis since they can dissolve both standard organic molecules and highly fluorinated molecules. This chapter provides an overview of the reactivity and toxicological properties of BTF and analogs and then summarizes their recent uses as reaction solvents in both traditional organic and new fluorous synthesis

Measurement of the intracellular distribution of reduced glutathione in cultured rat hepatocytes using monochlorobimane and confocal laser scanning microscopy

Intracellular reduced glutathione (GSH) plays a key role in protecting cells from toxicity by maintaining intracellular redox status, conjugating with electrophilic xenobiotics and free radicals, and detoxifying reactive peroxides. Several toxic chemicals interact with GSH during their metabolism, and in many cases it would be advantageous to monitor intracellular GSH distribution during that process. We present a novel method to monitor intracellular GSH levels utilising a new laser light source, InGaN laser, for confocal microscopy and fluorescent detection of monochlorobimane (mBCl) binding to GSH. The sensitivity of the method was compared with that obtained using o-phthalaldehyde (OPT) as a fluorochrome. In the presence of a source of glutathione S-transferase (GST), mBCl was specific for GSH, forming a fluorescent conjugate that was retained in hepatocytes for at least 35 min. mBCl was able to detect the GSH depleting effects caused by progressive inhibition of GSH synthesis by increasing concentrations of buthionine sulfoximine. It effectively monitored the rapid effects of menadione and chromium VI metabolism on intracellular GSH levels in the cytosol and nuclear compartments of the cells. The combination of a specific stain, a novel laser light source and confocal microscopy provide a valuable system for mechanistic studies of intracellular GSH distribution in toxicology studies