Tet system in the brain: Transgenic rats and lentiviral vectors approach

## Abstract Direct gene transfer to the adult brain is dependent on vectors that transduce non‐dividing cells, such as lentiviral vectors. Another aspect of the development of gene therapy to the brain is the need for cell‐specific transgene expression. Expression from vesicular stomatitis virus G‐

## Abstract In this study we have developed and validated a novel approach of transgene regulation in the brain. By using lentiviral vectors that incorporate promoters of genes that are up‐regulated during different pathological states, we were able to regulate transgene expression in accordance wi

## Background: Control of transgene expression in mammalian cells is desirable for gene therapy and the study of gene function in basic research. this study evaluates the functionality of single adenovirus (ad) vectors containing a tetracycline-controllable expression system (tet-off or tet-on syst

## Abstract The role of regucalcin, which is a regulatory protein in intracellular signaling, in the regulation of Ca^2+^‐ATPase activity in the mitochondria of brain tissues was investigated. The addition of regucalcin (10^−10^ to 10^−8^ M), which is a physiologic concentration in rat brain tissue