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</script>pmid: 17579707
pmc: PMC1888723
To identify the underlying reason for the controversial performance of tetracycline (Tet)-controlled regulated gene expression in mammalian neurons, we investigated each of the three components that comprise the Tet inducible systems, namely tetracyclines as inducers, tetracycline-transactivator (tTA) and reverse tTA (rtTA), and tTA-responsive promoters (P(tets)). We have discovered that stably integrated P(tet) becomes functionally silenced in the majority of neurons when it is inactive during development. P(tet) silencing can be avoided when it is either not integrated in the genome or stably-integrated with basal activity. Moreover, long-term, high transactivator levels in neurons can often overcome integration-induced P(tet) gene silencing, possibly by inducing promoter accessibility.
Transcriptional Activation, Science, Q, Green Fluorescent Proteins, R, gene expression profiling annotation, Brain, Mice, Transgenic, Tetracycline, Polymerase Chain Reaction, Mice, Gene Expression Regulation, Trans-Activators, Medicine, Animals, animal, Gene Silencing, Calcium-Calmodulin-Dependent Protein Kinase Type 2, Luciferases, Promoter Regions, Genetic, In Situ Hybridization, Research Article
Transcriptional Activation, Science, Q, Green Fluorescent Proteins, R, gene expression profiling annotation, Brain, Mice, Transgenic, Tetracycline, Polymerase Chain Reaction, Mice, Gene Expression Regulation, Trans-Activators, Medicine, Animals, animal, Gene Silencing, Calcium-Calmodulin-Dependent Protein Kinase Type 2, Luciferases, Promoter Regions, Genetic, In Situ Hybridization, Research Article
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