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Site-specific promoter caging enables optochemical gene activation in cells and animals.


ABSTRACT: In cell and molecular biology, double-stranded circular DNA constructs, known as plasmids, are extensively used to express a gene of interest. These gene expression systems rely on a specific promoter region to drive the transcription of genes either constitutively (i.e., in a continually "ON" state) or conditionally (i.e., in response to a specific transcription initiator). However, controlling plasmid-based expression with high spatial and temporal resolution in cellular environments and in multicellular organisms remains challenging. To overcome this limitation, we have site-specifically installed nucleobase-caging groups within a plasmid promoter region to enable optochemical control of transcription and, thus, gene expression, via photolysis of the caging groups. Through the light-responsive modification of plasmid-based gene expression systems, we have demonstrated optochemical activation of an exogenous fluorescent reporter gene in both tissue culture and a live animal model, as well as light-induced overexpression of an endogenous signaling protein.

SUBMITTER: Hemphill J 

PROVIDER: S-EPMC4333597 | biostudies-literature | 2014 May

REPOSITORIES: biostudies-literature

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Site-specific promoter caging enables optochemical gene activation in cells and animals.

Hemphill James J   Govan Jeane J   Uprety Rajendra R   Tsang Michael M   Deiters Alexander A  

Journal of the American Chemical Society 20140506 19


In cell and molecular biology, double-stranded circular DNA constructs, known as plasmids, are extensively used to express a gene of interest. These gene expression systems rely on a specific promoter region to drive the transcription of genes either constitutively (i.e., in a continually "ON" state) or conditionally (i.e., in response to a specific transcription initiator). However, controlling plasmid-based expression with high spatial and temporal resolution in cellular environments and in mu  ...[more]

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