A Photodeactivatable Antagonist for Controlling CREB-Dependent Gene Expression.

A novel photodeactivation strategy for controlling gene expression has been developed based on light-induced activation of cAMP response element binding protein (CREB). Light-induced cleavage of the photoresponsive protecting group of an antagonist of CREB binding protein (CBP) results in photocleaved products with weak binding affinity for CBP. This photodissociation reaction enables protein-protein interactions between CBP and CREB that trigger the formation of a multiprotein transcription complex to turn gene expression "on". This enables irradiation of antagonist-treated HEK293T cells to be used to trigger temporal recovery of CREB-dependent transcriptional activity and endogenous gene expression under photolytic control.

Photolytic Release of a Caged Inhibitor of an Endogenous Transcription Factor Enables Optochemical Control of CREB-Mediated Gene Expression.

A direct optochemical method for regulating gene function has been developed based on uncaging of an inactive caged precursor that fragments to produce a CREB (cAMP-response element binding protein) inhibitor that binds to an endogenous transcription factor responsible for regulating CREB-mediated gene expression levels.