Curated Optogenetic Publication Database

Search precisely and efficiently by using the advantage of the hand-assigned publication tags that allow you to search for papers involving a specific trait, e.g. a particular optogenetic switch or a host organism.

Showing 1 - 2 of 2 results
1.

Regulation of signaling proteins in the brain by light.

blue red UV BLUF domains Cryptochromes LOV domains Phytochromes UV receptors Review
Prog Neurobiol, 11 Jun 2019 DOI: 10.1016/j.pneurobio.2019.101638 Link to full text
Abstract: In order to study the role of signaling proteins, such as kinases and GTPases, in brain functions it is necessary to control their activity at the appropriate spatiotemporal resolution and to examine the cellular and behavioral effects of such changes in activity. Reduced spatiotemporal resolution in the regulation of these proteins activity will impede the ability to understand the proteins normal functions as longer modification of their activity in non-normal locations could lead to effects different from their natural functions. To control intracellular signaling proteins at the highest temporal resolution recent innovative optogenetic approaches were developed to allow the control of photoactivable signaling proteins activity by light. These photoactivatable proteins can be activated in selected cell population in brain and in specific subcellular compartments. Minimal-invasive tools are being developed to photoactivate these proteins for study and therapy. Together these techniques afford an unprecedented spatiotemporal control of signaling proteins activity to unveil the function of brain proteins with high accuracy in behaving animals. As dysfunctional signaling proteins are involved in brain diseases, the optogenetic technique has also the potential to be used as a tool to treat brain diseases.
2.

Activation of EphB2 Forward Signaling Enhances Memory Consolidation.

blue CRY2olig HEK293 mouse in vivo NIH/3T3 Signaling cascade control
Cell Rep, 15 May 2018 DOI: 10.1016/j.celrep.2018.04.042 Link to full text
Abstract: EphB2 is involved in enhancing synaptic transmission and gene expression. To explore the roles of EphB2 in memory formation and enhancement, we used a photoactivatable EphB2 (optoEphB2) to activate EphB2 forward signaling in pyramidal neurons in lateral amygdala (LA). Photoactivation of optoEphB2 during fear conditioning, but not minutes afterward, enhanced long-term, but not short-term, auditory fear conditioning. Photoactivation of optoEphB2 during fear conditioning led to activation of the cAMP/Ca2+ responsive element binding (CREB) protein. Application of light to a kinase-dead optoEphB2 in LA did not lead to enhancement of long-term fear conditioning memory or to activation of CREB. Long-term, but not short-term, auditory fear conditioning memory was impaired in mice lacking EphB2 forward signaling (EphB2lacZ/lacZ). Activation of optoEphB2 in LA of EphB2lacZ/lacZ mice enhanced long-term fear conditioning memory. The present findings show that the level of EphB2 forward signaling activity during learning determines the strength of long-term memory consolidation.
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