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 - 4 of 4 results
1.

Optogenetic control of Nodal signaling patterns.

blue CRY2/CIB1 VfAU1-LOV zebrafish in vivo Developmental processes
bioRxiv, 12 Apr 2024 DOI: 10.1101/2024.04.11.588875 Link to full text
Abstract: A crucial step in early embryogenesis is the establishment of spatial patterns of signaling activity. Tools to perturb morphogen signals with high resolution in space and time can help reveal how embryonic cells decode these signals to make appropriate fate decisions. Here, we present new optogenetic reagents and an experimental pipeline for creating designer Nodal signaling patterns in live zebrafish embryos. Nodal receptors were fused to the light sensitive heterodimerizing pair Cry2/CIB1N, and the Type II receptor was sequestered to the cytosol. The improved optoNodal2 reagents eliminate dark activity and improve response kinetics, without sacrificing dynamic range. We adapted an ultra-widefield microscopy platform for parallel light patterning in up to 36 embryos and demonstrated precise spatial control over Nodal signaling activity and downstream gene expression. Patterned Nodal activation drove precisely controlled internalization of endodermal precursors. Further, we used patterned illumination to generate synthetic signaling patterns in Nodal signaling mutants, rescuing several characteristic developmental defects. This study establishes an experimental toolkit for systematic exploration of Nodal signaling patterns in live embryos.
2.

All-optical mapping of cAMP transport reveals rules of sub-cellular localization.

blue bPAC (BlaC) HEK293T MDCK rat hippocampal neurons Immediate control of second messengers
bioRxiv, 29 Jun 2023 DOI: 10.1101/2023.06.27.546633 Link to full text
Abstract: Cyclic adenosine monophosphate (cAMP) is a second messenger that mediates diverse intracellular signals. Studies of cAMP transport in cells have produced wildly different results, from reports of nearly free diffusion to reports that cAMP remains localized in nanometer-scale domains. We developed an all-optical toolkit, termed cAMP-SITES, to locally perturb and map cAMP transport. In MDCK cells and in cultured neurons, cAMP had a diffusion coefficient of ~120 μm2/s, similar to the diffusion coefficients of other small molecules in cytoplasm. In neuronal dendrites, a balance between diffusion and degradation led to cAMP domains with a length scale of ~30 μm. Geometrical confinement by membranes led to subcellular variations in cAMP concentration, but we found no evidence of nanoscale domains or of distinct membrane-local and cytoplasmic pools. We introduce theoretical relations between cell geometry and small-molecule reaction-diffusion dynamics and transport to explain our observations.
3.

Optogenetic Approaches to Drug Discovery in Neuroscience and Beyond.

blue BLUF domains LOV domains Review
Trends Biotechnol, 25 May 2017 DOI: 10.1016/j.tibtech.2017.04.002 Link to full text
Abstract: Recent advances in optogenetics have opened new routes to drug discovery, particularly in neuroscience. Physiological cellular assays probe functional phenotypes that connect genomic data to patient health. Optogenetic tools, in particular tools for all-optical electrophysiology, now provide a means to probe cellular disease models with unprecedented throughput and information content. These techniques promise to identify functional phenotypes associated with disease states and to identify compounds that improve cellular function regardless of whether the compound acts directly on a target or through a bypass mechanism. This review discusses opportunities and unresolved challenges in applying optogenetic techniques throughout the discovery pipeline - from target identification and validation, to target-based and phenotypic screens, to clinical trials.
4.

Optogenetics: Turning the Microscope on Its Head.

blue LOV domains Review
Biophys J, 8 Mar 2016 DOI: 10.1016/j.bpj.2016.02.011 Link to full text
Abstract: Abstract not available.
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