Optogenetic control of nuclear protein export
WebFeb 8, 2016 · While nuclear protein import can be controlled in space and time with a portfolio of optogenetic tools, protein export has not been tackled so far. Here we present … WebAug 6, 2024 · Extremely rapid and reversible optogenetic perturbation of nuclear proteins in living embryos Highlights • Improved optogenetic nuclear protein depletion gives efficient perturbation in vivo • iLEXY depletes proteins from the nucleus in seconds, with tunable recovery kinetics •
Optogenetic control of nuclear protein export
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Webchannels in neuroscience2, optogenetics has been extended to almost every corner of cell biology. Optogenetic proteins are now available to control the fundamental currencies of protein heterodimerization3–5, homo-dimerization6 ,7, gene expression189, degradation10, nuclear-cytosolic translocation11–14, and even WebJan 22, 2024 · The Di Ventura lab has developed an optogenetic tool for light-inducible protein import to the nucleus ( 56 ). They combined NLS with the second light-oxygen-voltage (LOV2) domain of Avena sativa phototropin 1 that sterically conceals the NLS from the nuclear import machinery in dark.
Web123456 - Read online for free. ... Share with Email, opens mail client WebJun 2, 2016 · The light-inducible nuclear localization signal (LINuS) was developed based on a natural plant photoreceptor that reversibly triggers the import of proteins of interest into …
WebWhile nuclear protein import can be controlled in space and time with a portfolio of optogenetic tools, protein export has not been tackled so far. Here we present a light-inducible nuclear export system (LEXY) based on a single, genetically encoded tag, which enables precise spatiotemporal control over the export of tagged proteins. WebJul 8, 2024 · Multiple optogenetic devices have been developed to manipulate nuclear protein import and export, but molecular tools tailored for remote control over selective targeting or partitioning of cargo proteins into subnuclear compartments capable of phase separation are still limited.
WebWhile nuclear protein import can be controlled in space and time with a portfolio of optogenetic tools, protein export has not been tackled so far. Here we present a light …
WebDownloadable! Active nucleocytoplasmic transport is a key mechanism underlying protein regulation in eukaryotes. While nuclear protein import can be controlled in space and time with a portfolio of optogenetic tools, protein export has not been tackled so far. Here we present a light-inducible nuclear export system (LEXY) based on a single, genetically … chinese airport pillsWebFeb 8, 2016 · While nuclear protein import can be controlled in space and time with a portfolio of optogenetic tools, protein export has not been tackled so far. Here we … chinese air pollution statisticsWebFeb 8, 2016 · While nuclear protein import can be controlled in space and time with a portfolio of optogenetic tools, protein export has not been tackled so far. Here we present … grand cayman in septemberWebFeb 8, 2016 · While nuclear protein import can be controlled in space and time with a portfolio of optogenetic tools, protein export has not been tackled so far. Here we present … grand cayman in juneWebNov 11, 2024 · GLIMPSe enables target-independent optogenetic control of protein activities and therefore minimizes the systematic variation embedded within different photoactivatable proteins. ... (9) Niopek D, Wehler P, Roensch J, Eils R, and Di Ventura B (2016) Optogenetic control of nuclear protein export. Nat. Commun 7, 10624. [PMC free … grand cayman in octoberWebOptogenetics is a technique particularly suited to control protein localization with high spatiotemporal precision. An exemplary optogenetic tool useful in regulating the localization of a protein of interest (POI) in and out of the eukaryotic cell nucleus is the blue light-inducible nuclear protein export system LEXY. Like many other optogenet In the dark, the … grand cayman in maychinese airport heights