Engineering light-inducible nuclear localization signals for precise spatiotemporal control of protein dynamics in living cells.
about
Investigating neuronal function with optically controllable proteinsApplications of hydrogen deuterium exchange (HDX) for the characterization of conformational dynamics in light-activated photoreceptorsControl of Protein Activity and Cell Fate Specification via Light-Mediated Nuclear TranslocationOptogenetic control of nuclear protein export.Light-based Approaches to Cardiac Arrhythmia Research: From Basic Science to Translational ApplicationsTowards the computational design of protein post-translational regulationOptical control of biological processes by light-switchable proteinsHow to train your microbe: methods for dynamically characterizing gene networksOptical Control of Peroxisomal TraffickingOptogenetic control of organelle transport and positioningAn open-hardware platform for optogenetics and photobiologyEngineering extrinsic disorder to control protein activity in living cells.A simple optogenetic MAPK inhibitor design reveals resonance between transcription-regulating circuitry and temporally-encoded inputs.Optogenetic Inhibitor of the Transcription Factor CREBHow to Train a Cell-Cutting-Edge Molecular Tools.CRISPR genome engineering and viral gene delivery: a case of mutual attraction.Photoreceptor engineeringSynthetic biology: applying biological circuits beyond novel therapies.Optogenetic switches for light-controlled gene expression in yeast.Optogenetic Immunomodulation: Shedding Light on Antitumor Immunity.Go in! Go out! Inducible control of nuclear localization.Modular engineering of cellular signaling proteins and networks.Following Optogenetic Dimerizers and Quantitative ProspectsEngineering genetically-encoded tools for optogenetic control of protein activity.In vivo analysis of protein crowding within the nuclear pore complex in interphase and mitosis.Photocontrolled Exposure of Pro-apoptotic Peptide Sequences in LOV Proteins Modulates Bcl-2 Family Interactions.Quantitative Systems Biology to decipher design principles of a dynamic cell cycle network: the "Maximum Allowable mammalian Trade-Off-Weight" (MAmTOW).Light-induced nuclear export reveals rapid dynamics of epigenetic modifications.Engineering and Application of LOV2-Based PhotoswitchesReal-time observation of light-controlled transcription in living cells.Thermodynamic Paradigm for Solution Demixing Inspired by Nuclear Transport in Living Cells.Light-dependent cytoplasmic recruitment enhances the dynamic range of a nuclear import photoswitch.Near-infrared optogenetic pair for protein regulation and spectral multiplexing.Optogenetic Control of Nuclear Protein Import in Living Cells Using Light-Inducible Nuclear Localization Signals (LINuS).Illuminating developmental biology with cellular optogenetics.Bringing Light to Transcription: The Optogenetics Repertoire
P2860
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P2860
Engineering light-inducible nuclear localization signals for precise spatiotemporal control of protein dynamics in living cells.
description
2014 nî lūn-bûn
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2014年の論文
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2014年学术文章
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2014年学术文章
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2014年学术文章
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2014年学术文章
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2014年学术文章
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2014年學術文章
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name
Engineering light-inducible nu ...... tein dynamics in living cells.
@en
Engineering light-inducible nu ...... tein dynamics in living cells.
@nl
type
label
Engineering light-inducible nu ...... tein dynamics in living cells.
@en
Engineering light-inducible nu ...... tein dynamics in living cells.
@nl
prefLabel
Engineering light-inducible nu ...... tein dynamics in living cells.
@en
Engineering light-inducible nu ...... tein dynamics in living cells.
@nl
P2093
P2860
P356
P1476
Engineering light-inducible nu ...... tein dynamics in living cells.
@en
P2093
Barbara Di Ventura
Dirk Benzinger
Dominik Niopek
Julia Roensch
Pierre Wehler
Thomas Draebing
P2860
P2888
P356
10.1038/NCOMMS5404
P407
P50
P577
2014-07-14T00:00:00Z