Optogenetic Tools in the Molecular Spotlight

The rise of optogenetics as a standard technique to non-invasively probe and monitor biological function created an immense interest in the molecular function of photosensory proteins. These photoreceptors are usually protein/pigment complexes that translate light into biological information and hav...

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Huvudupphov: John T. M. Kennis, Tilo Mathes
Materialtyp: Online
Språk:engelska
Utgiven: Frontiers Media SA 2021
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author John T. M. Kennis
Tilo Mathes
author_browse John T. M. Kennis
Tilo Mathes
author_facet John T. M. Kennis
Tilo Mathes
author_sort John T. M. Kennis
collection Directory of Open Access Books
description The rise of optogenetics as a standard technique to non-invasively probe and monitor biological function created an immense interest in the molecular function of photosensory proteins. These photoreceptors are usually protein/pigment complexes that translate light into biological information and have become essential tools in cell biology and neurobiology as their function is genetically encoded and can be conveniently delivered into a given cell. Like for fluorescent proteins that quickly became invaluable as genetically encodable reporters in microscopy and imaging, variants of photosensory proteins with customized sensitivity and functionality are nowadays in high demand. In this ebook we feature reviews and original research on molecular approaches from synthetic biology and molecular spectroscopy to computational molecular modelling that all aspire to elucidate the molecular prerequisites for the photosensory function of the given proteins. The principle property of changing activity of biological function simply by application of light is not only very attractive for cell biology, it also offers unique opportunities for molecular studies as excitation can be controlled with high time precision. Especially in spectroscopy the usually fully reversible photoactivation of photosensory proteins allows researchers to to perform time resolved studies with up to femtosecond resolution. In addition, functional variants can be investigated and quickly screened in common biochemical experiments. The insights that are obtained by the here presented various yet complementary methods will ultimately allow us write the script for a molecular movie from excitation of the protein by a photon to activation of its biological function. Such deep understanding does not only provide unique insights into the dynamics of protein function, it will also ultimately enable us to rationally design novel optogenetic tools to be used in cell biology and therapy.
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spelling doab-20.500.12854ir-553532023-12-20T18:40:29Z Optogenetic Tools in the Molecular Spotlight John T. M. Kennis Tilo Mathes Q1-390 photoreceptors Opsins Photochemistry and photophysics spectroscopy optogenetics Phytochrome Protein Engineering computational modeling Flavins bic Book Industry Communication::G Reference, information & interdisciplinary subjects::GP Research & information: general The rise of optogenetics as a standard technique to non-invasively probe and monitor biological function created an immense interest in the molecular function of photosensory proteins. These photoreceptors are usually protein/pigment complexes that translate light into biological information and have become essential tools in cell biology and neurobiology as their function is genetically encoded and can be conveniently delivered into a given cell. Like for fluorescent proteins that quickly became invaluable as genetically encodable reporters in microscopy and imaging, variants of photosensory proteins with customized sensitivity and functionality are nowadays in high demand. In this ebook we feature reviews and original research on molecular approaches from synthetic biology and molecular spectroscopy to computational molecular modelling that all aspire to elucidate the molecular prerequisites for the photosensory function of the given proteins. The principle property of changing activity of biological function simply by application of light is not only very attractive for cell biology, it also offers unique opportunities for molecular studies as excitation can be controlled with high time precision. Especially in spectroscopy the usually fully reversible photoactivation of photosensory proteins allows researchers to to perform time resolved studies with up to femtosecond resolution. In addition, functional variants can be investigated and quickly screened in common biochemical experiments. The insights that are obtained by the here presented various yet complementary methods will ultimately allow us write the script for a molecular movie from excitation of the protein by a photon to activation of its biological function. Such deep understanding does not only provide unique insights into the dynamics of protein function, it will also ultimately enable us to rationally design novel optogenetic tools to be used in cell biology and therapy. 2021-02-11T21:49:04Z 2021-02-11T21:49:04Z 2016-01-19 14:05:46 2016 book 18286 16648714 9782889198993 https://directory.doabooks.org/handle/20.500.12854/55353 eng Frontiers Research Topics image/jpeg Attribution 4.0 International http://www.frontiersin.org/books/Optogenetic_Tools_in_the_Molecular_Spotlight/949#nogo http://journal.frontiersin.org/researchtopic/3172/optogenetic-tools-in-the-molecular-spotlight Frontiers Media SA 10.3389/978-2-88919-899-3 10.3389/978-2-88919-899-3 bf5ce210-e72e-4860-ba9b-c305640ff3ae 9782889198993 179 open access
spellingShingle Q1-390
photoreceptors
Opsins
Photochemistry and photophysics
spectroscopy
optogenetics
Phytochrome
Protein Engineering
computational modeling
Flavins
bic Book Industry Communication::G Reference, information & interdisciplinary subjects::GP Research & information: general
John T. M. Kennis
Tilo Mathes
Optogenetic Tools in the Molecular Spotlight
title Optogenetic Tools in the Molecular Spotlight
title_full Optogenetic Tools in the Molecular Spotlight
title_fullStr Optogenetic Tools in the Molecular Spotlight
title_full_unstemmed Optogenetic Tools in the Molecular Spotlight
title_short Optogenetic Tools in the Molecular Spotlight
title_sort optogenetic tools in the molecular spotlight
topic Q1-390
photoreceptors
Opsins
Photochemistry and photophysics
spectroscopy
optogenetics
Phytochrome
Protein Engineering
computational modeling
Flavins
bic Book Industry Communication::G Reference, information & interdisciplinary subjects::GP Research & information: general
topic_facet Q1-390
photoreceptors
Opsins
Photochemistry and photophysics
spectroscopy
optogenetics
Phytochrome
Protein Engineering
computational modeling
Flavins
bic Book Industry Communication::G Reference, information & interdisciplinary subjects::GP Research & information: general
url 18286
work_keys_str_mv AT johntmkennis optogenetictoolsinthemolecularspotlight
AT tilomathes optogenetictoolsinthemolecularspotlight