Results 371 to 380 of about 55,224 (387)
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2015
The fruit fly Drosophila melanogaster, an insect 4 mm long, has served as the experimental subject in a wide range of biological research, including neuroscience. In this chapter, we briefly introduce optogenetic applications in Drosophila neuroscience research. First, we describe the development of Drosophila from egg to adult.
Hiroshi Kohsaka, Akinao Nose
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The fruit fly Drosophila melanogaster, an insect 4 mm long, has served as the experimental subject in a wide range of biological research, including neuroscience. In this chapter, we briefly introduce optogenetic applications in Drosophila neuroscience research. First, we describe the development of Drosophila from egg to adult.
Hiroshi Kohsaka, Akinao Nose
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2021
Optogenetics brought noninvasive neural activation in living organisms. Transparent zebrafish larva is one of the suitable animal models that receive the full benefit of this technique and provides behavioral studies based on intact individual nervous system.
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Optogenetics brought noninvasive neural activation in living organisms. Transparent zebrafish larva is one of the suitable animal models that receive the full benefit of this technique and provides behavioral studies based on intact individual nervous system.
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2021
Optogenetics, which relies on the use of photons to manipulate cellular and subcellular processes, has emerged as an important tool that has transformed several fields including neuroscience. Improvement of optogenetic topographies, together with integration with complementary tools such as electrophysiology, imaging, anatomical and behavioral analysis,
Srikanta, Chowdhury, Akihiro, Yamanaka
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Optogenetics, which relies on the use of photons to manipulate cellular and subcellular processes, has emerged as an important tool that has transformed several fields including neuroscience. Improvement of optogenetic topographies, together with integration with complementary tools such as electrophysiology, imaging, anatomical and behavioral analysis,
Srikanta, Chowdhury, Akihiro, Yamanaka
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Neurosurgery, 2009
Modulation of the nervous system by electrical or chemical means (neuromodulation) is becoming increasingly sophisticated, with application to a growing number of neurological diseases. However, both chemical and electrical neuromodulation are limited in their specificity.
Jaimie M, Henderson +2 more
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Modulation of the nervous system by electrical or chemical means (neuromodulation) is becoming increasingly sophisticated, with application to a growing number of neurological diseases. However, both chemical and electrical neuromodulation are limited in their specificity.
Jaimie M, Henderson +2 more
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Biology of the Cell, 2012
AbstractThe discovery of naturally evolved fluorescent proteins and their subsequent tuning by protein engineering provided the basis for a large family of genetically encoded biosensors that report a variety of physicochemical processes occurring in living tissue. These optogenetic reporters are powerful tools for live‐cell microscopy and quantitative
Spencer C, Alford +4 more
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AbstractThe discovery of naturally evolved fluorescent proteins and their subsequent tuning by protein engineering provided the basis for a large family of genetically encoded biosensors that report a variety of physicochemical processes occurring in living tissue. These optogenetic reporters are powerful tools for live‐cell microscopy and quantitative
Spencer C, Alford +4 more
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Towards translational optogenetics
Nature Biomedical Engineering, 2022A. Bansal, S. Shikha, Yong Zhang
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Expanding the Toolbox of Upconversion Nanoparticles for In Vivo Optogenetics and Neuromodulation
Advances in Materials, 2019Optogenetics is an optical technique that exploits visible light for selective neuromodulation with spatio‐temporal precision. Despite enormous effort, the effective stimulation of targeted neurons, which are located in deeper structures of the nervous ...
A. All +8 more
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Near‐Infrared‐Light Activatable Nanoparticles for Deep‐Tissue‐Penetrating Wireless Optogenetics
Advanced Healthcare Materials, 2019Optogenetics has been developed to control the activities and functions of cells with high spatiotemporal resolution, cell‐type specificity, and flexibility.
Nuo Yu +5 more
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Optogenetics: the age of light [PDF]
Nature Methods, 2014 The optogenetic revolution is transforming neuroscience. The dramatic recent progress in using light to both control and read out neural activity has highlighted the need for better probes, improved light delivery and more careful interpretation of results, which will all be required for optogenetics to fully realize its remarkable potential.
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2012 Annual International Conference of the IEEE Engineering in Medicine and Biology Society, 2012
For therapies based on human induced pluripotent stem cell (hiPSC)-derived cardiomyocytes (CM) to be effective, arrhythmias must be avoided. Towards achieving this goal, light-activated channelrhodopsin-2 (ChR2), a cation channel activated with 480 nm light, and a first generation halorhodopsin (NpHR1.0), an anion pump activated by 580 nm light, have ...
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For therapies based on human induced pluripotent stem cell (hiPSC)-derived cardiomyocytes (CM) to be effective, arrhythmias must be avoided. Towards achieving this goal, light-activated channelrhodopsin-2 (ChR2), a cation channel activated with 480 nm light, and a first generation halorhodopsin (NpHR1.0), an anion pump activated by 580 nm light, have ...
openaire +2 more sources