Imaging Electrical Activity of Retinal Ganglion Cells with Fluorescent Voltage and Calcium Indicator Proteins in Retinal Degenerative <i>rd1</i> Blind Mice

In order to understand the retinal network, it is essential to identify functional connectivity among retinal neurons. For this purpose, imaging neuronal activity through fluorescent indicator proteins has been a promising approach, offering simultaneous measurements of neuronal activities from diff...

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Huvudupphovsman:	Younginha Jung (22676081) (author)
Övriga upphovsmän:	Sungmoo Lee (7554905) (author), Jun Kyu Rhee (11633650) (author), Chae-Eun Lee (14228438) (author), Bradley J. Baker (7554908) (author), Yoon-Kyu Song (6257246) (author)
Publicerad:	2025
Ämnen:	Biophysics Biochemistry Medicine Microbiology Cell Biology Neuroscience Physiology Biotechnology Developmental Biology Chemical Sciences not elsewhere classified potent experimental platform offering simultaneous measurements evoked somatic spiking fluorescent protein sensors fluorescent indicator proteins retinal stimulation strategies retinal signaling pathways retinal ganglion cells calcium indicator proteins calcium concentrations evoked visualize membrane voltage subthreshold voltage changes imaging neuronal activity imaging electrical activity retinal voltage imaging electrical activity fluorescent voltage retinal tissues retinal network retinal degenerative neuronal activities calcium  calcium dynamics visual prosthesis show current results indicate rd1 </ promising approach millisecond resolution different regions current pulses cellular precision
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author	Younginha Jung (22676081)
author2	Sungmoo Lee (7554905) Jun Kyu Rhee (11633650) Chae-Eun Lee (14228438) Bradley J. Baker (7554908) Yoon-Kyu Song (6257246)
author2_role	author author author author author
author_facet	Younginha Jung (22676081) Sungmoo Lee (7554905) Jun Kyu Rhee (11633650) Chae-Eun Lee (14228438) Bradley J. Baker (7554908) Yoon-Kyu Song (6257246)
author_role	author
dc.creator.none.fl_str_mv	Younginha Jung (22676081) Sungmoo Lee (7554905) Jun Kyu Rhee (11633650) Chae-Eun Lee (14228438) Bradley J. Baker (7554908) Yoon-Kyu Song (6257246)
dc.date.none.fl_str_mv	2025-11-24T17:38:13Z
dc.identifier.none.fl_str_mv	10.1021/acschemneuro.5c00740.s002
dc.relation.none.fl_str_mv	https://figshare.com/articles/media/Imaging_Electrical_Activity_of_Retinal_Ganglion_Cells_with_Fluorescent_Voltage_and_Calcium_Indicator_Proteins_in_Retinal_Degenerative_i_rd1_i_Blind_Mice/30696119
dc.rights.none.fl_str_mv	CC BY-NC 4.0 info:eu-repo/semantics/openAccess
dc.subject.none.fl_str_mv	Biophysics Biochemistry Medicine Microbiology Cell Biology Neuroscience Physiology Biotechnology Developmental Biology Chemical Sciences not elsewhere classified potent experimental platform offering simultaneous measurements evoked somatic spiking fluorescent protein sensors fluorescent indicator proteins retinal stimulation strategies retinal signaling pathways retinal ganglion cells calcium indicator proteins calcium concentrations evoked visualize membrane voltage subthreshold voltage changes imaging neuronal activity imaging electrical activity retinal voltage imaging electrical activity fluorescent voltage retinal tissues retinal network retinal degenerative neuronal activities calcium  calcium dynamics visual prosthesis show current results indicate rd1 </ promising approach millisecond resolution different regions current pulses cellular precision
dc.title.none.fl_str_mv	Imaging Electrical Activity of Retinal Ganglion Cells with Fluorescent Voltage and Calcium Indicator Proteins in Retinal Degenerative <i>rd1</i> Blind Mice
dc.type.none.fl_str_mv	Dataset Media info:eu-repo/semantics/publishedVersion dataset
description	In order to understand the retinal network, it is essential to identify functional connectivity among retinal neurons. For this purpose, imaging neuronal activity through fluorescent indicator proteins has been a promising approach, offering simultaneous measurements of neuronal activities from different regions of the circuit. In this study, we used genetically encoded indicatorsBongwoori-R3 for voltage or GCaMP6f for calciumto visualize membrane voltage or calcium dynamics, respectively, as spatial maps within individual retinal ganglion cells from retinal tissues of photoreceptor-degenerated <i>rd1</i> mice. Retinal voltage imaging was able to show current-evoked somatic spiking as well as subthreshold voltage changes, while calcium imaging showed changes in calcium concentrations evoked by current pulses in retinal ganglion cells. These results indicate that the combination of fluorescent protein sensors and high-speed imaging methods permits the imaging of electrical activity with cellular precision and millisecond resolution. Hence, we expect our method will provide a potent experimental platform for the study of retinal signaling pathways, as well as the development of retinal stimulation strategies in visual prosthesis.
eu_rights_str_mv	openAccess
id	Manara_54aca51928be93a31db1660969337679
identifier_str_mv	10.1021/acschemneuro.5c00740.s002
network_acronym_str	Manara
network_name_str	ManaraRepo
oai_identifier_str	oai:figshare.com:article/30696119
publishDate	2025
repository.mail.fl_str_mv
repository.name.fl_str_mv
repository_id_str
rights_invalid_str_mv	CC BY-NC 4.0
spelling	Imaging Electrical Activity of Retinal Ganglion Cells with Fluorescent Voltage and Calcium Indicator Proteins in Retinal Degenerative <i>rd1</i> Blind MiceYounginha Jung (22676081)Sungmoo Lee (7554905)Jun Kyu Rhee (11633650)Chae-Eun Lee (14228438)Bradley J. Baker (7554908)Yoon-Kyu Song (6257246)BiophysicsBiochemistryMedicineMicrobiologyCell BiologyNeurosciencePhysiologyBiotechnologyDevelopmental BiologyChemical Sciences not elsewhere classifiedpotent experimental platformoffering simultaneous measurementsevoked somatic spikingfluorescent protein sensorsfluorescent indicator proteinsretinal stimulation strategiesretinal signaling pathwaysretinal ganglion cellscalcium indicator proteinscalcium concentrations evokedvisualize membrane voltagesubthreshold voltage changesimaging neuronal activityimaging electrical activityretinal voltage imagingelectrical activityfluorescent voltageretinal tissuesretinal networkretinal degenerativeneuronal activitiescalcium calcium dynamicsvisual prosthesisshow currentresults indicaterd1 </promising approachmillisecond resolutiondifferent regionscurrent pulsescellular precisionIn order to understand the retinal network, it is essential to identify functional connectivity among retinal neurons. For this purpose, imaging neuronal activity through fluorescent indicator proteins has been a promising approach, offering simultaneous measurements of neuronal activities from different regions of the circuit. In this study, we used genetically encoded indicatorsBongwoori-R3 for voltage or GCaMP6f for calciumto visualize membrane voltage or calcium dynamics, respectively, as spatial maps within individual retinal ganglion cells from retinal tissues of photoreceptor-degenerated <i>rd1</i> mice. Retinal voltage imaging was able to show current-evoked somatic spiking as well as subthreshold voltage changes, while calcium imaging showed changes in calcium concentrations evoked by current pulses in retinal ganglion cells. These results indicate that the combination of fluorescent protein sensors and high-speed imaging methods permits the imaging of electrical activity with cellular precision and millisecond resolution. Hence, we expect our method will provide a potent experimental platform for the study of retinal signaling pathways, as well as the development of retinal stimulation strategies in visual prosthesis.2025-11-24T17:38:13ZDatasetMediainfo:eu-repo/semantics/publishedVersiondataset10.1021/acschemneuro.5c00740.s002https://figshare.com/articles/media/Imaging_Electrical_Activity_of_Retinal_Ganglion_Cells_with_Fluorescent_Voltage_and_Calcium_Indicator_Proteins_in_Retinal_Degenerative_i_rd1_i_Blind_Mice/30696119CC BY-NC 4.0info:eu-repo/semantics/openAccessoai:figshare.com:article/306961192025-11-24T17:38:13Z
spellingShingle	Imaging Electrical Activity of Retinal Ganglion Cells with Fluorescent Voltage and Calcium Indicator Proteins in Retinal Degenerative <i>rd1</i> Blind Mice Younginha Jung (22676081) Biophysics Biochemistry Medicine Microbiology Cell Biology Neuroscience Physiology Biotechnology Developmental Biology Chemical Sciences not elsewhere classified potent experimental platform offering simultaneous measurements evoked somatic spiking fluorescent protein sensors fluorescent indicator proteins retinal stimulation strategies retinal signaling pathways retinal ganglion cells calcium indicator proteins calcium concentrations evoked visualize membrane voltage subthreshold voltage changes imaging neuronal activity imaging electrical activity retinal voltage imaging electrical activity fluorescent voltage retinal tissues retinal network retinal degenerative neuronal activities calcium  calcium dynamics visual prosthesis show current results indicate rd1 </ promising approach millisecond resolution different regions current pulses cellular precision
status_str	publishedVersion
title	Imaging Electrical Activity of Retinal Ganglion Cells with Fluorescent Voltage and Calcium Indicator Proteins in Retinal Degenerative <i>rd1</i> Blind Mice
title_full	Imaging Electrical Activity of Retinal Ganglion Cells with Fluorescent Voltage and Calcium Indicator Proteins in Retinal Degenerative <i>rd1</i> Blind Mice
title_fullStr	Imaging Electrical Activity of Retinal Ganglion Cells with Fluorescent Voltage and Calcium Indicator Proteins in Retinal Degenerative <i>rd1</i> Blind Mice
title_full_unstemmed	Imaging Electrical Activity of Retinal Ganglion Cells with Fluorescent Voltage and Calcium Indicator Proteins in Retinal Degenerative <i>rd1</i> Blind Mice
title_short	Imaging Electrical Activity of Retinal Ganglion Cells with Fluorescent Voltage and Calcium Indicator Proteins in Retinal Degenerative <i>rd1</i> Blind Mice
title_sort	Imaging Electrical Activity of Retinal Ganglion Cells with Fluorescent Voltage and Calcium Indicator Proteins in Retinal Degenerative <i>rd1</i> Blind Mice
topic	Biophysics Biochemistry Medicine Microbiology Cell Biology Neuroscience Physiology Biotechnology Developmental Biology Chemical Sciences not elsewhere classified potent experimental platform offering simultaneous measurements evoked somatic spiking fluorescent protein sensors fluorescent indicator proteins retinal stimulation strategies retinal signaling pathways retinal ganglion cells calcium indicator proteins calcium concentrations evoked visualize membrane voltage subthreshold voltage changes imaging neuronal activity imaging electrical activity retinal voltage imaging electrical activity fluorescent voltage retinal tissues retinal network retinal degenerative neuronal activities calcium  calcium dynamics visual prosthesis show current results indicate rd1 </ promising approach millisecond resolution different regions current pulses cellular precision

Imaging Electrical Activity of Retinal Ganglion Cells with Fluorescent Voltage and Calcium Indicator Proteins in Retinal Degenerative <i>rd1</i> Blind Mice

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