A genetically encoded Ca2+ indicator based on circularly permutated sea anemone red fluorescent protein eqFP578

A genetically encoded Ca2+ indicator based on circularly permutated sea anemone red fluorescent protein eqFP578

Abstract Background Genetically encoded calcium ion (Ca2+) indicators (GECIs) are indispensable tools for measuring Ca2+ dynamics and neuronal activities in vitro and in vivo. Red fluorescent protein (RFP)-based GECIs have inherent advantages relative to green fluorescent protein-based GECIs due to...

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Main Authors: Yi Shen, Hod Dana, Ahmed S. Abdelfattah, Ronak Patel, Jamien Shea, Rosana S. Molina, Bijal Rawal, Vladimir Rancic, Yu-Fen Chang, Lanshi Wu, Yingche Chen, Yong Qian, Matthew D. Wiens, Nathan Hambleton, Klaus Ballanyi, Thomas E. Hughes, Mikhail Drobizhev, Douglas S. Kim, Minoru Koyama, Eric R. Schreiter, Robert E. Campbell
Format: Article
Language:English
Published: BMC 2018-01-01
Series:BMC Biology
Online Access:http://link.springer.com/article/10.1186/s12915-018-0480-0
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spelling doaj-3c5ac42d7c74448db49c6b0217b181a32020-11-24T22:22:43ZengBMCBMC Biology1741-70072018-01-0116111610.1186/s12915-018-0480-0A genetically encoded Ca2+ indicator based on circularly permutated sea anemone red fluorescent protein eqFP578Yi Shen0Hod Dana1Ahmed S. Abdelfattah2Ronak Patel3Jamien Shea4Rosana S. Molina5Bijal Rawal6Vladimir Rancic7Yu-Fen Chang8Lanshi Wu9Yingche Chen10Yong Qian11Matthew D. Wiens12Nathan Hambleton13Klaus Ballanyi14Thomas E. Hughes15Mikhail Drobizhev16Douglas S. Kim17Minoru Koyama18Eric R. Schreiter19Robert E. Campbell20Department of Chemistry, University of AlbertaJanelia Research Campus, Howard Hughes Medical InstituteDepartment of Chemistry, University of AlbertaJanelia Research Campus, Howard Hughes Medical InstituteJanelia Research Campus, Howard Hughes Medical InstituteDepartment of Cell Biology and Neuroscience, Montana State UniversityDepartment of Physiology, University of AlbertaDepartment of Physiology, University of AlbertaLumiSTAR Biotechnology IncorporationDepartment of Chemistry, University of AlbertaDepartment of Chemistry, University of AlbertaDepartment of Chemistry, University of AlbertaDepartment of Chemistry, University of AlbertaDepartment of Chemistry, University of AlbertaDepartment of Physiology, University of AlbertaDepartment of Cell Biology and Neuroscience, Montana State UniversityDepartment of Cell Biology and Neuroscience, Montana State UniversityJanelia Research Campus, Howard Hughes Medical InstituteJanelia Research Campus, Howard Hughes Medical InstituteJanelia Research Campus, Howard Hughes Medical InstituteDepartment of Chemistry, University of AlbertaAbstract Background Genetically encoded calcium ion (Ca2+) indicators (GECIs) are indispensable tools for measuring Ca2+ dynamics and neuronal activities in vitro and in vivo. Red fluorescent protein (RFP)-based GECIs have inherent advantages relative to green fluorescent protein-based GECIs due to the longer wavelength light used for excitation. Longer wavelength light is associated with decreased phototoxicity and deeper penetration through tissue. Red GECI can also enable multicolor visualization with blue- or cyan-excitable fluorophores. Results Here we report the development, structure, and validation of a new RFP-based GECI, K-GECO1, based on a circularly permutated RFP derived from the sea anemone Entacmaea quadricolor. We have characterized the performance of K-GECO1 in cultured HeLa cells, dissociated neurons, stem-cell-derived cardiomyocytes, organotypic brain slices, zebrafish spinal cord in vivo, and mouse brain in vivo. Conclusion K-GECO1 is the archetype of a new lineage of GECIs based on the RFP eqFP578 scaffold. It offers high sensitivity and fast kinetics, similar or better than those of current state-of-the-art indicators, with diminished lysosomal accumulation and minimal blue-light photoactivation. Further refinements of the K-GECO1 lineage could lead to further improved variants with overall performance that exceeds that of the most highly optimized red GECIs.http://link.springer.com/article/10.1186/s12915-018-0480-0
collection DOAJ
language English
format Article
sources DOAJ
author Yi Shen
Hod Dana
Ahmed S. Abdelfattah
Ronak Patel
Jamien Shea
Rosana S. Molina
Bijal Rawal
Vladimir Rancic
Yu-Fen Chang
Lanshi Wu
Yingche Chen
Yong Qian
Matthew D. Wiens
Nathan Hambleton
Klaus Ballanyi
Thomas E. Hughes
Mikhail Drobizhev
Douglas S. Kim
Minoru Koyama
Eric R. Schreiter
Robert E. Campbell
spellingShingle Yi Shen
Hod Dana
Ahmed S. Abdelfattah
Ronak Patel
Jamien Shea
Rosana S. Molina
Bijal Rawal
Vladimir Rancic
Yu-Fen Chang
Lanshi Wu
Yingche Chen
Yong Qian
Matthew D. Wiens
Nathan Hambleton
Klaus Ballanyi
Thomas E. Hughes
Mikhail Drobizhev
Douglas S. Kim
Minoru Koyama
Eric R. Schreiter
Robert E. Campbell
A genetically encoded Ca2+ indicator based on circularly permutated sea anemone red fluorescent protein eqFP578
BMC Biology
author_facet Yi Shen
Hod Dana
Ahmed S. Abdelfattah
Ronak Patel
Jamien Shea
Rosana S. Molina
Bijal Rawal
Vladimir Rancic
Yu-Fen Chang
Lanshi Wu
Yingche Chen
Yong Qian
Matthew D. Wiens
Nathan Hambleton
Klaus Ballanyi
Thomas E. Hughes
Mikhail Drobizhev
Douglas S. Kim
Minoru Koyama
Eric R. Schreiter
Robert E. Campbell
author_sort Yi Shen
title A genetically encoded Ca2+ indicator based on circularly permutated sea anemone red fluorescent protein eqFP578
title_short A genetically encoded Ca2+ indicator based on circularly permutated sea anemone red fluorescent protein eqFP578
title_full A genetically encoded Ca2+ indicator based on circularly permutated sea anemone red fluorescent protein eqFP578
title_fullStr A genetically encoded Ca2+ indicator based on circularly permutated sea anemone red fluorescent protein eqFP578
title_full_unstemmed A genetically encoded Ca2+ indicator based on circularly permutated sea anemone red fluorescent protein eqFP578
title_sort genetically encoded ca2+ indicator based on circularly permutated sea anemone red fluorescent protein eqfp578
publisher BMC
series BMC Biology
issn 1741-7007
publishDate 2018-01-01
description Abstract Background Genetically encoded calcium ion (Ca2+) indicators (GECIs) are indispensable tools for measuring Ca2+ dynamics and neuronal activities in vitro and in vivo. Red fluorescent protein (RFP)-based GECIs have inherent advantages relative to green fluorescent protein-based GECIs due to the longer wavelength light used for excitation. Longer wavelength light is associated with decreased phototoxicity and deeper penetration through tissue. Red GECI can also enable multicolor visualization with blue- or cyan-excitable fluorophores. Results Here we report the development, structure, and validation of a new RFP-based GECI, K-GECO1, based on a circularly permutated RFP derived from the sea anemone Entacmaea quadricolor. We have characterized the performance of K-GECO1 in cultured HeLa cells, dissociated neurons, stem-cell-derived cardiomyocytes, organotypic brain slices, zebrafish spinal cord in vivo, and mouse brain in vivo. Conclusion K-GECO1 is the archetype of a new lineage of GECIs based on the RFP eqFP578 scaffold. It offers high sensitivity and fast kinetics, similar or better than those of current state-of-the-art indicators, with diminished lysosomal accumulation and minimal blue-light photoactivation. Further refinements of the K-GECO1 lineage could lead to further improved variants with overall performance that exceeds that of the most highly optimized red GECIs.
url http://link.springer.com/article/10.1186/s12915-018-0480-0
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