Using Genetically Encoded Calcium Indicators to Study Astrocyte Physiology: A Field Guide

Christian Lohr; Antonia Beiersdorfer; Timo Fischer; Daniela Hirnet; Natalie Rotermund; Jessica Sauer; Kristina Schulz; Christine E Gee

doi:10.3389/fncel.2021.690147

Using Genetically Encoded Calcium Indicators to Study Astrocyte Physiology: A Field Guide

Standard

Using Genetically Encoded Calcium Indicators to Study Astrocyte Physiology: A Field Guide. / Lohr, Christian; Beiersdorfer, Antonia; Fischer, Timo; Hirnet, Daniela; Rotermund, Natalie; Sauer, Jessica; Schulz, Kristina; Gee, Christine E.

In: FRONT CELL NEUROSCI, Vol. 15, 690147, 2021.

Research output: SCORING: Contribution to journal › SCORING: Review article › Research

Harvard

Lohr, C, Beiersdorfer, A, Fischer, T, Hirnet, D, Rotermund, N, Sauer, J, Schulz, K & Gee, CE 2021, 'Using Genetically Encoded Calcium Indicators to Study Astrocyte Physiology: A Field Guide', FRONT CELL NEUROSCI, vol. 15, 690147. https://doi.org/10.3389/fncel.2021.690147

APA

Lohr, C., Beiersdorfer, A., Fischer, T., Hirnet, D., Rotermund, N., Sauer, J., Schulz, K., & Gee, C. E. (2021). Using Genetically Encoded Calcium Indicators to Study Astrocyte Physiology: A Field Guide. FRONT CELL NEUROSCI, 15, [690147]. https://doi.org/10.3389/fncel.2021.690147

Vancouver

Lohr C, Beiersdorfer A, Fischer T, Hirnet D, Rotermund N, Sauer J et al. Using Genetically Encoded Calcium Indicators to Study Astrocyte Physiology: A Field Guide. FRONT CELL NEUROSCI. 2021;15. 690147. https://doi.org/10.3389/fncel.2021.690147

Bibtex

@article{655cb2af32fa4b26956c2454a42d346d,

title = "Using Genetically Encoded Calcium Indicators to Study Astrocyte Physiology: A Field Guide",

abstract = "Ca2+ imaging is the most frequently used technique to study glial cell physiology. While chemical Ca2+ indicators served to visualize and measure changes in glial cell cytosolic Ca2+ concentration for several decades, genetically encoded Ca2+ indicators (GECIs) have become state of the art in recent years. Great improvements have been made since the development of the first GECI and a large number of GECIs with different physical properties exist, rendering it difficult to select the optimal Ca2+ indicator. This review discusses some of the most frequently used GECIs and their suitability for glial cell research.",

author = "Christian Lohr and Antonia Beiersdorfer and Timo Fischer and Daniela Hirnet and Natalie Rotermund and Jessica Sauer and Kristina Schulz and Gee, {Christine E}",

note = "SFB 1328; FOR 2419",

year = "2021",

doi = "10.3389/fncel.2021.690147",

language = "English",

volume = "15",

journal = "FRONT CELL NEUROSCI",

issn = "1662-5102",

publisher = "Frontiers Media",

}

RIS

TY - JOUR

T1 - Using Genetically Encoded Calcium Indicators to Study Astrocyte Physiology: A Field Guide

AU - Lohr, Christian

AU - Beiersdorfer, Antonia

AU - Fischer, Timo

AU - Hirnet, Daniela

AU - Rotermund, Natalie

AU - Sauer, Jessica

AU - Schulz, Kristina

AU - Gee, Christine E

N1 - SFB 1328; FOR 2419

PY - 2021

Y1 - 2021

N2 - Ca2+ imaging is the most frequently used technique to study glial cell physiology. While chemical Ca2+ indicators served to visualize and measure changes in glial cell cytosolic Ca2+ concentration for several decades, genetically encoded Ca2+ indicators (GECIs) have become state of the art in recent years. Great improvements have been made since the development of the first GECI and a large number of GECIs with different physical properties exist, rendering it difficult to select the optimal Ca2+ indicator. This review discusses some of the most frequently used GECIs and their suitability for glial cell research.

AB - Ca2+ imaging is the most frequently used technique to study glial cell physiology. While chemical Ca2+ indicators served to visualize and measure changes in glial cell cytosolic Ca2+ concentration for several decades, genetically encoded Ca2+ indicators (GECIs) have become state of the art in recent years. Great improvements have been made since the development of the first GECI and a large number of GECIs with different physical properties exist, rendering it difficult to select the optimal Ca2+ indicator. This review discusses some of the most frequently used GECIs and their suitability for glial cell research.

U2 - 10.3389/fncel.2021.690147

DO - 10.3389/fncel.2021.690147

M3 - SCORING: Review article

C2 - 34177468

VL - 15

JO - FRONT CELL NEUROSCI

JF - FRONT CELL NEUROSCI

SN - 1662-5102

M1 - 690147

ER -