Expansion microscopy reveals neural circuit organization in genetic animal models

Shakila Behzadi; Jacquelin Ho; Zainab Tanvir; Gal Haspel; Limor Freifeld; Kristen E. Severi

doi:10.1117/1.NPh.12.1.010601

Expansion microscopy reveals neural circuit organization in genetic animal models

Shakila Behzadi, Jacquelin Ho, Zainab Tanvir, Gal Haspel, Limor Freifeld, Kristen E. Severi

Biological Sciences

Research output: Contribution to journal › Review article › peer-review

Abstract

Expansion microscopy is a super-resolution technique in which physically enlarging the samples in an isotropic manner increases inter-molecular distances such that nano-scale structures can be resolved using light microscopy. This is particularly useful in neuroscience as many important structures are smaller than the diffraction limit. Since its invention in 2015, a variety of expansion microscopy protocols have been generated and applied to advance knowledge in many prominent organisms in neuroscience, including zebrafish, mice, Drosophila, and Caenorhabditis elegans. We review the last decade of expansion microscopy–enabled advances with a focus on neuroscience.

Original language	English (US)
Article number	010601
Journal	Neurophotonics
Volume	12
Issue number	1
DOIs	https://doi.org/10.1117/1.NPh.12.1.010601
State	Published - Jan 1 2025

All Science Journal Classification (ASJC) codes

Neuroscience (miscellaneous)
Radiological and Ultrasound Technology
Radiology Nuclear Medicine and imaging

Keywords

connectomics
expansion microscopy
genetic models
neural circuits
resolution

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10.1117/1.NPh.12.1.010601

Cite this

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title = "Expansion microscopy reveals neural circuit organization in genetic animal models",

abstract = "Expansion microscopy is a super-resolution technique in which physically enlarging the samples in an isotropic manner increases inter-molecular distances such that nano-scale structures can be resolved using light microscopy. This is particularly useful in neuroscience as many important structures are smaller than the diffraction limit. Since its invention in 2015, a variety of expansion microscopy protocols have been generated and applied to advance knowledge in many prominent organisms in neuroscience, including zebrafish, mice, Drosophila, and Caenorhabditis elegans. We review the last decade of expansion microscopy–enabled advances with a focus on neuroscience.",

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AU - Behzadi, Shakila

AU - Ho, Jacquelin

AU - Tanvir, Zainab

AU - Haspel, Gal

AU - Freifeld, Limor

AU - Severi, Kristen E.

N1 - Publisher Copyright: © The Authors. Published by SPIE under a Creative Commons Attribution 4.0 International License.

PY - 2025/1/1

Y1 - 2025/1/1

N2 - Expansion microscopy is a super-resolution technique in which physically enlarging the samples in an isotropic manner increases inter-molecular distances such that nano-scale structures can be resolved using light microscopy. This is particularly useful in neuroscience as many important structures are smaller than the diffraction limit. Since its invention in 2015, a variety of expansion microscopy protocols have been generated and applied to advance knowledge in many prominent organisms in neuroscience, including zebrafish, mice, Drosophila, and Caenorhabditis elegans. We review the last decade of expansion microscopy–enabled advances with a focus on neuroscience.

AB - Expansion microscopy is a super-resolution technique in which physically enlarging the samples in an isotropic manner increases inter-molecular distances such that nano-scale structures can be resolved using light microscopy. This is particularly useful in neuroscience as many important structures are smaller than the diffraction limit. Since its invention in 2015, a variety of expansion microscopy protocols have been generated and applied to advance knowledge in many prominent organisms in neuroscience, including zebrafish, mice, Drosophila, and Caenorhabditis elegans. We review the last decade of expansion microscopy–enabled advances with a focus on neuroscience.

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KW - resolution

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Expansion microscopy reveals neural circuit organization in genetic animal models

Abstract

All Science Journal Classification (ASJC) codes

Keywords

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