Accelerated clearing and molecular labeling of biological tissues using magnetohydrodynamic force

Accelerated clearing and molecular labeling of biological tissues using magnetohydrodynamic force

Abstract Techniques used to clear biological tissue for fluorescence microscopy are essential to connect anatomical principles at levels ranging from subcellular to the whole animal. Here we report a simple and straightforward approach to efficiently render opaque tissue samples transparent and show...

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Main Authors: Joseph Dwyer, M. Desmond Ramirez, Paul S. Katz, Rolf O. Karlstrom, Joseph Bergan
Format: Article
Language:English
Published: Nature Publishing Group 2021-08-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-021-95692-2
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spelling doaj-c1b507e37c8446c3b4426afebbbe96372021-08-15T11:27:11ZengNature Publishing GroupScientific Reports2045-23222021-08-0111111210.1038/s41598-021-95692-2Accelerated clearing and molecular labeling of biological tissues using magnetohydrodynamic forceJoseph Dwyer0M. Desmond Ramirez1Paul S. Katz2Rolf O. Karlstrom3Joseph Bergan4Neuroscience and Behavior Graduate Program, University of Massachusetts AmherstDepartment of Biology, University of Massachusetts AmherstNeuroscience and Behavior Graduate Program, University of Massachusetts AmherstNeuroscience and Behavior Graduate Program, University of Massachusetts AmherstNeuroscience and Behavior Graduate Program, University of Massachusetts AmherstAbstract Techniques used to clear biological tissue for fluorescence microscopy are essential to connect anatomical principles at levels ranging from subcellular to the whole animal. Here we report a simple and straightforward approach to efficiently render opaque tissue samples transparent and show that this approach can be modified to rapidly label intact tissue samples with antibodies for large volume fluorescence microscopy. This strategy applies a magnetohydrodynamic (MHD) force to accelerate the removal of lipids from tissue samples at least as large as an intact adult mouse brain. We also show that MHD force can be used to accelerate antibody penetration into tissue samples. This strategy complements a growing array of tools that enable high-resolution 3-dimensional anatomical analyses in intact tissues using fluorescence microscopy. MHD-accelerated clearing is simple, fast, reliable, inexpensive, provides good thermal regulation, and is compatible with existing strategies for high-quality fluorescence microscopy of intact tissues.https://doi.org/10.1038/s41598-021-95692-2
collection DOAJ
language English
format Article
sources DOAJ
author Joseph Dwyer
M. Desmond Ramirez
Paul S. Katz
Rolf O. Karlstrom
Joseph Bergan
spellingShingle Joseph Dwyer
M. Desmond Ramirez
Paul S. Katz
Rolf O. Karlstrom
Joseph Bergan
Accelerated clearing and molecular labeling of biological tissues using magnetohydrodynamic force
Scientific Reports
author_facet Joseph Dwyer
M. Desmond Ramirez
Paul S. Katz
Rolf O. Karlstrom
Joseph Bergan
author_sort Joseph Dwyer
title Accelerated clearing and molecular labeling of biological tissues using magnetohydrodynamic force
title_short Accelerated clearing and molecular labeling of biological tissues using magnetohydrodynamic force
title_full Accelerated clearing and molecular labeling of biological tissues using magnetohydrodynamic force
title_fullStr Accelerated clearing and molecular labeling of biological tissues using magnetohydrodynamic force
title_full_unstemmed Accelerated clearing and molecular labeling of biological tissues using magnetohydrodynamic force
title_sort accelerated clearing and molecular labeling of biological tissues using magnetohydrodynamic force
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2021-08-01
description Abstract Techniques used to clear biological tissue for fluorescence microscopy are essential to connect anatomical principles at levels ranging from subcellular to the whole animal. Here we report a simple and straightforward approach to efficiently render opaque tissue samples transparent and show that this approach can be modified to rapidly label intact tissue samples with antibodies for large volume fluorescence microscopy. This strategy applies a magnetohydrodynamic (MHD) force to accelerate the removal of lipids from tissue samples at least as large as an intact adult mouse brain. We also show that MHD force can be used to accelerate antibody penetration into tissue samples. This strategy complements a growing array of tools that enable high-resolution 3-dimensional anatomical analyses in intact tissues using fluorescence microscopy. MHD-accelerated clearing is simple, fast, reliable, inexpensive, provides good thermal regulation, and is compatible with existing strategies for high-quality fluorescence microscopy of intact tissues.
url https://doi.org/10.1038/s41598-021-95692-2
work_keys_str_mv AT josephdwyer acceleratedclearingandmolecularlabelingofbiologicaltissuesusingmagnetohydrodynamicforce
AT mdesmondramirez acceleratedclearingandmolecularlabelingofbiologicaltissuesusingmagnetohydrodynamicforce
AT paulskatz acceleratedclearingandmolecularlabelingofbiologicaltissuesusingmagnetohydrodynamicforce
AT rolfokarlstrom acceleratedclearingandmolecularlabelingofbiologicaltissuesusingmagnetohydrodynamicforce
AT josephbergan acceleratedclearingandmolecularlabelingofbiologicaltissuesusingmagnetohydrodynamicforce
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