Mapping a multiplexed zoo of mRNA expression

Harry M.T. Choi; Colby R. Calvert; Naeem Husain; David Huss; Julius C. Barsi; Benjamin E. Deverman; Ryan C. Hunter; Mihoko Kato; S. Melanie Lee; Anna C.T. Abelin; Adam Z. Rosenthal; Omar S. Akbari; Yuwei Li; Bruce A. Hay; Paul W. Sternberg; Paul H. Patterson; Eric H. Davidson; Sarkis K. Mazmanian; David A. Prober; Matt Van De Rijn; Jared R. Leadbetter; Dianne K. Newman; Carol Readhead; Marianne E. Bronner; Barbara Wold; Rusty Lansford; Tatjana Sauka-Spengler; Scott E. Fraser; Niles A. Pierce

doi:10.1242/dev.140137

Mapping a multiplexed zoo of mRNA expression

Harry M.T. Choi
, Colby R. Calvert
, Naeem Husain
, David Huss
, Julius C. Barsi
, Benjamin E. Deverman
, Ryan C. Hunter
, Mihoko Kato
, S. Melanie Lee
, Anna C.T. Abelin
, Adam Z. Rosenthal
, Omar S. Akbari
, Yuwei Li
, Bruce A. Hay
, Paul W. Sternberg
, Paul H. Patterson
, Eric H. Davidson
, Sarkis K. Mazmanian
, David A. Prober
, Matt Van De Rijn

Jared R. Leadbetter, Dianne K. Newman, Carol Readhead, Marianne E. Bronner, Barbara Wold, Rusty Lansford, Tatjana Sauka-Spengler, Scott E. Fraser, Niles A. Pierce

Microbiology and Immunology

California Institute of Technology
Children's Hospital Los Angeles
University of Southern California
Stanford University
University of Oxford

Research output: Contribution to journal › Article › peer-review

162 Scopus citations

Abstract

In situ hybridization methods are used across the biological sciences to map mRNA expression within intact specimens. Multiplexed experiments, in which multiple target mRNAs are mapped in a single sample, are essential for studying regulatory interactions, but remain cumbersome in most model organisms. Programmable in situ amplifiers based on the mechanism of hybridization chain reaction (HCR) overcome this longstanding challenge by operating independently within a sample, enabling multiplexed experiments to be performed with an experimental timeline independent of the number of target mRNAs. To assist biologists working across a broad spectrum of organisms, we demonstrate multiplexed in situ HCR in diverse imaging settings: bacteria, whole-mount nematode larvae, whole-mount fruit fly embryos, whole-mount sea urchin embryos, whole-mount zebrafish larvae, whole-mount chicken embryos, whole-mount mouse embryos and formalin-fixed paraffin-embedded human tissue sections. In addition to straightforward multiplexing, in situ HCR enables deep sample penetration, high contrast and subcellular resolution, providing an incisive tool for the study of interlaced and overlapping expression patterns, with implications for research communities across the biological sciences.

Original language	English
Pages (from-to)	3632-3637
Number of pages	6
Journal	Development (Cambridge)
Volume	143
Issue number	19
DOIs	https://doi.org/10.1242/dev.140137
State	Published - Oct 1 2016

Keywords

Bacteria
Deep sample penetration
High contrast
Hybridization chain reaction (HCR)
In situ amplification
In situ hybridization
Multiplexing
Subcellular resolution
Tissue sections
Whole-mount embryos and larvae

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10.1242/dev.140137

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Choi, H. M. T., Calvert, C. R., Husain, N., Huss, D., Barsi, J. C., Deverman, B. E., Hunter, R. C., Kato, M., Lee, S. M., Abelin, A. C. T., Rosenthal, A. Z., Akbari, O. S., Li, Y., Hay, B. A., Sternberg, P. W., Patterson, P. H., Davidson, E. H., Mazmanian, S. K., Prober, D. A., ... Pierce, N. A. (2016). Mapping a multiplexed zoo of mRNA expression. Development (Cambridge), 143(19), 3632-3637. https://doi.org/10.1242/dev.140137

@article{8513ba3b5fb5441e807f28d686d9b347,

title = "Mapping a multiplexed zoo of mRNA expression",

abstract = "In situ hybridization methods are used across the biological sciences to map mRNA expression within intact specimens. Multiplexed experiments, in which multiple target mRNAs are mapped in a single sample, are essential for studying regulatory interactions, but remain cumbersome in most model organisms. Programmable in situ amplifiers based on the mechanism of hybridization chain reaction (HCR) overcome this longstanding challenge by operating independently within a sample, enabling multiplexed experiments to be performed with an experimental timeline independent of the number of target mRNAs. To assist biologists working across a broad spectrum of organisms, we demonstrate multiplexed in situ HCR in diverse imaging settings: bacteria, whole-mount nematode larvae, whole-mount fruit fly embryos, whole-mount sea urchin embryos, whole-mount zebrafish larvae, whole-mount chicken embryos, whole-mount mouse embryos and formalin-fixed paraffin-embedded human tissue sections. In addition to straightforward multiplexing, in situ HCR enables deep sample penetration, high contrast and subcellular resolution, providing an incisive tool for the study of interlaced and overlapping expression patterns, with implications for research communities across the biological sciences.",

keywords = "Bacteria, Deep sample penetration, High contrast, Hybridization chain reaction (HCR), In situ amplification, In situ hybridization, Multiplexing, Subcellular resolution, Tissue sections, Whole-mount embryos and larvae",

author = "Choi, \{Harry M.T.\} and Calvert, \{Colby R.\} and Naeem Husain and David Huss and Barsi, \{Julius C.\} and Deverman, \{Benjamin E.\} and Hunter, \{Ryan C.\} and Mihoko Kato and Lee, \{S. Melanie\} and Abelin, \{Anna C.T.\} and Rosenthal, \{Adam Z.\} and Akbari, \{Omar S.\} and Yuwei Li and Hay, \{Bruce A.\} and Sternberg, \{Paul W.\} and Patterson, \{Paul H.\} and Davidson, \{Eric H.\} and Mazmanian, \{Sarkis K.\} and Prober, \{David A.\} and \{Van De Rijn\}, Matt and Leadbetter, \{Jared R.\} and Newman, \{Dianne K.\} and Carol Readhead and Bronner, \{Marianne E.\} and Barbara Wold and Rusty Lansford and Tatjana Sauka-Spengler and Fraser, \{Scott E.\} and Pierce, \{Niles A.\}",

note = "Publisher Copyright: {\textcopyright} 2016. Published by The Company of Biologists Ltd.",

year = "2016",

month = oct,

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doi = "10.1242/dev.140137",

language = "English",

volume = "143",

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Choi, HMT, Calvert, CR, Husain, N, Huss, D, Barsi, JC, Deverman, BE, Hunter, RC, Kato, M, Lee, SM, Abelin, ACT, Rosenthal, AZ, Akbari, OS, Li, Y, Hay, BA, Sternberg, PW, Patterson, PH, Davidson, EH, Mazmanian, SK, Prober, DA, Van De Rijn, M, Leadbetter, JR, Newman, DK, Readhead, C, Bronner, ME, Wold, B, Lansford, R, Sauka-Spengler, T, Fraser, SE & Pierce, NA 2016, 'Mapping a multiplexed zoo of mRNA expression', Development (Cambridge), vol. 143, no. 19, pp. 3632-3637. https://doi.org/10.1242/dev.140137

TY - JOUR

T1 - Mapping a multiplexed zoo of mRNA expression

AU - Choi, Harry M.T.

AU - Calvert, Colby R.

AU - Husain, Naeem

AU - Huss, David

AU - Barsi, Julius C.

AU - Deverman, Benjamin E.

AU - Hunter, Ryan C.

AU - Kato, Mihoko

AU - Lee, S. Melanie

AU - Abelin, Anna C.T.

AU - Rosenthal, Adam Z.

AU - Akbari, Omar S.

AU - Li, Yuwei

AU - Hay, Bruce A.

AU - Sternberg, Paul W.

AU - Patterson, Paul H.

AU - Davidson, Eric H.

AU - Mazmanian, Sarkis K.

AU - Prober, David A.

AU - Van De Rijn, Matt

AU - Leadbetter, Jared R.

AU - Newman, Dianne K.

AU - Readhead, Carol

AU - Bronner, Marianne E.

AU - Wold, Barbara

AU - Lansford, Rusty

AU - Sauka-Spengler, Tatjana

AU - Fraser, Scott E.

AU - Pierce, Niles A.

PY - 2016/10/1

Y1 - 2016/10/1

N2 - In situ hybridization methods are used across the biological sciences to map mRNA expression within intact specimens. Multiplexed experiments, in which multiple target mRNAs are mapped in a single sample, are essential for studying regulatory interactions, but remain cumbersome in most model organisms. Programmable in situ amplifiers based on the mechanism of hybridization chain reaction (HCR) overcome this longstanding challenge by operating independently within a sample, enabling multiplexed experiments to be performed with an experimental timeline independent of the number of target mRNAs. To assist biologists working across a broad spectrum of organisms, we demonstrate multiplexed in situ HCR in diverse imaging settings: bacteria, whole-mount nematode larvae, whole-mount fruit fly embryos, whole-mount sea urchin embryos, whole-mount zebrafish larvae, whole-mount chicken embryos, whole-mount mouse embryos and formalin-fixed paraffin-embedded human tissue sections. In addition to straightforward multiplexing, in situ HCR enables deep sample penetration, high contrast and subcellular resolution, providing an incisive tool for the study of interlaced and overlapping expression patterns, with implications for research communities across the biological sciences.

AB - In situ hybridization methods are used across the biological sciences to map mRNA expression within intact specimens. Multiplexed experiments, in which multiple target mRNAs are mapped in a single sample, are essential for studying regulatory interactions, but remain cumbersome in most model organisms. Programmable in situ amplifiers based on the mechanism of hybridization chain reaction (HCR) overcome this longstanding challenge by operating independently within a sample, enabling multiplexed experiments to be performed with an experimental timeline independent of the number of target mRNAs. To assist biologists working across a broad spectrum of organisms, we demonstrate multiplexed in situ HCR in diverse imaging settings: bacteria, whole-mount nematode larvae, whole-mount fruit fly embryos, whole-mount sea urchin embryos, whole-mount zebrafish larvae, whole-mount chicken embryos, whole-mount mouse embryos and formalin-fixed paraffin-embedded human tissue sections. In addition to straightforward multiplexing, in situ HCR enables deep sample penetration, high contrast and subcellular resolution, providing an incisive tool for the study of interlaced and overlapping expression patterns, with implications for research communities across the biological sciences.

KW - Bacteria

KW - Deep sample penetration

KW - High contrast

KW - Hybridization chain reaction (HCR)

KW - In situ amplification

KW - In situ hybridization

KW - Multiplexing

KW - Subcellular resolution

KW - Tissue sections

KW - Whole-mount embryos and larvae

UR - https://www.scopus.com/pages/publications/84991396313

U2 - 10.1242/dev.140137

DO - 10.1242/dev.140137

M3 - Article

C2 - 27702788

AN - SCOPUS:84991396313

SN - 0950-1991

VL - 143

SP - 3632

EP - 3637

JO - Development (Cambridge)

JF - Development (Cambridge)

IS - 19

ER -

Mapping a multiplexed zoo of mRNA expression

Abstract

Keywords

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