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Citation Notes
For citation, please select from the list below as appropriate for your application:
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Single-molecule HCR imaging
Single-molecule mRNA imaging in thick autofluorescent samples (e.g., 0.5 mm adult mouse brain sections) (Shah et al., 2016).
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Multiplexed quantitative HCR (qHCR) northern blots
Simultaneous quantification of RNA target size and abundance with signal amplification for up to 5 target RNAs (Schwarzkopf & Pierce, 2016).
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In situ HCR v2.0
2nd generation in situ HCR technology (v2.0) using DNA probes and DNA HCR amplifiers: 10× increase in signal, 10× reduction in cost, dramatic increase in reagent durability (Choi et al., 2014).
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Shielded covalent (SC) probes
Highly selective covalent capture of DNA and RNA targets, overcoming the longstanding tradeoff between selectivity and durable target capture (Vieregg et al., 2013).
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In situ HCR v1.0
1st generation in situ HCR technology (v1.0) using RNA probes and RNA HCR amplifiers: multiplexed mRNA imaging in whole-mount vertebrate embryos with simultaneous signal amplification for up to 5 target mRNAs (Choi et al., 2010).
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Hybridization chain reaction (HCR) mechanism
Isothermal enzyme-free molecular signal amplification (Dirks & Pierce, 2004).
References
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Choi, H.M.T., Chang, J.Y., Trinh, L.A., Padilla, J.E., Fraser, S.E., & Pierce, N.A. (2010). Programmable in situ amplification for multiplexed imaging of mRNA expression.
Nat Biotechnol, 28:1208–1212.
(pdf,
supp info,
supp movie 1,
supp movie 2)
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Choi, H.M.T., Beck, V.A., & Pierce, N.A. (2014). Next-generation in situ hybridization chain reaction: higher gain, lower cost, greater durability.
ACS Nano, 8(5):4284-4294.
(pdf,
supp info,
movie)
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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., van de Rijn, M., Leadbetter, J.R., Newman, D.K., Readhead, C., Bronner, M.E., Wold, B., Lansford, R., Sauka-Spengler, T., Fraser, S.E., & Pierce, N.A. (2016). Mapping a multiplexed zoo of mRNA expression.
Development, 143:3632-3637.
(pdf, supp info,
fruit fly movie,
sea urchin movie,
zebrafish movie,
chicken movie,
mouse movie)
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Choi, H.M.T., Schwarzkopf, M., Fornace, M.E., Acharya, A., Artavanis, G., Stegmaier, J., Cunha, A., & Pierce, N.A. (2018). Third-generation in situ hybridization chain reaction: multiplexed, quantitative, sensitive, versatile, robust. Development, 145, dev165753. (pdf, supp info, Dot Analysis 1.0 package)
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Dirks, R.M., & Pierce, N.A. (2004). Triggered amplification by hybridization chain reaction.
Proc Natl Acad Sci USA, 101(43), 15275–15278. (pdf)
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Schwarzkopf, M., & Pierce, N.A. (2016). Multiplexed miRNA northern blots via hybridization chain reaction.
Nucleic Acids Res, 44(15), e129.
(pdf,
supp info)
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Shah, S., Lubeck, E., Schwarzkopf, M., He, T.-F., Greenbaum, A., Sohn, C.H., Lignell, A., Choi, H.M.T., Gradinaru, V., Pierce, N.A., & Cai, L. (2016). Single-molecule RNA detection at depth via hybridization chain reaction and tissue hydrogel embedding and clearing.
Development, 143:2862-2867.
(pdf, supp info,
movie 1,
movie 2,
movie 3)
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Trivedi, V., Choi, H.M.T., Fraser, S.E., & Pierce, N.A. (2018). Multidimensional quantitative
analysis of mRNA expression within intact vertebrate embryos. Development, 145, dev156869.
(pdf, supp info, Read-out/Read-in 1.0 package)
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Vieregg, J.R., Nelson, H.M., Stoltz, B.M., & Pierce, N.A. (2013). Selective nucleic acid capture
with shielded covalent probes.
J Am Chem Soc, 135(26), 9691–9699.
(pdf, supp info)
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