Alexandre Cunha scite author profile

hybridization based on the mechanism of the hybridization chain reaction (HCR) has addressed multi-decade challenges that impeded imaging of mRNA expression in diverse organisms, offering a unique combination of multiplexing, quantitation, sensitivity, resolution and versatility. Here, with third-generation HCR, we augment these capabilities using probes and amplifiers that combine to provide automatic background suppression throughout the protocol, ensuring that reagents will not generate amplified background even if they bind non-specifically within the sample. Automatic background suppression dramatically enhances performance and robustness, combining the benefits of a higher signal-to-background ratio with the convenience of using unoptimized probe sets for new targets and organisms. HCR v3.0 enables three multiplexed quantitative analysis modes: (1) qHCR imaging - analog mRNA relative quantitation with subcellular resolution in the anatomical context of whole-mount vertebrate embryos; (2) qHCR flow cytometry - analog mRNA relative quantitation for high-throughput expression profiling of mammalian and bacterial cells; and (3) dHCR imaging - digital mRNA absolute quantitation via single-molecule imaging in thick autofluorescent samples.

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Third-generation in situ hybridization chain reaction: multiplexed, quantitative, sensitive, versatile, robust

Choi

Schwarzkopf

Fornace

et al. 2018

Preprint

276

405

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In situ hybridization based on the mechanism of hybridization chain reaction (HCR) has addressed multi-decade challenges to imaging mRNA expression in diverse organisms, offering a unique combination of multiplexing, quantitation, sensitivity, resolution, and versatility. Here, with third-generation in situ HCR, we augment these capabilities using probes and amplifiers that combine to provide automatic background suppression throughout the protocol, ensuring that even if reagents bind non-specifically within the sample they will not generate amplified background. Automatic background suppression dramatically enhances performance and robustness, combining the benefits of higher signal-to-background with the convenience of using unoptimized probe sets for new targets and organisms. In situ HCR v3.0 enables multiplexed quantitative mRNA imaging with subcellular resolution in the anatomical context of whole-mount vertebrate embryos, multiplexed quantitative mRNA flow cytometry for high-throughput single-cell expression profiling, and multiplexed quantitative single-molecule mRNA imaging in thick autofluorescent samples.KEYWORDS: in situ HCR v3.0, qHCR imaging, qHCR flow cytometry, dHCR imaging, multiplexed in situ hybridization, quantitative in situ hybridization, single-molecule mRNA imaging, mRNA flow cytometry, whole-mount vertebrate embryos, mammalian cells, bacterial cells, split-initiator probes, automatic background suppression.

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Variability in the Control of Cell Division Underlies Sepal Epidermal Patterning in Arabidopsis thaliana

et al. 2010

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Fast nonlocal filtering applied to electron cryomicroscopy

et al. 2008

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Alexandre Cunha

Third-generation in situ hybridization chain reaction: multiplexed, quantitative, sensitive, versatile, robust

Third-generation in situ hybridization chain reaction: multiplexed, quantitative, sensitive, versatile, robust

Variability in the Control of Cell Division Underlies Sepal Epidermal Patterning in Arabidopsis thaliana

Fast nonlocal filtering applied to electron cryomicroscopy

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