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Programmable metafluorophores for quantitative multiplex in situ imaging of mRNA

$241,106R21FY2013HDNIH

Harvard Medical School, Boston MA

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Abstract

DESCRIPTION (provided by applicant): Transcriptional programs specify and elaborate cell identity during animal development, as a single cell gives rise to the hundreds of cell types that comprise the adult animal. The time, place, level and molecular context in which a gene is expressed are therefore critical for its function. Imaging techniques are currently in a unique position to capture all of these features simultaneously with sub-cellular resolution. In situ hybridization, where a target mRNA is hybridized to a complementary nucleic acid probe, is the primary method used to visualize mRNA expression in intact embryos and tissue samples. However, current detection methods for mRNA in situ hybridization do not take full advantage of the potential of imaging to capture quantitative information about the expression of many genes over space and time. Here, we propose to develop a fluorescent detection method for mRNA in situ hybridization based on the concept of a metafluorophore: a programmable DNA scaffold to target defined numbers of fluorophores to mRNA. Compared to current methods, this approach will improve signal to noise characteristics, will be quantitative, will be able to detecting many genes simultaneously and will be more feasible - in terms of cost, scale and time to usable data.

View original record on NIH RePORTER →