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Multiplex RNA imaging in single cells by superresolution microscopy& barcode FISH

$764,408R01FY2013HDNIH

California Institute Of Technology, Pasadena CA

Investigators

Linked publications & trials

Abstract

DESCRIPTION (provided by applicant): The ability to accurately determine the molecular states of individual cells is critical for key applications in stem cell biology, development, and cancer, but remains difficult with existing techniques. We recently demonstrated a new technique to image multiple mRNAs in single cells in a highly multiplexed fashion with super-resolution microscopy and combinatorial labeling. In proof-of-principle experiments, we have shown that 32 genes can be multiplexed simultaneously in individual cells and quantitated with single molecule resolution. However, the multiplex capacity of this system can be drastically increased by using more of the commercially available fluorophores and more complex coding schemes. Here, we have set 1000 genes as a practical target realizable with current technology. In addition, we will develop the techniques further by combining it with light sheet microscopy to access deep tissue samples, and thereby provide spatial information of gene expression in cells and tissues. We further propose to translate the technology to two key public health relevant model systems: embryonic stem cells and breast cancer tumors, with a multi-disciplinary team composed of biologists, clinicians, engineers and chemists. As optical microscopy is a widely available and relatively inexpensive laboratory and clinical tool, success of this project will pav a path toward wide adoption of the technology in transforming single cell analysis in basic research and clinical diagnosis.

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