Efficient Generation of Transcriptomic Profiles by Random Composite Measurements

Author(s)

Cleary, Brian; Cong, Le; Cheung, Anthea; Lander, Eric Steven; Regev, Aviv

Abstract

RNA profiles are an informative phenotype of cellular and tissue states but can be costly to generate at massive scale. Here, we describe how gene expression levels can be efficiently acquired with random composite measurements—in which abundances are combined in a random weighted sum. We show (1) that the similarity between pairs of expression profiles can be approximated with very few composite measurements; (2) that by leveraging sparse, modular representations of gene expression, we can use random composite measurements to recover high-dimensional gene expression levels (with 100 times fewer measurements than genes); and (3) that it is possible to blindly recover gene expression from composite measurements, even without access to training data. Our results suggest new compressive modalities as a foundation for massive scaling in high-throughput measurements and new insights into the interpretation of high-dimensional data. A roadmap to generate a high-dimensional transcriptomic profile from sequencing a small, random selection of genes. Keywords: gene expression; compressed sensing; random composite measurements

Date issued

2017-11

URI

http://hdl.handle.net/1721.1/119820

Department

Massachusetts Institute of Technology. Department of Biology

Journal

Cell

Publisher

Elsevier

Citation

Cleary, Brian et al. “Efficient Generation of Transcriptomic Profiles by Random Composite Measurements.” Cell 171, 6 (November 2017): 1424–1436 © 2017 Elsevier Inc

Version: Author's final manuscript

ISSN

0092-8674

1097-4172