The promise of single-cell sequencing
J Eberwine, JY Sul, T Bartfai, J Kim - Nature methods, 2014 - nature.com
J Eberwine, JY Sul, T Bartfai, J Kim
Nature methods, 2014•nature.comIndividual cells of the same phenotype are commonly viewed as identical functional units of
a tissue or organ. However, the deep sequencing of DNA and RNA from single cells
suggests a more complex ecology of heterogeneous cell states that together produce
emergent system-level function. Continuing development of high-content, real-time,
multimodal single-cell measurement technologies will lead to the ultimate goal of
understanding the function of an individual cell in the context of its microenvironment.
a tissue or organ. However, the deep sequencing of DNA and RNA from single cells
suggests a more complex ecology of heterogeneous cell states that together produce
emergent system-level function. Continuing development of high-content, real-time,
multimodal single-cell measurement technologies will lead to the ultimate goal of
understanding the function of an individual cell in the context of its microenvironment.
Individual cells of the same phenotype are commonly viewed as identical functional units of a tissue or organ. However, the deep sequencing of DNA and RNA from single cells suggests a more complex ecology of heterogeneous cell states that together produce emergent system-level function. Continuing development of high-content, real-time, multimodal single-cell measurement technologies will lead to the ultimate goal of understanding the function of an individual cell in the context of its microenvironment.
nature.com
