AI Article Synopsis
- Animal development involves complex processes like cell commitment, division, and migration, all happening at a single-cell level.
- Genetic and genomic studies have offered insights into how these cellular differentiation processes work, but the overall coordination at the organism level remains unclear.
- Recent advances in imaging and single-cell genomics present opportunities to better understand these processes, suggesting a combined approach for analyzing cellular behaviors and molecular mechanisms precisely.
Article Abstract
Animal development is a complex and dynamic process orchestrated by exquisitely timed cell lineage commitment, divisions, migration, and morphological changes at the single-cell level. In the past decade, extensive genetic, stem cell, and genomic studies provided crucial insights into molecular underpinnings and the functional importance of genetic pathways governing various cellular differentiation processes. However, it is still largely unknown how the precise coordination of these pathways is achieved at the whole-organism level and how the highly regulated spatiotemporal choreography of development is established in turn. Here, we discuss the latest technological advances in imaging and single-cell genomics that hold great promise for advancing our understanding of this intricate process. We propose an integrated approach that combines such methods to quantitatively decipher in vivo cellular dynamic behaviors and their underlying molecular mechanisms at the systems level with single-cell, single-molecule resolution.
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| http://dx.doi.org/10.1016/j.devcel.2016.02.016 | DOI Listing |
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