AI Article Synopsis
- Determining cell lineage is crucial in developmental biology for understanding both normal development and diseases like cancer.
- Various techniques exist for lineage tracing, including light microscopy and genetic labeling with fluorescent markers.
- The review focuses on using high-throughput sequencing for lineage analysis, which offers greater capacity for analyzing large numbers of cells and integrates transcription profiling at the single-cell level.
Article Abstract
Determining the lineage origin of cell types is a major goal in developmental biology. Furthermore, lineage tracing is a powerful approach for understanding the origin of developmental defects as well as the origin of diseases such as cancer. There is now a variety of complementary approaches for identifying lineage relationships, ranging from direct observation of cell divisions by light microscopy to genetic labeling of cells using inducible recombinases and fluorescent reporters. A recent development, and the main topic of this review article, is the use of high-throughput sequencing data for lineage analysis. This emerging approach holds the promise of increased multiplexing capacity, allowing lineage analysis of large cell numbers up to the organism-wide level combined with simultaneous transcription profiling by single cell RNA sequencing.
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| http://dx.doi.org/10.1016/j.ceb.2017.11.004 | DOI Listing |
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