AI Article Synopsis
- This study introduces a method for in vivo barcoding in mice that uses nuclease-induced mutations to capture biological data, particularly developmental lineages.
- The approach employs multiple homing guide RNAs to create a vast array of mutant alleles, facilitating an exponential increase in barcode diversity.
- This technique enables researchers to reconstruct early developmental lineages and explore brain axis development, showcasing its potential for use in mammalian systems.
Article Abstract
In vivo barcoding using nuclease-induced mutations is a powerful approach for recording biological information, including developmental lineages; however, its application in mammalian systems has been limited. We present in vivo barcoding in the mouse with multiple homing guide RNAs that each generate hundreds of mutant alleles and combine to produce an exponential diversity of barcodes. Activation upon conception and continued mutagenesis through gestation resulted in developmentally barcoded mice wherein information is recorded in lineage-specific mutations. We used these recordings for reliable post hoc reconstruction of the earliest lineages and investigation of axis development in the brain. Our results provide an enabling and versatile platform for in vivo barcoding and lineage tracing in a mammalian model system.
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Source |
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6139672 | PMC |
| http://dx.doi.org/10.1126/science.aat9804 | DOI Listing |
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