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A versatile <scp>CRISPR</scp> ‐based system for lineage tracing in living plants

Mattia Donà, Gabriele Bradamante, Zorana Bogojevic, Ruben Gutzat, Susanna Streubel, Magdalena Mosiołek, Liam Dolan, Ortrun Mittelsten Scheid

2023The Plant Journal18 citationsDOIOpen Access PDF

Abstract

Individual cells give rise to diverse cell lineages during the development of multicellular organisms. Understanding the contribution of these lineages to mature organisms is a central question of developmental biology. Several techniques to document cell lineages have been used, from marking single cells with mutations that express a visible marker to generating molecular bar codes by CRISPR-induced mutations and subsequent single-cell analysis. Here, we exploit the mutagenic activity of CRISPR to allow lineage tracing within living plants with a single reporter. Cas9-induced mutations are directed to correct a frameshift mutation that restores expression of a nuclear fluorescent protein, labelling the initial cell and all progenitor cells with a strong signal without modifying other phenotypes of the plants. Spatial and temporal control of Cas9 activity can be achieved using tissue-specific and/or inducible promoters. We provide proof of principle for the function of lineage tracing in two model plants. The conserved features of the components and the versatile cloning system, allowing for easy exchange of promoters, are expected to make the system widely applicable.

Topics & Concepts

CRISPRMulticellular organismBiologyComputational biologyCas9GeneticsLineage (genetic)Frameshift mutationCloning (programming)PhenotypeMutationGeneCell biologyComputer scienceProgramming languageCRISPR and Genetic EngineeringChromosomal and Genetic VariationsPlant tissue culture and regeneration
A versatile <scp>CRISPR</scp> ‐based system for lineage tracing in living plants | Litcius