Lineage tracing, the determination and mapping of progeny arising from single cells, is an important approach enabling the elucidation of mechanisms underlying diverse biological processes ranging from development to disease. We developed a dynamic sequence-based barcode for lineage tracing and have demonstrated its performance in C. elegans, a model organism whose lineage tree is well established. The strategy we use creates lineage trees based upon the introduction of specific mutations into cells and the propagation of these mutations to daughter cells at each cell division. We present an experimental proof of concept along with a corresponding simulation and analytical model for deeper understanding of the coding capacity of the system. By introducing mutations in a predictable manner using CRISPR/Cas9, our technology will enable more complete investigations of cellular processes.
@article{arxiv.1606.00786,
title = {Cell lineage tracing using nuclease barcoding},
author = {Stephanie Tzouanas Schmidt and Stephanie M. Zimmerman and Jianbin Wang and Stuart K. Kim and Stephen R. Quake},
journal= {arXiv preprint arXiv:1606.00786},
year = {2016}
}