Link to bioRxiv paper: http://biorxiv.org/cgi/content/short/2020.07.23.218800v1?rss=1 Authors: He, J., Babarinde, I. A., Sun, L., Xu, S., Chen, R., Wei, Y., Li, Y., Ma, G., Zhuang, Q., Hutchins, A., Chen, J. Abstract: Transposable elements (TEs) make up a majority of a typical eukaryote's genome, and contribute to cell heterogeneity and fate in unclear ways. Single cell-sequencing technologies are powerful tools to explore cells, however analysis is typically gene-centric and TE activity has not been addressed. Here, we developed a single-cell TE processing pipeline, scTE, and report the activity of TEs in single cells in a range of biological contexts. Specific TE types were expressed in subpopulations of embryonic stem cells and were dynamically regulated during pluripotency reprogramming, differentiation, and embryogenesis. Unexpectedly, TEs were expressed in somatic cells, including human disease-specific TEs that are undetectable in bulk analyses. Finally, we applied scTE to single cell ATAC-seq data, and demonstrate that scTE can discriminate cell type using chromatin accessibly of TEs alone. Overall, our results reveal the dynamic patterns of TEs in single cells and their contributions to cell fate and heterogeneity. Copy rights belong to original authors. Visit the link for more info