Comparative Analysis of Immune Cells Reveals a Conserved Regulatory Lexicon
Program in Bioinformatics and Integrative Biology; Program in Molecular Medicine; Bioinformatics Core; Garber Lab
Biochemistry | Bioinformatics | Cell Biology | Cells | Computational Biology | Genetic Phenomena | Genomics | Immunity | Molecular Biology | Molecular Genetics
Most well-characterized enhancers are deeply conserved. In contrast, genome-wide comparative studies of steady-state systems showed that only a small fraction of active enhancers are conserved. To better understand conservation of enhancer activity, we used a comparative genomics approach that integrates temporal expression and epigenetic profiles in an innate immune system. We found that gene expression programs diverge among mildly induced genes, while being highly conserved for strongly induced genes. The fraction of conserved enhancers varies greatly across gene expression programs, with induced genes and early-response genes, in particular, being regulated by a higher fraction of conserved enhancers. Clustering of conserved accessible DNA sequences within enhancers resulted in over 60 sequence motifs including motifs for known factors, as well as many with unknown function. We further show that the number of instances of these motifs is a strong predictor of the responsiveness of a gene to pathogen detection.
comparative genomics, enhancers, gene regulation, innate immunity, toll-like receptors, UMCCTS funding
DOI of Published Version
Cell Syst. 2018 Mar 28;6(3):381-394.e7. doi: 10.1016/j.cels.2018.01.002. Epub 2018 Feb 14. Link to article on publisher's site
Donnard E, Vangala P, Afik S, McCauley SM, Nowosielska A, Kucukural A, Tabak B, Zhu X, Diehl WE, McDonel P, Yosef N, Luban J, Garber M. (2018). Comparative Analysis of Immune Cells Reveals a Conserved Regulatory Lexicon. Program in Molecular Medicine Publications and Presentations. https://doi.org/10.1016/j.cels.2018.01.002. Retrieved from https://escholarship.umassmed.edu/pmm_pp/85