Warnecke, T., Becker, E. A., Facciotti, M. T., Nislow, C., & Lehner, B. (2013). Conserved substitution patterns around nucleosome footprints in eukaryotes and Archaea derive from frequent nucleosome repositioning through evolution. PLoS computational biology, 9(11), . doi:10.1371/journal.pcbi.1003373
Chicago ZitierstilWarnecke, Tobias, Erin A. Becker, Marc T. Facciotti, Corey Nislow, and Ben Lehner. "Conserved Substitution Patterns Around Nucleosome Footprints in Eukaryotes and Archaea Derive From Frequent Nucleosome Repositioning Through Evolution." PLoS Computational Biology 9, no. 11 (2013).
MLA ZitierstilWarnecke, Tobias, et al. "Conserved Substitution Patterns Around Nucleosome Footprints in Eukaryotes and Archaea Derive From Frequent Nucleosome Repositioning Through Evolution." PLoS Computational Biology 9.11 (2013).