Diamantis Sellis
Affiliations: | 2008-2014 | Stanford University, Palo Alto, CA |
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"Diamantis Sellis"Parents
Sign in to add mentor| Dmitri Petrov | grad student | 2008-2014 | Stanford |
| Laurent Duret | post-doc | 2014-2016 | (Evolution Tree) |
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Publications
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| Sellis D, Guérin F, Arnaiz O, et al. (2021) Massive colonization of protein-coding exons by selfish genetic elements in Paramecium germline genomes. Plos Biology. 19: e3001309 |
| Sellis D, Kvitek DJ, Dunn B, et al. (2016) Empirical Evidence for Heterozygote Advantage in Adapting Diploid Populations of Saccharomyces cerevisiae. Genetics |
| Sellis D, Longo MD. (2015) Patterns of variation during adaptation in functionally linked loci. Evolution; International Journal of Organic Evolution. 69: 75-89 |
| Polychronopoulos D, Sellis D, Almirantis Y. (2014) Conserved noncoding elements follow power-law-like distributions in several genomes as a result of genome dynamics. Plos One. 9: e95437 |
| Athanasopoulou L, Sellis D, Almirantis Y. (2014) A Study of Fractality and Long-Range Order in the Distribution of Transposable Elements in Eukaryotic Genomes Using the Scaling Properties of Block Entropy and Box-Counting Entropy. 16: 1860-1882 |
| Polychronopoulos D, Tsiagkas G, Athanasopoulou L, et al. (2014) Long-Range Order and Fractality in the Structure and Organization of Eukaryotic Genomes Chaos. 221-252 |
| Klimopoulos A, Sellis D, Almirantis Y. (2012) Widespread occurrence of power-law distributions in inter-repeat distances shaped by genome dynamics. Gene. 499: 88-98 |
| Sellis D, Callahan BJ, Petrov DA, et al. (2011) Heterozygote advantage as a natural consequence of adaptation in diploids. Proceedings of the National Academy of Sciences of the United States of America. 108: 20666-71 |
| Polychronopoulos D, Sellis D, Almirantis Y. (2010) A study of the genomic distribution of Conserved Noncoding Elements in several organisms: Global genomic organization expressed in the form of power laws F1000research. 1 |
| Sellis D, Almirantis Y. (2009) Power-laws in the genomic distribution of coding segments in several organisms: an evolutionary trace of segmental duplications, possible paleopolyploidy and gene loss. Gene. 447: 18-28 |