Genomics & Informatics10.5808/gi.2012.10.4.2262012104226Transposable Elements: No More 'Junk DNA'Yun-Ji Kim, Jungnam Lee, Kyudong Han
Genetics10.1534/genetics.110.124180201018641085-1093A Brief History of the Status of Transposable Elements: From Junk DNA to Major Players in EvolutionChristian Biémont,
Genome Biology and Evolution10.1093/gbe/evab21720211310Highlight—“Junk DNA” No More: Repetitive Elements as Vital Sources of Flatworm VariationCasey McGrath,
Plant Transposable Elements10.1007/978-1-4684-5550-2_171988237-250The State of DNA Modification within and Flanking Maize Transposable ElementsJeffrey L. Bennetzen, Willis E. Brown, Patricia S. Springer
Genes10.3390/genes100604192019106419On the Population Dynamics of Junk: A Review on the Population Genomics of Transposable ElementsYann Bourgeois, Stéphane Boissinot
Transposable Elements and Genome Evolution10.1007/978-94-011-4156-7_262000261-269Transposable DNA elements and life history traits: II. Transposition of P DNA elements in somatic cells reduces fitness, mating activity, and locomotion of Drosophila melanogasterR. C. Woodruff, J. N. Thompson, J. S. F. Barker, H. Huai
BioEssays10.1002/bies.204522006289913-922Turning junk into gold: domestication of transposable elements and the creation of new genes in eukaryotesJean-Nicolas Volff,
10.1007/978-1-4939-3070-82015Genomic Elements in Health, Disease and Evolution,
Nucleic Acids Research10.1093/nar/gkt01120134153190-3200Turning gold into ‘junk’: transposable elements utilize central proteins of cellular networksGyörgy Abrusán, András Szilágyi, Yang Zhang, Balázs Papp
Plant Transposable Elements10.1007/978-1-4684-5550-2_261988339-350Structure and DNA Modification of Endogenous Mu ElementsVicki L. Chandler, Luther E. Talbert, Laura Mann, Catherine Faber