Comparative genomics and evolutionary dynamics of Saccharomyces cerevisiae Ty elements I. King JordanJohn F. McDonald OriginalPaper Pages: 3 - 13
Is the evolution of transposable elements modular? Emmanuelle LeratFrédéric BrunetPierre Capy OriginalPaper Pages: 15 - 25
Molecular paleontology of transposable elements from Arabidopsis thaliana Vladimir V. KapitonovJerzy Jurka OriginalPaper Pages: 27 - 37
Human L1 retrotransposition: insights and peculiarities learned from a cultured cell retrotransposition assay John V. Moran OriginalPaper Pages: 39 - 51
Structure, functionality, and evolution of the BARE-1 retrotransposon of barley Carlos M. VicientRuslan KalendarAlan H. Schulman OriginalPaper Pages: 53 - 63
Retrolyc1-1, a member of the Tntl retrotransposon super-family in the Lycopersicon peruvianum genome Ana Paula P. CostaKatia C. ScortecciMarie-Anne Van Sluys OriginalPaper Pages: 65 - 72
Retrotransposon 1731 in Drosophila melanogaster changes retrovirus-like expression strategy in host genome A. KalmykovaC. MaisonhauteV. Gvozdev OriginalPaper Pages: 73 - 77
Regulatory potential of nonautonomous mariner elements and subfamily crosstalk Daniel De AnguiarDaniel L. Hartl OriginalPaper Pages: 79 - 85
Phylogenetic evidence for Ty1-copia-like endogenous retroviruses in plant genomes Howard M. Laten OriginalPaper Pages: 87 - 93
Evidence for genomic regulation of the telomeric activity in Drosophila melanogaster Dario FortunatiNikolaj Junakovic OriginalPaper Pages: 95 - 102
How valuable are model organisms for transposable element studies? Margaret G. KidwellMichael B. Evgen'ev OriginalPaper Pages: 103 - 111
Transposable elements and genome evolution: the case of Drosophila simulans Christian BiémontCristina VieiraDavid Lepetit OriginalPaper Pages: 113 - 120
Horizontal transfer of non-LTR retrotransposons in vertebrates Dušsan KordišsFranc Gubenšsek OriginalPaper Pages: 121 - 128
Sure facts, speculations, and open questions about the evolution of transposable element copy number Sergey V. Nuzhdin OriginalPaper Pages: 129 - 137
Transposon dynamics and the breeding system Stephen I. WrightDaniel J. Schoen OriginalPaper Pages: 139 - 148
Recently integrated human Alu repeats: finding needles in the haystack Astrid M. RoyMarion L. CarrollPrescott L. Deininger OriginalPaper Pages: 149 - 161
Phylogenetic signals from point mutations and polymorphic Alu Daniel S. YorkVincent M. BlumRene J. Herrera OriginalPaper Pages: 163 - 170
Transposable elements as the key to a 21st century view of evolution James A. Shapiro OriginalPaper Pages: 171 - 179
Transposable elements as activators of cryptic genes in E. coli Barry G. Hall OriginalPaper Pages: 181 - 187
Drosophila telomeres: two transposable elements with important roles in chromosomes M.-L. PardueP.G. DeBaryshe OriginalPaper Pages: 189 - 196
Molecular domestication – more than a sporadic episode in evolution Wolfgang J. MillerJohn F. McDonaldDominique Anxolabéhère OriginalPaper Pages: 197 - 207
Genomes were forged by massive bombardments with retroelements and retrosequences Jürgen Brosius OriginalPaper Pages: 209 - 238
Sectorial mutagenesis by transposable elements Jerzy JurkaVladimir V. Kapitonov OriginalPaper Pages: 239 - 248
Cell-surface area codes: mobile-element related gene switches generate precise and heritable cell-surface displays of address molecules that are used for constructing embryos William J. DreyerJanet Roman-Dreyer OriginalPaper Pages: 249 - 259
Transposable DNA elements and life history traits: II. Transposition of P DNA elements in somatic cells reduces fitness, mating activity, and locomotion of Drosophila melanogaster R.C. WoodruffJ.N. Thompson JrH. Huai OriginalPaper Pages: 261 - 269
Host defenses to parasitic sequences and the evolution of epigenetic control mechanisms M.A. MatzkeM.F. MetteA.J.M. Matzke OriginalPaper Pages: 271 - 287