scholarly article | Q13442814 |
P2093 | author name string | Roberta Moschetti | |
Ruggiero Caizzi | |||
Renè Massimiliano Marsano | |||
Sarantis Chlamydas | |||
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Autoregulation of mariner transposase activity by overproduction and dominant-negative complementation. | Q52551002 | ||
Distribution of transposable elements in Drosophila species. | Q52572974 | ||
Transposon silencing in the Caenorhabditis elegans germ line by natural RNAi | Q59093938 | ||
Cis requirements for transposition of Tc1-like transposons in C. elegans | Q73073623 | ||
Evidence for a host role in regulating the activity of transposable elements in Drosophila melanogaster: the case of the persistent instability of Bari 1 elements in Charolles stock | Q74081115 | ||
CLUSTAL W: improving the sensitivity of progressive multiple sequence alignment through sequence weighting, position-specific gap penalties and weight matrix choice | Q24286950 | ||
Gapped BLAST and PSI-BLAST: a new generation of protein database search programs | Q24545170 | ||
The transposable elements of the Drosophila melanogaster euchromatin: a genomics perspective | Q24803634 | ||
The neighbor-joining method: a new method for reconstructing phylogenetic trees | Q25939010 | ||
A slicer-mediated mechanism for repeat-associated siRNA 5' end formation in Drosophila | Q28290099 | ||
Discrete small RNA-generating loci as master regulators of transposon activity in Drosophila | Q28292093 | ||
The speciation history of Drosophila pseudoobscura and close relatives: inferences from DNA sequence variation at the period locus | Q28769436 | ||
Molecular reconstruction of Sleeping Beauty, a Tc1-like transposon from fish, and its transposition in human cells | Q29617246 | ||
Intra- and interspecies variation among Bari-1 elements of the melanogaster species group | Q32028143 | ||
Sequence divergence within transposable element families in the Drosophila melanogaster genome | Q33682774 | ||
Resident aliens: the Tc1/mariner superfamily of transposable elements | Q33702230 | ||
Sleeping Beauty, a wide host-range transposon vector for genetic transformation in vertebrates | Q33915814 | ||
Bari-1, a new transposon-like family in Drosophila melanogaster with a unique heterochromatic organization | Q33960449 | ||
S elements: a family of Tc1-like transposons in the genome of Drosophila melanogaster | Q33966292 | ||
Diverse transposable elements are mobilized in hybrid dysgenesis in Drosophila virilis | Q34026415 | ||
Involvement of a bifunctional, paired-like DNA-binding domain and a transpositional enhancer in Sleeping Beauty transposition | Q34135093 | ||
Structure-function analysis of the inverted terminal repeats of the sleeping beauty transposon | Q34135300 | ||
Perspective: transposable elements, parasitic DNA, and genome evolution | Q34192362 | ||
Horizontal transmission, vertical inactivation, and stochastic loss of mariner-like transposable elements | Q34320051 | ||
Widespread occurrence of the Tc1 transposon family: Tc1-like transposons from teleost fish | Q34326299 | ||
Population genetics models of competition between transposable element subfamilies | Q35083007 | ||
Transposable elements | Q35237512 | ||
Assembly of the Tc1 and mariner transposition initiation complexes depends on the origins of their transposase DNA binding domains | Q36567388 | ||
Transposase is the only nematode protein required for in vitro transposition of Tc1. | Q38360508 | ||
The DNA-bending protein HMGB1 is a cellular cofactor of Sleeping Beauty transposition | Q39749628 | ||
Minos, a new transposable element formDrosophila hydeiis a member of the Tc1-like family of transposons | Q40509218 | ||
A purified mariner transposase is sufficient to mediate transposition in vitro | Q41077576 | ||
Quetzal: a transposon of the Tc1 family in the mosquito Anopheles albimanus | Q42647059 | ||
Characterization of a Tc1-like transposable element in zebrafish (Danio rerio). | Q42685664 | ||
Paleo-demography of the Drosophila melanogaster subgroup: application of the maximum likelihood method. | Q47889444 | ||
Centromeres, CENP-B and Tigger too. | Q48052113 | ||
Discovery of amphibian Tc1-like transposon families | Q48065469 | ||
Distribution of the transposable element Minos in the genus Drosophila | Q48371147 | ||
P433 | issue | 5 | |
P304 | page(s) | 451-461 | |
P577 | publication date | 2008-05-01 | |
P1433 | published in | Molecular Genetics and Genomics | Q15753424 |
P1476 | title | Conserved motifs and dynamic aspects of the terminal inverted repeat organization within Bari-like transposons | |
P478 | volume | 279 |
Q34347977 | Ancestral polymorphism and recent invasion of transposable elements in Drosophila species |
Q41511252 | Does the Promoter Constitute a Barrier in the Horizontal Transposon Transfer Process? Insight from Bari Transposons |
Q37309297 | Functional characterization of the Bari1 transposition system. |
Q36026134 | Identification of Bari Transposons in 23 Sequenced Drosophila Genomes Reveals Novel Structural Variants, MITEs and Horizontal Transfer |
Q36944134 | Identification of multiple binding sites for the THAP domain of the Galileo transposase in the long terminal inverted-repeats |
Q36614355 | Striking structural dynamism and nucleotide sequence variation of the transposon Galileo in the genome of Drosophila mojavensis |
Q34207726 | Structural and sequence diversity of the transposon Galileo in the Drosophila willistoni genome |
Q33997725 | The Drosophila mojavensis Bari3 transposon: distribution and functional characterization |
Q52736667 | The role of vertical and horizontal transfer in the evolution of Paris-like elements in drosophilid species. |
Q64081232 | Transcriptionally promiscuous "blurry" promoters in Tc1/ transposons allow transcription in distantly related genomes |
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