Papers by Adelaide Fuller
Genetics, 2009
TAHRE, the least abundant of the three retrotransposons forming telomeres in Drosophila melanogas... more TAHRE, the least abundant of the three retrotransposons forming telomeres in Drosophila melanogaster, has high sequence similarity to the gag gene and untranslated regions of HeT-A, the most abundant telomere-specific retrotransposon. Despite TAHRE's apparent evolutionary relationship to HeT-A, we find TAHRE Gag cannot locate to telomere-associated “Het dots” unless collaborating with HeT-A Gag. TAHRE Gag is carried into nuclei by HeT-A or TART Gag, but both TART and TAHRE Gags need HeT-A Gag to localize to Het dots. When coexpressed with the appropriate fragment of HeT-A and/or TART Gags, TAHRE Gag multimerizes with either protein. HeT-A and TART Gags form homo- and heteromultimers using a region containing major homology region (MHR) and zinc knuckle (CCHC) motifs, separated by a pre_C2HC motif (motifs common to other retroelements). This region's sequence is strongly conserved among the three telomeric Gags, with precise spacing of conserved residues. Nontelomeric Gags ne...
TAHRE, the least abundant of the three retrotransposons forming telomeres in Drosophila melanogas... more TAHRE, the least abundant of the three retrotransposons forming telomeres in Drosophila melanogaster, has high sequence similarity to the gag gene and untranslated regions of HeT-A, the most abundant telomere-specific element. Despite TAHRE's apparent evolutionary relationship to HeT-A, we find TAHRE Gag cannot locate to telomere-associated "Het dots" unless collaborating with HeT-A Gag.
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Papers by Adelaide Fuller