We are interested in the genetic control of telomere structure and identity, and have focused on the model organism, Drosophila melanogaster. Mutations in this organism are known that drastically increase or decrease the frequency of additions of telomere-specific retrotransposon to a chromosome end, suggesting that this process is under genetic control. We have identified one gene, Telomere elongation, which has mutations that increase the frequencies of both terminal gene conversion and targeted transposition, and are using positional information to clone the gene. The Tel gene maps to the middle of right arm of chromosome 3 to a region of approximately 320 kb, which includes 27 genes. Sequencing the coding regions of these genes did not identify a high probability candidate gene. The observations that the Tel mutations are genetically dominant and that deletions for the region do not have a telomere elongation phenotype suggest that the mutations are gain-of-function mutations and may be in controlling regions. Chromatin structure may regulate telomere length by controlling transcription of the telomeric retrotransposons and by controlling accessibility of the retroelements to the chromosome end. We have initiated a project to mark a HeT-A transposable element with a transcribed gene in order to follow the transposon as it moves from one chromosome end to another. Pieces of the HeT-A element are being inserted into a marked EPgy2 P transposon. If the assay works, it will allow us to investigate what genetic and environmental factors influence the rate of movement, either by classical retrotransposition or by telomeric gene conversion.

Project Start
Project End
Budget Start
Budget End
Support Year
17
Fiscal Year
2010
Total Cost
$974,323
Indirect Cost
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State
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Antao, Jose M; Mason, James M; Dejardin, Jerome et al. (2012) Protein landscape at Drosophila melanogaster telomere-associated sequence repeats. Mol Cell Biol 32:2170-82
Takacs, Sandor; Biessmann, Harald; Reddy, Hemakumar M et al. (2012) Protein interactions on telomeric retrotransposons in Drosophila. Int J Biol Sci 8:1055-61
Dronamraju, Raghuvar; Mason, James M (2011) MU2 and HP1a regulate the recognition of double strand breaks in Drosophila melanogaster. PLoS One 6:e25439
Capkova Frydrychova, R; Biessmann, H; Mason, J M (2008) Regulation of telomere length in Drosophila. Cytogenet Genome Res 122:356-64