Abstract
To learn more about the mechanism of de novo telomere synthesis, we have characterized the sequence and structure of newly synthesized telomeres from Euplotes crassus. E. crassus is a particularly useful organism for studying telomere synthesis because millions of telomeres are made in each cell at a well-defined time during the sexual stage of the life cycle. These newly synthesized telomeres are approximately 50 bp longer than mature macronuclear telomeres. We have investigated the structure of the newly synthesized telomeres and have found that they are much more heterogeneous in length than mature telomeres. Most of the heterogeneity is present on the G-rich strand, indicating that the length of this strand is rather loosely controlled. In contrast, the length of the C-rich strand is much less variable, suggesting that synthesis of this strand is the more precisely regulated step in telomere addition. The G-rich strand exhibits variability both in the total number of G4T4 repeats and in the identity of the terminal nucleotide. In most cases, the G-rich strnd extends beyond the C-rich strand to leave a 3' overhang. While the size of this overhang is variable, the median length is 10 nucleotides. This research provides the first detailed picture of a newly synthesized telomere and has allowed us to formulate a model to describe the various steps involved in de novo telomere synthesis.