Telomerase replicates chromosome ends in germ and somatic stem cells to facilitate continued proliferation. Telomerase action depends on the telomeric protein TPP1, which recruits telomerase to telomeres and facilitates processive DNA synthesis. Here we identify separationof-function long (TPP1-L) and short (TPP1-S) isoforms of TPP1 differing only in 86 amino acids at their N-terminus. While both isoforms retain the ability to recruit telomerase, only TPP1-S facilitates telomere synthesis. We identify a novel intragenic noncoding RNA in the 3'-UTR of the TPP1-encoding gene that specifically shuts down telomerase activation-incompatible TPP1-L to establish TPP1-S as the predominant isoform in somatic cells. Strikingly, TPP1-L is the major isoform in testes, where it can function to restrain telomerase in mature germ cells. Our studies uncover how differential expression of two isoforms allows TPP1 to perform separate functions in different cells, and demonstrate how isoform choice can be determined by an intragenic noncoding RNA.
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