Tetrahymena Mutants With Short Telomeres

Tetrahymena Mutants With Short Telomeres

Shawn Ahmed^a, Hong Sheng^a, Luming Niu^a, and Eric Henderson^a
^a Department of Zoology and Genetics, Signal Transduction Training Group, Iowa State University, Ames, Iowa 50011

Corresponding author: Eric Henderson, 2112 Molecular Biology Building, Department of Zoology and Genetics, Iowa State University, Ames, IA 50011., eric{at}bioforcelab.com (E-mail).

Communicating editor: S. L. ALLEN

Telomere length is dynamic in many organisms. Genetic screensthat identify mutants with altered telomere lengths are essentialif we are to understand how telomere length is regulated invivo. In Tetrahymena thermophila, telomeres become long at 30°,and growth rate slows. A slow-growing culture with long telomeresis often overgrown by a variant cell type with short telomeresand a rapid-doubling rate. Here we show that this variant celltype with short telomeres is in fact a mutant with a geneticdefect in telomere length regulation. One of these telomeregrowth inhibited forever (tgi) mutants was heterozygous fora telomerase RNA mutation, and this mutant telomerase RNA causedtelomere shortening when overexpressed in wild-type cells. Severalother tgi mutants were also likely to be heterozygous at theirmutant loci, since they reverted to wild type when selectivepressure for short telomeres was removed. These results illustratethat telomere length can regulate growth rate in Tetrahymenaand that this phenomenon can be exploited to identify genesinvolved in telomere length regulation.

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