C-terminal truncation of RAP1 results in the deregulation of telomere size, stability, and function in Saccharomyces cerevisiae.

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Mol Cell Biol. 1992 November; 12(11): 5159-5173

C-terminal truncation of RAP1 results in the deregulation of telomere size, stability, and function in Saccharomyces cerevisiae.

G Kyrion, K A Boakye and A J Lustig

Program in Molecular Biology, Sloan-Kettering Institute, Memorial Sloan-Kettering Cancer Center, New York, New York.

ABSTRACT

The Saccharomyces cerevisiae DNA-binding protein RAP1 is capableof binding in vitro to sequences from a wide variety of genomicloci, including upstream activating sequence elements, the HMLand HMR silencer regions, and the poly(G1-3T) tracts of telomeres.Recent biochemical and genetic studies have suggested that RAP1physically and functionally interacts with the yeast telomere.To further investigate the role of RAP1 at the telomere, wehave identified and characterized three intragenic suppressorsof a temperature-sensitive allele of RAP1, rap1-5. These telomeredeficiency (rap1t) alleles confer several novel phenotypes.First, telomere tract size elongates to up to 4 kb greater thansizes of wild-type or rap1-5 telomeres. Second, telomeres arehighly unstable and are subject to rapid, but reversible, deletionof part or all of the increase in telomeric tract length. Telomericdeletion does not require the RAD52 or RAD1 gene product. Third,chromosome loss and nondisjunction rates are elevated 15- to30-fold above wild-type levels. Sequencing analysis has shownthat each rap1t allele contains a nonsense mutation within adiscrete region between amino acids 663 and 684. Mobility shiftand Western immunoblot analyses indicate that each allele producesa truncated RAP1 protein, lacking the C-terminal 144 to 165amino acids but capable of efficient DNA binding. These datasuggest that RAP1 is a central regulator of both telomere andchromosome stability and define a C-terminal domain that, whiledispensable for viability, is required for these telomeric functions.

Mol Cell Biol. 1992 November; 12(11): 5159-5173

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