Abstract

Telomeres are the nucleoprotein required for the stability and complete replication of chromosome ends. Telomere DNA consists of tandem arrays of TG-rich sequences: 10-20 kb of TTAGGG in humans and 250-400 bp of TG1-3 in budding yeast, where the TG-rich strand forms the 3' end of the chromosome. The length of these repeats is nearly constant in human germ cells and yeast, and is probably maintained by regulating the processes of lengthening, via telomerase, and shortening, due to incomplete replication or nuclease action. How these two processes are regulated to give a constant telomere length is unknown. In human somatic cells, the length of the TTAGGG tract decreases as cells divide, leading to cell senescence when telomeres become too short. How telomere length information is transmitted to the cell cycle machinery is unknown. Our long term goal is to use yeast as a model system to understand these processes. Yeast measure telomere length by counting the number of molecules of the major telomere binding protein Rap1p; however, how Rap1p molecules are counted is unknown. We developed a working model for telomere length regulation based on our construction of yeast synthetic telomeres and on our work with a telomere length regulator, TEL2. We propose that yeast telomeres form a folded structure with Rap1p and 2 regulatory proteins, Rif1p and Rif2p, to count Rap1p molecules and block elongation. Short telomeres have too few Rap1p molecules to form this structure, so they are elongated. Structure formation may be linked to a telomere-specific Rap1p modification that we have detected. TEL2 protein regulates yeast telomere length in vivo and binds to telomeric TG1-3 in vitro. TEL2 is in the same genetic pathway as TEL1, a homolog of the mammalian kinase DNA-PKcs and the yeast DNA damage checkpoint regulator of the cell cycle, MEC1. The morphology of cells lacking TEL2 suggests they arrest in a specific phase of the cell cycle. Thus, TEL2 may function to somehow link telomeres to cell cycle control.
Our specific aims are to test our hypotheses that 1) telomere length is regulated by forming the folded structure we propose; 2) the telomere-specific modification of Rap1p is involved in telomere length control; and 3) Tel2p binds to telomeres in vivo and links telomeres to the cell cycle machinery. Our results will provide a model for how cells measure telomere length.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
5R01GM050752-07
Application #
6476541
Study Section
Molecular Cytology Study Section (CTY)
Program Officer
Carter, Anthony D
Project Start
1994-05-01
Project End
2003-11-30
Budget Start
2001-12-01
Budget End
2003-11-30
Support Year
7
Fiscal Year
2002
Total Cost
$266,647
Indirect Cost

  Institution

Name
Cleveland Clinic Lerner
Department
Type
DUNS #
017730458
City
Cleveland
State
OH
Country
United States
Zip Code
44195

  Publications

Wang, Jinyu; Eisenstatt, Jessica R; Audry, Julien et al. (2018) A Heterochromatin Domain Forms Gradually at a New Telomere and Is Dynamic at Stable Telomeres. Mol Cell Biol 38:
Wang, Jinyu; Zhang, Haitao; Al Shibar, Mohammed et al. (2018) Rif1 phosphorylation site analysis in telomere length regulation and the response to damaged telomeres. DNA Repair (Amst) 65:26-33
Li, Yanhui; Wang, Jinyu; Zhou, Gang et al. (2017) Nonhomologous End-Joining with Minimal Sequence Loss Is Promoted by the Mre11-Rad50-Nbs1-Ctp1 Complex in Schizosaccharomyces pombe. Genetics 206:481-496
Rishavy, Mark A; Hallgren, Kevin W; Wilson, Lee A et al. (2013) The vitamin K oxidoreductase is a multimer that efficiently reduces vitamin K epoxide to hydroquinone to allow vitamin K-dependent protein carboxylation. J Biol Chem 288:31556-66
Corkins, Mark E; May, Margot; Ehrensberger, Kate M et al. (2013) Zinc finger protein Loz1 is required for zinc-responsive regulation of gene expression in fission yeast. Proc Natl Acad Sci U S A 110:15371-6
Chen, Bo-Ruei; Li, Yanhui; Eisenstatt, Jessica R et al. (2013) Identification of a lifespan extending mutation in the Schizosaccharomyces pombe cyclin gene clg1+ by direct selection of long-lived mutants. PLoS One 8:e69084
Ye, Yanfang; Lee, I-Ju; Runge, Kurt W et al. (2012) Roles of putative Rho-GEF Gef2 in division-site positioning and contractile-ring function in fission yeast cytokinesis. Mol Biol Cell 23:1181-95
Chen, Bo-Ruei; Hale, Devin C; Ciolek, Peter J et al. (2012) Generation and analysis of a barcode-tagged insertion mutant library in the fission yeast Schizosaccharomyces pombe. BMC Genomics 13:161
Sunder, Sham; Greeson-Lott, Nikole T; Runge, Kurt W et al. (2012) A new method to efficiently induce a site-specific double-strand break in the fission yeast Schizosaccharomyces pombe. Yeast 29:275-91
Chen, Bo-Ruei; Runge, Kurt W (2012) Genetic approaches to aging in budding and fission yeasts: new connections and new opportunities. Subcell Biochem 57:291-314

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