Elimination of subtelomeric repeat sequences exerts little effect on telomere functions in Saccharomyces cerevisiae

Author:

Hu Can1,Zhu Xue-Ting1,He Ming-Hong1,Shao Yangyang2,Qin Zhongjun2,Wu Zhi-Jing13,Zhou Jin-Qiu13ORCID

Affiliation:

1. The State Key Laboratory of Molecular Biology, CAS Center for Excellence in Molecular Cell Science, Shanghai Institute of Biochemistry and Cell Biology, Chinese Academy of Sciences; University of Chinese Academy of Sciences

2. Key Laboratory of Synthetic Biology, CAS Center for Excellence in Molecular Plant Sciences, Shanghai Institute of Plant Physiology and Ecology, Chinese Academy of Sciences; University of Chinese Academy of Sciences

3. Key Laboratory of Systems Health Science of Zhejiang Province, Hangzhou Institute for Advanced Study, University of Chinese Academy of Sciences

Abstract

Telomeres, which are chromosomal end structures, play a crucial role in maintaining genome stability and integrity in eukaryotes. In the baker’s yeast Saccharomyces cerevisiae , the X- and Y’-elements are subtelomeric repetitive sequences found in all thirty-two and seventeen telomeres, respectively. While the Y’-elements serve as a backup for telomere functions in cells lacking telomerase, the function of the X-elements remains unclear. This study utilized the S. cerevisiae strain SY12, which has three chromosomes and six telomeres, to investigate the role of X-elements (as well as Y’-elements) in telomere maintenance. Deletion of Y’-elements (SY12 YΔ ), X-elements (SY12 XYΔ+Y ), or both X- and Y’-elements (SY12 XYΔ ) did not impact the length of the terminal TG 1-3 tracks or telomere silencing. However, inactivation of telomerase in SY12 YΔ , SY12 XYΔ+Y , and SY12 XYΔ cells resulted in cellular senescence and the generation of survivors. These survivors either maintained their telomeres through homologous recombination-dependent TG 1-3 track elongation or underwent microhomology-mediated intra-chromosomal end-to-end joining. Our findings indicate the non-essential role of subtelomeric X- and Y’-elements in telomere regulation in both telomerase-proficient and telomerase-null cells and suggest that these elements may represent remnants of S. cerevisiae genome evolution. Furthermore, strains with fewer or no subtelomeric elements exhibit more concise telomere structures and offer potential models for future studies in telomere biology.

Publisher

eLife Sciences Publications, Ltd

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