Literature DB >> 29290466

Structural Insights into Yeast Telomerase Recruitment to Telomeres.

Hongwen Chen1, Jing Xue1, Dmitri Churikov2, Evan P Hass3, Shaohua Shi1, Laramie D Lemon4, Pierre Luciano2, Alison A Bertuch4, David C Zappulla3, Vincent Géli2, Jian Wu5, Ming Lei6.   

Abstract

Telomerase maintains chromosome ends from humans to yeasts. Recruitment of yeast telomerase to telomeres occurs through its Ku and Est1 subunits via independent interactions with telomerase RNA (TLC1) and telomeric proteins Sir4 and Cdc13, respectively. However, the structures of the molecules comprising these telomerase-recruiting pathways remain unknown. Here, we report crystal structures of the Ku heterodimer and Est1 complexed with their key binding partners. Two major findings are as follows: (1) Ku specifically binds to telomerase RNA in a distinct, yet related, manner to how it binds DNA; and (2) Est1 employs two separate pockets to bind distinct motifs of Cdc13. The N-terminal Cdc13-binding site of Est1 cooperates with the TLC1-Ku-Sir4 pathway for telomerase recruitment, whereas the C-terminal interface is dispensable for binding Est1 in vitro yet is nevertheless essential for telomere maintenance in vivo. Overall, our results integrate previous models and provide fundamentally valuable structural information regarding telomere biology.
Copyright © 2017 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  Cdc13; Est1; Est2; Ku; RNA; Sir4; TLC1; telomerase; telomere

Mesh:

Substances:

Year:  2017        PMID: 29290466      PMCID: PMC5839504          DOI: 10.1016/j.cell.2017.12.008

Source DB:  PubMed          Journal:  Cell        ISSN: 0092-8674            Impact factor:   41.582


  47 in total

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Authors:  Victoria L Fell; Caroline Schild-Poulter
Journal:  Mutat Res Rev Mutat Res       Date:  2014-07-04       Impact factor: 5.657

2.  Active Yeast Telomerase Shares Subunits with Ribonucleoproteins RNase P and RNase MRP.

Authors:  Bruno Lemieux; Nancy Laterreur; Anna Perederina; Jean-François Noël; Marie-Line Dubois; Andrey S Krasilnikov; Raymund J Wellinger
Journal:  Cell       Date:  2016-05-05       Impact factor: 41.582

3.  The function of a stem-loop in telomerase RNA is linked to the DNA repair protein Ku.

Authors:  S E Peterson; A E Stellwagen; S J Diede; M S Singer; Z W Haimberger; C O Johnson; M Tzoneva; D E Gottschling
Journal:  Nat Genet       Date:  2001-01       Impact factor: 38.330

4.  The Est1 subunit of Saccharomyces cerevisiae telomerase makes multiple contributions to telomere length maintenance.

Authors:  Sara K Evans; Victoria Lundblad
Journal:  Genetics       Date:  2002-11       Impact factor: 4.562

5.  Senescence mutants of Saccharomyces cerevisiae with a defect in telomere replication identify three additional EST genes.

Authors:  T S Lendvay; D K Morris; J Sah; B Balasubramanian; V Lundblad
Journal:  Genetics       Date:  1996-12       Impact factor: 4.562

6.  Features and development of Coot.

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Authors:  David C Zappulla; Thomas R Cech
Journal:  Proc Natl Acad Sci U S A       Date:  2004-06-28       Impact factor: 11.205

8.  Mutually exclusive binding of telomerase RNA and DNA by Ku alters telomerase recruitment model.

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Journal:  Cell       Date:  2012-02-23       Impact factor: 41.582

9.  The POT1-TPP1 telomere complex is a telomerase processivity factor.

Authors:  Feng Wang; Elaine R Podell; Arthur J Zaug; Yuting Yang; Paul Baciu; Thomas R Cech; Ming Lei
Journal:  Nature       Date:  2007-01-21       Impact factor: 69.504

10.  RPA regulates telomerase action by providing Est1p access to chromosome ends.

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Journal:  Nat Genet       Date:  2003-12-21       Impact factor: 38.330
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  34 in total

Review 1.  Telomerase structures and regulation: shedding light on the chromosome end.

Authors:  Thi Hoang Duong Nguyen; Kathleen Collins; Eva Nogales
Journal:  Curr Opin Struct Biol       Date:  2019-06-12       Impact factor: 6.809

2.  Structural insights into telomere protection and homeostasis regulation by yeast CST complex.

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Journal:  Nat Struct Mol Biol       Date:  2020-07-13       Impact factor: 15.369

Review 3.  The Ku complex: recent advances and emerging roles outside of non-homologous end-joining.

Authors:  Sanna Abbasi; Gursimran Parmar; Rachel D Kelly; Nileeka Balasuriya; Caroline Schild-Poulter
Journal:  Cell Mol Life Sci       Date:  2021-04-15       Impact factor: 9.261

4.  The Sir4 H-BRCT domain interacts with phospho-proteins to sequester and repress yeast heterochromatin.

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Journal:  EMBO J       Date:  2019-09-12       Impact factor: 11.598

5.  Ligand binding characteristics of the Ku80 von Willebrand domain.

Authors:  Kyungmin Kim; Jungki Min; Thomas W Kirby; Scott A Gabel; Lars C Pedersen; Robert E London
Journal:  DNA Repair (Amst)       Date:  2019-10-24

6.  Sir3 heterochromatin protein promotes non-homologous end joining by direct inhibition of Sae2.

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Journal:  EMBO J       Date:  2021-11-24       Impact factor: 11.598

7.  LRIK interacts with the Ku70-Ku80 heterodimer enhancing the efficiency of NHEJ repair.

Authors:  Dan Wang; Zheng Zhou; Erzhong Wu; Can Ouyang; Guifeng Wei; Yunfei Wang; Dandan He; Ya Cui; Dongdong Zhang; Xiaomin Chen; Simon H Reed; Jianjun Luo; Runsheng Chen
Journal:  Cell Death Differ       Date:  2020-06-25       Impact factor: 15.828

8.  DNA-PKcs has KU-dependent function in rRNA processing and haematopoiesis.

Authors:  Zhengping Shao; Ryan A Flynn; Jennifer L Crowe; Yimeng Zhu; Jialiang Liang; Wenxia Jiang; Fardin Aryan; Patrick Aoude; Carolyn R Bertozzi; Verna M Estes; Brian J Lee; Govind Bhagat; Shan Zha; Eliezer Calo
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9.  Genome stability is guarded by yeast Rtt105 through multiple mechanisms.

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Journal:  Genetics       Date:  2021-02-09       Impact factor: 4.562

Review 10.  Yeast Telomerase RNA Flexibly Scaffolds Protein Subunits: Results and Repercussions.

Authors:  David C Zappulla
Journal:  Molecules       Date:  2020-06-14       Impact factor: 4.411
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