Heterochromatic breaks move to the nuclear periphery to continue recombinational repair

Ryu, Taehyun; Spatola, Brett N.; Delabaere, Laetitia; Bowlin, Katherine; Hopp, Hannah; Kunitake, Ryan C.; Karpen, Gary H.; Chiolo, Irene

doi:10.1038/ncb3258

Cited by 232 publications

(502 citation statements)

References 81 publications

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“…In flies, it was shown that dRad60 (the homolog of Rad60 in fission yeast, Esc2 in budding yeast, and NIP45 in humans) contributes to the shift of DSBs away from heterochromatin in irradiated Drosophila cells (Ryu et al 2015). This class of factors, called RENi, is thought to stimulate the ubiquitination activity of the Slx5/8 STUbL in yeast (Prudden et al 2007).…”

Section: Polysumoylation Is Required For Slx5 Recruitment and Dsb Relmentioning

confidence: 99%

“…Although Rad52 SUMOylation influenced damage relocation from the nucleolus to the nucleoplasm (Torres-Rosell et al 2007), Rad52 was not needed for the relocation of a euchromatic DSB to pores (Horigome et al 2014). In flies, the STUbL subunit Dgrn, along with the SMC5/6 complex, was necessary for DSB relocation away from heterochromatin (Chiolo et al 2011;Ryu et al 2015). This shift required the STUbL interactor Rad60 (ScEsc2/HsNIP45) and the Nup84 pore complex (Ryu et al 2015).…”

mentioning

confidence: 99%

“…In both yeast and flies, Nup84-linked damage sensitivity and the closely associated nuclear pore basket proteins Nup60 and Mlp1/Mlp2 have been linked to enzymes that control SUMO metabolism (Zhao et al 2004;Palancade et al 2007;Nagai et al 2008;Ryu et al 2015). Indeed, DSBs that occur in the ribosomal DNA in budding yeast (Torres-Rosell et al 2007) and in heterochromatin in flies (Chiolo et al 2011) were shown to shift away from the domain of repetitive sequences in a manner dependent on the SMC5/6 complex and its associated SUMO ligase, Mms21.…”

mentioning

confidence: 99%

“…In flies, the STUbL subunit Dgrn, along with the SMC5/6 complex, was necessary for DSB relocation away from heterochromatin (Chiolo et al 2011;Ryu et al 2015). This shift required the STUbL interactor Rad60 (ScEsc2/HsNIP45) and the Nup84 pore complex (Ryu et al 2015).…”

mentioning

confidence: 99%

“…Besides conferring sensitivity to exogenous agents (Bennett et al 2001), nuclear pore mutants showed impaired replication fork restart (for review, see Bukata et al 2013;Geli and Lisby 2015) and have recently been implicated in the repair of subtelomeric DSBs by strand invasion events . In human cells, components in the Nup84 complex were found to suppress elevated levels of H2AX phosphorylation in cells exposed to aphidicolin (Paulsen et al 2009), and, in flies, the loss of the corresponding complex enhanced the appearance of damage foci provoked by ionizing irradiation (Ryu et al 2015).…”

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confidence: 99%

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PolySUMOylation by Siz2 and Mms21 triggers relocation of DNA breaks to nuclear pores through the Slx5/Slx8 STUbL

et al. 2016

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High-resolution imaging shows that persistent DNA damage in budding yeast localizes in distinct perinuclear foci for repair. The signals that trigger DNA double-strand break (DSB) relocation or determine their destination are unknown. We show here that DSB relocation to the nuclear envelope depends on SUMOylation mediated by the E3 ligases Siz2 and Mms21. In G1, a polySUMOylation signal deposited coordinately by Mms21 and Siz2 recruits the SUMO targeted ubiquitin ligase Slx5/Slx8 to persistent breaks. Both Slx5 and Slx8 are necessary for damage relocation to nuclear pores. When targeted to an undamaged locus, however, Slx5 alone can mediate relocation in G1-phase cells, bypassing the requirement for polySUMOylation. In contrast, in S-phase cells, monoSUMOylation mediated by the Rtt107-stabilized SMC5/6-Mms21 E3 complex drives DSBs to the SUN domain protein Mps3 in a manner independent of Slx5. Slx5/Slx8 and binding to pores favor repair by ectopic break-induced replication and imprecise end-joining.

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Section: Polysumoylation Is Required For Slx5 Recruitment and Dsb Relmentioning

confidence: 99%

mentioning

confidence: 99%

mentioning

confidence: 99%

mentioning

confidence: 99%

mentioning

confidence: 99%

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PolySUMOylation by Siz2 and Mms21 triggers relocation of DNA breaks to nuclear pores through the Slx5/Slx8 STUbL

et al. 2016

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SUMO in the regulation of DNA repair and transcription at nuclear pores

Gasser,

Stutz

2023

FEBS Letters

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Two related post‐translational modifications, the covalent linkage of Ubiquitin and the Small Ubiquitin‐related MOdifier (SUMO) to lysine residues, play key roles in the regulation of both DNA repair pathway choice and transcription. Whereas ubiquitination is generally associated with protein degradation, the impact of sumoylation has been more mysterious. Sumoylation effects are largely mediated by the subnuclear localization of its targets, particularly in response to DNA damage. This is governed in part by the concentration of SUMO protease at nuclear pores (1,2). We review here the roles of sumoylation in determining subnuclear locus positioning relative to the nuclear envelope and the nuclear envelope to facilitate repair and to regulate transcription.

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Insights into nuclear dynamics using live‐cell imaging approaches

Bigley

Payumo

Alexander

et al. 2017

WIREs Mechanisms of Disease

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The nucleus contains the genetic blueprint of the cell and myriad interactions within this subcellular structure are required for gene regulation. In the current scientific era, characterization of these gene regulatory networks through biochemical techniques coupled with systems-wide “omic” approaches have become commonplace. However, these strategies are limited because they represent a mere snapshot of the cellular state. To obtain a holistic understanding of nuclear dynamics, relevant molecules must be studied in their native contexts in living systems. Live-cell imaging approaches are capable of providing quantitative assessment of the dynamics of gene regulatory interactions within the nucleus. We survey recent insights into what live-cell imaging approaches have provided the field of nuclear dynamics. In this review, we focus on interactions of DNA with other DNA loci, proteins, RNA, and the nuclear envelope.

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Heterochromatic breaks move to the nuclear periphery to continue recombinational repair

Cited by 232 publications

References 81 publications

PolySUMOylation by Siz2 and Mms21 triggers relocation of DNA breaks to nuclear pores through the Slx5/Slx8 STUbL

PolySUMOylation by Siz2 and Mms21 triggers relocation of DNA breaks to nuclear pores through the Slx5/Slx8 STUbL

SUMO in the regulation of DNA repair and transcription at nuclear pores

Insights into nuclear dynamics using live‐cell imaging approaches

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