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Live-cell single-molecule tracking highlights requirements for stable Smc5/6 chromatin association in vivo

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Live-cell single-molecule tracking highlights requirements for stable Smc5/6 chromatin association in vivo. / Etheridge, Thomas J; Villahermosa, Desiree; Campillo-Funollet, Eduard et al.
In: eLife, Vol. 10, e68579, 16.04.2021.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Etheridge, TJ, Villahermosa, D, Campillo-Funollet, E, Herbert, AD, Irmisch, A, Watson, AT, Dang, HQ, Osborne, MA, Oliver, AW, Carr, AM & Murray, JM 2021, 'Live-cell single-molecule tracking highlights requirements for stable Smc5/6 chromatin association in vivo', eLife, vol. 10, e68579. https://doi.org/10.7554/ELIFE.68579

APA

Etheridge, T. J., Villahermosa, D., Campillo-Funollet, E., Herbert, A. D., Irmisch, A., Watson, A. T., Dang, H. Q., Osborne, M. A., Oliver, A. W., Carr, A. M., & Murray, J. M. (2021). Live-cell single-molecule tracking highlights requirements for stable Smc5/6 chromatin association in vivo. eLife, 10, Article e68579. https://doi.org/10.7554/ELIFE.68579

Vancouver

Etheridge TJ, Villahermosa D, Campillo-Funollet E, Herbert AD, Irmisch A, Watson AT et al. Live-cell single-molecule tracking highlights requirements for stable Smc5/6 chromatin association in vivo. eLife. 2021 Apr 16;10:e68579. doi: 10.7554/ELIFE.68579

Author

Etheridge, Thomas J ; Villahermosa, Desiree ; Campillo-Funollet, Eduard et al. / Live-cell single-molecule tracking highlights requirements for stable Smc5/6 chromatin association in vivo. In: eLife. 2021 ; Vol. 10.

Bibtex

@article{3a73579962014698926a762fc8cda530,
title = "Live-cell single-molecule tracking highlights requirements for stable Smc5/6 chromatin association in vivo",
abstract = "The essential Smc5/6 complex is required in response to replication stress and is best known for ensuring the fidelity of homologous recombination. Using single-molecule tracking in live fission yeast to investigate Smc5/6 chromatin association, we show that Smc5/6 is chromatin associated in unchallenged cells and this depends on the non-SMC protein Nse6. We define a minimum of two Nse6-dependent sub-pathways, one of which requires the BRCT-domain protein Brc1. Using defined mutants in genes encoding the core Smc5/6 complex subunits, we show that the Nse3 double-stranded DNA binding activity and the arginine fingers of the two Smc5/6 ATPase binding sites are critical for chromatin association. Interestingly, disrupting the single-stranded DNA (ssDNA) binding activity at the hinge region does not prevent chromatin association but leads to elevated levels of gross chromosomal rearrangements during replication restart. This is consistent with a downstream function for ssDNA binding in regulating homologous recombination.",
author = "Etheridge, {Thomas J} and Desiree Villahermosa and Eduard Campillo-Funollet and Herbert, {Alex David} and Anja Irmisch and Watson, {Adam T} and Dang, {Hung Q} and Osborne, {Mark A} and Oliver, {Antony W} and Carr, {Antony M} and Murray, {Johanne M}",
year = "2021",
month = apr,
day = "16",
doi = "10.7554/ELIFE.68579",
language = "English",
volume = "10",
journal = "eLife",
issn = "2050-084X",
publisher = "eLife Sciences Publications",

}

RIS

TY - JOUR

T1 - Live-cell single-molecule tracking highlights requirements for stable Smc5/6 chromatin association in vivo

AU - Etheridge, Thomas J

AU - Villahermosa, Desiree

AU - Campillo-Funollet, Eduard

AU - Herbert, Alex David

AU - Irmisch, Anja

AU - Watson, Adam T

AU - Dang, Hung Q

AU - Osborne, Mark A

AU - Oliver, Antony W

AU - Carr, Antony M

AU - Murray, Johanne M

PY - 2021/4/16

Y1 - 2021/4/16

N2 - The essential Smc5/6 complex is required in response to replication stress and is best known for ensuring the fidelity of homologous recombination. Using single-molecule tracking in live fission yeast to investigate Smc5/6 chromatin association, we show that Smc5/6 is chromatin associated in unchallenged cells and this depends on the non-SMC protein Nse6. We define a minimum of two Nse6-dependent sub-pathways, one of which requires the BRCT-domain protein Brc1. Using defined mutants in genes encoding the core Smc5/6 complex subunits, we show that the Nse3 double-stranded DNA binding activity and the arginine fingers of the two Smc5/6 ATPase binding sites are critical for chromatin association. Interestingly, disrupting the single-stranded DNA (ssDNA) binding activity at the hinge region does not prevent chromatin association but leads to elevated levels of gross chromosomal rearrangements during replication restart. This is consistent with a downstream function for ssDNA binding in regulating homologous recombination.

AB - The essential Smc5/6 complex is required in response to replication stress and is best known for ensuring the fidelity of homologous recombination. Using single-molecule tracking in live fission yeast to investigate Smc5/6 chromatin association, we show that Smc5/6 is chromatin associated in unchallenged cells and this depends on the non-SMC protein Nse6. We define a minimum of two Nse6-dependent sub-pathways, one of which requires the BRCT-domain protein Brc1. Using defined mutants in genes encoding the core Smc5/6 complex subunits, we show that the Nse3 double-stranded DNA binding activity and the arginine fingers of the two Smc5/6 ATPase binding sites are critical for chromatin association. Interestingly, disrupting the single-stranded DNA (ssDNA) binding activity at the hinge region does not prevent chromatin association but leads to elevated levels of gross chromosomal rearrangements during replication restart. This is consistent with a downstream function for ssDNA binding in regulating homologous recombination.

U2 - 10.7554/ELIFE.68579

DO - 10.7554/ELIFE.68579

M3 - Journal article

C2 - 33860765

VL - 10

JO - eLife

JF - eLife

SN - 2050-084X

M1 - e68579

ER -