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Mechanistic insight into the assembly of the HerA-NurA helicase-nuclease DNA end resection complex

Mechanistic insight into the assembly of the HerA-NurA helicase-nuclease DNA end resection complex
Mechanistic insight into the assembly of the HerA-NurA helicase-nuclease DNA end resection complex

The HerA-NurA helicase-nuclease complex cooperates with Mre11 and Rad50 to coordinate the repair of double-stranded DNA breaks. Little is known, however, about the assembly mechanism and activation of the HerA-NurA. By combining hybrid mass spectrometry with cryo-EM, computational and biochemical data, we investigate the oligomeric formation of HerA and detail the mechanism of nucleotide binding to the HerA-NurA complex from thermophilic archaea. We reveal that ATP-free HerA and HerA-DNA complexes predominantly exist in solution as a heptamer and act as a DNA loading intermediate. The binding of either NurA or ATP stabilizes the hexameric HerA, indicating that HerA-NurA is activated by substrates and complex assembly. To examine the role of ATP in DNA translocation and processing, we investigated how nucleotides interact with the HerA-NurA. We show that while the hexameric HerA binds six nucleotides in an 'all-or-none' fashion, HerA-NurA harbors a highly coordinated pairwise binding mechanism and enables the translocation and processing of double-stranded DNA. Using molecular dynamics simulations, we reveal novel inter-residue interactions between the external ATP and the internal DNA binding sites. Overall, here we propose a stepwise assembly mechanism detailing the synergistic activation of HerA-NurA by ATP, which allows efficient processing of double-stranded DNA.

0305-1048
12025–12038
Ahdash, Zainab
13e241fc-e13f-444c-842f-87da95d7143b
Lau, Andy M.
56ef41c9-3268-40e2-b693-b54a334f358c
Byrne, Robert Thomas
023a5416-33b4-4f30-a075-f96a95dff833
Lammens, Katja
33218919-5566-4242-8b05-134f38b354cf
Stüetzer, Alexandra
946a4c95-2d80-40f5-b461-854a4d0a809b
Urlaub, Henning
5480c15b-24e4-48ac-aa0b-f94a2fe8b13f
Booth, Paula Jane
e8388444-e7b5-4907-9f50-1eea204b6683
Reading, Dr Eamonn
62fed933-f867-4c72-89e7-83aea573a836
Hopfner, Karl Peter
7c1a5069-dc87-4e74-b2d2-eb3d40a74324
Politis, Argyris
06febde7-4b5c-4435-9b3a-8915f50c47a3
Ahdash, Zainab
13e241fc-e13f-444c-842f-87da95d7143b
Lau, Andy M.
56ef41c9-3268-40e2-b693-b54a334f358c
Byrne, Robert Thomas
023a5416-33b4-4f30-a075-f96a95dff833
Lammens, Katja
33218919-5566-4242-8b05-134f38b354cf
Stüetzer, Alexandra
946a4c95-2d80-40f5-b461-854a4d0a809b
Urlaub, Henning
5480c15b-24e4-48ac-aa0b-f94a2fe8b13f
Booth, Paula Jane
e8388444-e7b5-4907-9f50-1eea204b6683
Reading, Dr Eamonn
62fed933-f867-4c72-89e7-83aea573a836
Hopfner, Karl Peter
7c1a5069-dc87-4e74-b2d2-eb3d40a74324
Politis, Argyris
06febde7-4b5c-4435-9b3a-8915f50c47a3

Ahdash, Zainab, Lau, Andy M., Byrne, Robert Thomas, Lammens, Katja, Stüetzer, Alexandra, Urlaub, Henning, Booth, Paula Jane, Reading, Dr Eamonn, Hopfner, Karl Peter and Politis, Argyris (2017) Mechanistic insight into the assembly of the HerA-NurA helicase-nuclease DNA end resection complex. Nucleic Acids Research, 45 (20), 12025–12038. (doi:10.1093/nar/gkx890).

Record type: Article

Abstract

The HerA-NurA helicase-nuclease complex cooperates with Mre11 and Rad50 to coordinate the repair of double-stranded DNA breaks. Little is known, however, about the assembly mechanism and activation of the HerA-NurA. By combining hybrid mass spectrometry with cryo-EM, computational and biochemical data, we investigate the oligomeric formation of HerA and detail the mechanism of nucleotide binding to the HerA-NurA complex from thermophilic archaea. We reveal that ATP-free HerA and HerA-DNA complexes predominantly exist in solution as a heptamer and act as a DNA loading intermediate. The binding of either NurA or ATP stabilizes the hexameric HerA, indicating that HerA-NurA is activated by substrates and complex assembly. To examine the role of ATP in DNA translocation and processing, we investigated how nucleotides interact with the HerA-NurA. We show that while the hexameric HerA binds six nucleotides in an 'all-or-none' fashion, HerA-NurA harbors a highly coordinated pairwise binding mechanism and enables the translocation and processing of double-stranded DNA. Using molecular dynamics simulations, we reveal novel inter-residue interactions between the external ATP and the internal DNA binding sites. Overall, here we propose a stepwise assembly mechanism detailing the synergistic activation of HerA-NurA by ATP, which allows efficient processing of double-stranded DNA.

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More information

Accepted/In Press date: 22 September 2017
Published date: 9 October 2017
Additional Information: Wellcome Trust [109854/Z/15/Z]; Royal Society [RG150216 to A.P.]; European Research Council Grant ATMMACHINE and German Research Council [GRK1721 to K.-P.H.]; Biotechnology and Biological Sciences Research Council (BBSRC) Future Leader Fellowship [BB/N011201/1 to E.R.]; London Interdisciplinary Biosciences Consortium (LIDo) BBSRC Doctoral Training Partnership [BB/M009513/1 to A.M.L.]; KAUST University, Saudi Arabia (to A.S.); German Research Society [DFG SFB860 to H.U.]. Funding for open access charge: Wellcome Trust [109854/Z/15/Z].

Identifiers

Local EPrints ID: 479240
URI: http://eprints.soton.ac.uk/id/eprint/479240
ISSN: 0305-1048
PURE UUID: 35a328c3-4235-4bf0-851d-53cce4468c55
ORCID for Dr Eamonn Reading: ORCID iD orcid.org/0000-0001-8219-0052

Catalogue record

Date deposited: 20 Jul 2023 16:47
Last modified: 17 Mar 2024 04:19

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Contributors

Author: Zainab Ahdash
Author: Andy M. Lau
Author: Robert Thomas Byrne
Author: Katja Lammens
Author: Alexandra Stüetzer
Author: Henning Urlaub
Author: Paula Jane Booth
Author: Dr Eamonn Reading ORCID iD
Author: Karl Peter Hopfner
Author: Argyris Politis

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