Data from: LRET-derived HADDOCK structural models describe the conformational heterogeneity required for processivity of the Mre11-Rad50 DNA damage repair complex

Latham, Michael P.1 ; Canny, Marella D.1

Published Apr 03, 2026 on Dryad. https://doi.org/10.5061/dryad.qfttdz0h6

Data files

Apr 03, 2026 version files 24.47 MB

Activity_Assays.pzfx

55.18 KB
All_LRET_Data.zip

21.34 MB
HADDOCK_structures.zip

756.23 KB
README.md

2.91 KB
Rosetta_structures.zip

1.28 MB
SAXS.zip

1.04 MB

Abstract

The Mre11-Rad50-Nbs1 protein complex is one of the first responders to DNA double strand breaks. Studies have shown that the catalytic activities of the evolutionarily conserved Mre11-Rad50 (MR) core complex depend on an ATP-dependent global conformational change that takes the macromolecule from an open, extended structure in the absence of ATP to a closed, globular structure when ATP is bound. We have previously identified an additional ‘partially open’ conformation using Luminescence Resonance Energy Transfer (LRET) experiments. Here, a combination of LRET and the molecular docking program HADDOCK was used to further investigate this partially open state and identify three conformations of ATP-bound MR in solution: closed, partially open, and open, which are in addition to the extended, apo conformation. These models are supported with mutagenesis and SAXS data that corroborate the presence of these three states and suggest a mechanism for the processivity of the MR complex along the DNA.

https://doi.org/10.5061/dryad.b2rbnzsrm

Description of the data and file structure

Lanthanide Resonance Energy Transfer (LRET) data used to calculate the models of the ATP-bound P. furiosus Mre11-Rad50 (MR) complex using HADDOCK rigid body docking of existing crystal structures.

Files and variables

File: All_LRET_Data.zip

Description: Zip file containing two directories for data collected on the full length complex (UPDATED_FL_LRET_lifetimes_by_pair) and truncated nucleotide binding domain of Rad50 (UPDATED_NBD_LRET_lifetimes_by_pair). Within each of these directories are sub-directories for LRET lifetime data which are named based on the position (e.g., A66C) and the acceptor fluorophore (e.g., Bo or Cy3). LRET data are two column text files of time and fluorescence intensity.

File: Activity_Assays.pzfx

Description: GraphPad Prism file with Rad50 ATP hydrolysis activity assay data.

File: HADDOCK_structures.zip

Description: Zip file containing closed (Closed_Final_HADDOCK.pdb), partially open (PartOpen_Final_HADDOCK.pdb), and open (Open_Final_HADDOCK.pdb) structures of MR complex calculated with the HADDOCK web server using LRET data.

File: Rosetta_structures.zip

Description: Zip file containing closed (Closed_Final_Rosetta.pdb), partially open (PartOpen_Final_Rosetta.pdb), and open (Open_Final_Rosetta.pdb) structures of MR complex calculated with the HADDOCK web server using LRET data. The Mre11 helix-loop-helix was connected to the capping domain of Mre11 and the Rad50 coiled-coils were extended based on the amino acid sequence of the protein constructs using Rosetta. These structures were used for analysis of SAX data (SAXS.zip) using the FOXS web server.

File: SAXS.zip

Description: Zip file containing text files of small angle X-ray scattering data. Zip file contains two directories, Apo_results_subtracted and ATP_results_subtracted, which have the raw SAXS data for apo and ATP-bound MR, respectively. Data files are in three column format of the scattering vector (in Å), the experimental scattering intensity, and the error in the intensity.

Code/software

PTI FeliX32 was used to fit the Bodipy FL and Cy3 emission decay curves to either a two- or three-exponential function depending on the identity of the LRET pair.

GraphPad Prism was used to analyze enzyme activity assay data.

PDB files can be can be opened with PyMol.

Access information

Other publicly accessible locations of the data:

HADDOCK structures have been deposited in the PDB-IHM under accession numbers 9A9J (closed), 9A9K (partially open), and 9A9L.

Data was derived from the following sources: