Published October 28, 2022
| Version v1
Dataset
Open
Dataset for CDL vs MLCL in mitochondrial Complex III - Complex IV supercomplexes
Authors/Creators
- 1. University of Oxford
- 2. University of Warwick
- 3. Aarhus University
Description
Coarse-grained structure (gro) and trajectory (xtc) files for yeast, mouse, and human respiratory supercomplexes in a membrane containing either cardiolipin (CL) or monolysocardiolipin (MLCL).
Atomistic structure (gro) and trajectory (xtc) files for the yeast respiratory supercomplex in a membrane containing either CL or MLCL.
Three repeats of each simulation are present in each case.
Files
Files
(8.1 GB)
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8.9 MB | Download |
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143.9 MB | Download |
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8.9 MB | Download |
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161.9 MB | Download |
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8.9 MB | Download |
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150.7 MB | Download |
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8.9 MB | Download |
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176.2 MB | Download |
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8.9 MB | Download |
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170.9 MB | Download |
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8.9 MB | Download |
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276.7 MB | Download |
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2.8 MB | Download |
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276.7 MB | Download |
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1.9 MB | Download |
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276.8 MB | Download |
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1.9 MB | Download |
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265.0 MB | Download |
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2.7 MB | Download |
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265.0 MB | Download |
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1.8 MB | Download |
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1.8 MB | Download |
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389.5 MB | Download |
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2.7 MB | Download |
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389.5 MB | Download |
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1.8 MB | Download |
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389.5 MB | Download |
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1.8 MB | Download |
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372.3 MB | Download |
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2.6 MB | Download |
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3.8 MB | Download |
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538.3 MB | Download |
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2.4 MB | Download |
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538.3 MB | Download |
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2.4 MB | Download |
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518.8 MB | Download |
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3.6 MB | Download |
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md5:5a766a2c2095d4875d7a481e44c11ff3
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514.7 MB | Download |
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md5:d62ad7cfa6cb639cc3eb5b33e29190c8
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2.3 MB | Download |
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md5:c287ece71c85988bc3f0cc981e421091
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519.2 MB | Download |
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md5:d62ad7cfa6cb639cc3eb5b33e29190c8
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2.3 MB | Download |
Additional details
Funding
- UK Research and Innovation
- Functional dynamics of the KATP channel BB/R002517/1
- UK Research and Innovation
- The Lipoprotein Biogenesis Pathway: An Emerging Structural Target for Novel Antibiotics BB/P01948X/1
- UK Research and Innovation
- Triggering assembly of the twin-arginine translocase MR/S009213/1
- UK Research and Innovation
- Nano to Meso and Back Again: Capturing and Exploiting Dynamic Heterogeneities in Biological Membranes via Large Scale Simulations BB/R00126X/1
- UK Research and Innovation
- The UK High-End Computing Consortium for Biomolecular Simulation EP/R029407/1
- UK Research and Innovation
- Assembly and Dynamics of Bacterial Chemosensory Signaling Arrays BB/S003339/1
- UK Research and Innovation
- Hydrophobic Gating in Membrane Nanopores: Water at the Nanoscale EP/R004722/1
- Wellcome Trust
- LipID: A Lipid Annotation Tool for Membrane Proteins 208361