Less is more: Coarse-grained integrative modeling of large biomolecular assemblies with HADDOCK

Roel‐Touris, Jorge; Don, Charleen G.; Honorato, Rodrigo Vargas; Rodrigues, João P. G. L. M.; Bonvin, Alexandre M. J. J.

doi:10.1101/715268

Cited by 3 publications

(10 citation statements)

References 48 publications

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“…This target is particularly interesting as its structure was determined with cryo-EM and it is the largest complex featured so far in CAPRI. Therefore, it was an excellent test case for our implementation of the MARTINI coarse grain forcefield into HADDOCK 38 . Using less than ideal information (interface restraints extracted from the top model of the all-atom, server submission) we were able to accurately recreate the full decamer using five dimers with interface restraints specified only between the first two adjacent ones (i.e.…”

Section: Resultsmentioning

confidence: 99%

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An overview of data-driven HADDOCK strategies in CAPRI rounds 38-45

Koukos

Roel‐Touris

Ambrosetti

et al. 2019

Preprint

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Our information-driven docking approach HADDOCK has demonstrated a sustained performance since the start of its participation to CAPRI. This is due, in part, to its ability to integrate data into the modelling process, and to the robustness of its scoring function. We participated in CAPRI both as server and as manual predictors.In CAPRI rounds 38-45, we have used various strategies depending on the information at hand. These ranged from imposing restraints to a few residues identified from literature as being important for the interaction, to binding pockets identified from homologous complexes or template-based refinement / CA-CA restraint-guided docking from identified templates. When relevant, symmetry restraints were used to limit the conformational sampling. We also tested for a large decamer target a new implementation of the MARTINI coarse-grained force field in HADDOCK. Overall in the current rounds, we obtained acceptable or better predictions for 13 and 11 server and manual submissions, respectively, out of the 22 interfaces.Our server performance (acceptable models) was better (59%) than the manual (50%) one, in which we typically experiment with various combinations of protocols and data sources. Again, our simple scoring function based on a linear combination of intermolecular van der Waals and electrostatic energies and an empirical desolvation term demonstrated a good performance in the scoring experiment with a 63% success rate across all 22 interfaces. An analysis of model quality indicates that, while we are consistently performing well in generating acceptable models, there is room for improvement for generating/identifying higher quality models.

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Section: Resultsmentioning

confidence: 99%

“…Our strategies for rounds [38][39][40][41][42][43][44][45] of CAPRI can be grouped in four categories depending on the nature of the target and the availability of information we could use to drive the docking. The first category concerns targets 121, 134 and 135 which featured protein-peptide complexes.…”

Section: Introductionmentioning

confidence: 99%

An overview of data-driven HADDOCK strategies in CAPRI rounds 38-45

Koukos

Roel‐Touris

Ambrosetti

et al. 2019

Preprint

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“…Coarse-graining (CG) has been demonstrated to be a valuable alternative to standard atomistic (AA) approaches to alleviate some of those limitations and help the identification of the energy global minima by smoothing out the energy landscape (Hills et al, 2010; Roel-Touris et al, 2019). To this end, CG approaches group several atoms (either a few atoms or entire side chains) into larger “pseudo-atoms” or “beads,” which results into a reduction in the number of degrees of freedom of the system (Kmiecik et al, 2016).…”

Section: Introductionmentioning

confidence: 99%

“…Historically, the development of CG force fields has followed two directions: (1) Physics-based, parametrized against its atomic counterpart or (2) knowledge-based, taking advantage of the increasing growth of statistical information derived from experimentally determined structures (Hills et al, 2010). Protein or/and protein-nucleic acid coarse-grained approaches have been implemented in several docking/modeling software such as for example: CABS-dock (Blaszczyk et al, 2016) RosettaDock (Gray et al, 2003), IMP (Russel et al, 2012), ATTRACT (Setny et al, 2012), NPDock (Tuszynska et al, 2015), PyRy3D (genesilico.pl/pyry3d), and more recently in HADDOCK (Dominguez et al, 2003; Roel-Touris et al, 2019), our integrative modeling platform.…”

Section: Introductionmentioning

confidence: 99%

“…In this manuscript, we describe and benchmark the integration of the MARTINI coarse-grained force field for DNA into HADDOCK. It builds upon our recent implementation of a MARTINI coarse-grained protein-protein docking protocol (Roel-Touris et al, 2019) and is further optimized to account for Watson-Crick interactions. Prior to the docking, the input structures are converted into their coarse-grained counterparts and hydrogen-bonding base pairs are automatically detected so that a special set of parameters and restraints are used for those during the docking.…”

Section: Introductionmentioning

confidence: 99%

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MARTINI-Based Protein-DNA Coarse-Grained HADDOCKing

Honorato

Roel‐Touris

Bonvin

2019

Front. Mol. Biosci.

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Modeling biomolecular assemblies is an important field in computational structural biology. The inherent complexity of their energy landscape and the computational cost associated with modeling large and complex assemblies are major drawbacks for integrative modeling approaches. The so-called coarse-graining approaches, which reduce the degrees of freedom of the system by grouping several atoms into larger “pseudo-atoms,” have been shown to alleviate some of those limitations, facilitating the identification of the global energy minima assumed to correspond to the native state of the complex, while making the calculations more efficient. Here, we describe and assess the implementation of the MARTINI force field for DNA into HADDOCK, our integrative modeling platform. We combine it with our previous implementation for protein-protein coarse-grained docking, enabling coarse-grained modeling of protein-nucleic acid complexes. The system is modeled using MARTINI topologies and interaction parameters during the rigid body docking and semi-flexible refinement stages of HADDOCK, and the resulting models are then converted back to atomistic resolution by an atom-to-bead distance restraints-guided protocol. We first demonstrate the performance of this protocol using 44 complexes from the protein-DNA docking benchmark, which shows an overall ~6-fold speed increase and maintains similar accuracy as compared to standard atomistic calculations. As a proof of concept, we then model the interaction between the PRC1 and the nucleosome (a former CAPRI target in round 31), using the same information available at the time the target was offered, and compare all-atom and coarse-grained models.

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Identification of Potential ACE2-Derived Peptide Mimetics in SARS-CoV-2 Omicron Variant Therapeutics using Computational Approaches

Paul

Nadendla

Sobhia

2022

J. Phys. Chem. Lett.

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The COVID-19 pandemic has become a global health challenge because of the emergence of distinct variants. Omicron, a new variant, is recognized as a variant of concern (VOC) by the World Health Organization (WHO) because of its higher mutations and accelerated human infection. The infection rate is strongly dependent on the binding rate of the receptor binding domain (RBD) against human angiotensin converting enzyme-2 (ACE2 human ) receptor. Inhibition of protein–protein (RBDs (SARS-CoV-2/omicron) -ACE2 human ) interaction has been already proven to inhibit viral infection. We have systematically designed ACE2 human -derived peptides and peptide mimetics that have high binding affinity toward RBD omicron . Our peptide mutational analysis indicated the influence of canonical amino acids on the peptide binding process. Herein, efforts have been made to explore the atomistic details and events of RBDs (SARS-CoV-2/omicron) -ACE2 human interactions by using molecular dynamics simulation. Our studies pave a path for developing therapeutic peptidomimetics against omicron.

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Less is more: Coarse-grained integrative modeling of large biomolecular assemblies with HADDOCK

Cited by 3 publications

References 48 publications

An overview of data-driven HADDOCK strategies in CAPRI rounds 38-45

An overview of data-driven HADDOCK strategies in CAPRI rounds 38-45

MARTINI-Based Protein-DNA Coarse-Grained HADDOCKing

Identification of Potential ACE2-Derived Peptide Mimetics in SARS-CoV-2 Omicron Variant Therapeutics using Computational Approaches

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