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8 results on '"Morales-Pastor, Adrian"'

1. Character-level Tokenizations as Powerful Inductive Biases for RNA Foundational Models

Author

Morales-Pastor, Adrián, Vázquez-Reza, Raquel, Wieczór, Miłosz, Valverde, Clàudia, Gil-Sorribes, Manel, Miquel-Oliver, Bertran, Ciudad, Álvaro, and Molina, Alexis

Subjects
Quantitative Biology - Quantitative Methods, Computer Science - Artificial Intelligence, Computer Science - Machine Learning, Quantitative Biology - Biomolecules
Abstract

RNA is a vital biomolecule with numerous roles and functions within cells, and interest in targeting it for therapeutic purposes has grown significantly in recent years. However, fully understanding and predicting RNA behavior, particularly for applications in drug discovery, remains a challenge due to the complexity of RNA structures and interactions. While foundational models in biology have demonstrated success in modeling several biomolecules, especially proteins, achieving similar breakthroughs for RNA has proven more difficult. Current RNA models have yet to match the performance observed in the protein domain, leaving an important gap in computational biology. In this work, we present ChaRNABERT, a suite of sample and parameter-efficient RNA foundational models, that through a learnable tokenization process, are able to reach state-of-the-art performance on several tasks in established benchmarks. We extend its testing in relevant downstream tasks such as RNA-protein and aptamer-protein interaction prediction. Weights and inference code for ChaRNABERT-8M will be provided for academic research use. The other models will be available upon request., Comment: First version. Work in progress

Published
2024

2. Scoreformer: A Surrogate Model For Large-Scale Prediction of Docking Scores

Author

Ciudad, Álvaro, Morales-Pastor, Adrián, Malo, Laura, Filella-Mercè, Isaac, Guallar, Victor, and Molina, Alexis

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Quantitative Biology - Biomolecules
Abstract

In this study, we present ScoreFormer, a novel graph transformer model designed to accurately predict molecular docking scores, thereby optimizing high-throughput virtual screening (HTVS) in drug discovery. The architecture integrates Principal Neighborhood Aggregation (PNA) and Learnable Random Walk Positional Encodings (LRWPE), enhancing the model's ability to understand complex molecular structures and their relationship with their respective docking scores. This approach significantly surpasses traditional HTVS methods and recent Graph Neural Network (GNN) models in both recovery and efficiency due to a wider coverage of the chemical space and enhanced performance. Our results demonstrate that ScoreFormer achieves competitive performance in docking score prediction and offers a substantial 1.65-fold reduction in inference time compared to existing models. We evaluated ScoreFormer across multiple datasets under various conditions, confirming its robustness and reliability in identifying potential drug candidates rapidly., Comment: Accepted at the 1st Machine Learning for Life and Material Sciences Workshop at ICML 2024

Published
2024

3. Simulating Time-Resolved Dynamics of Biomolecular Systems

Author

Aranda-Garcia, David, primary, Torrens-Fontanals, Mariona, additional, Medel-Lacruz, Brian, additional, Lopez-Balastegui, Marta, additional, Peralta-García, Alejandro, additional, Dieguez-Eceolaza, Miguel, additional, Morales-Pastor, Adrian, additional, Sotillo-Núñez, David, additional, Abbondandolo, Davide, additional, Stępniewski, Tomasz Maciej, additional, and Selent, Jana, additional

Published
2022
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4. Multiple triggers converge to preferential effector coupling in the CB2R through a complex allosteric communication network

Author

Morales-Pastor, Adrian, primary, Miljus, Tamara, additional, Stepniewski, Tomasz Maciej, additional, Ledesma, Vicente, additional, Heydenreich, Franziska, additional, Flock, Tilman, additional, Plouffe, Bianca, additional, Le Gouill, Christian, additional, Duchaine, Jean, additional, Guba, Wolfgang, additional, Rufer, Arne, additional, Grether, Uwe, additional, Bouvier, Michel, additional, Veprintsev, Dmitry, additional, and Selent, Jana, additional

Published
2024
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7. GPCRmd uncovers the dynamics of the 3D-GPCRome

Author

Rodriguez-Espigares, Ismael, Torrens-Fontanals, Mariona, Tiemann, Johanna K. S., Aranda-Garcia, David, Manuel Ramirez-Anguita, Juan, Stepniewski, Tomasz Maciej, Worp, Nathalie, Varela-Rial, Alejandro, Morales-Pastor, Adrian, Medel-Lacruz, Brian, Pandy-Szekeres, Gaspar, Mayol, Eduardo, Giorgino, Toni, Carlsson, Jens, Deupi, Xavier, Filipek, Slawomir, Filizola, Marta, Carlos Gomez-Tamayo, Jose, Gonzalez, Angel, Gutiérrez-de-Terán, Hugo, Jimenez-Roses, Mireia, Jespers, Willem, Kapla, Jon, Khelashvili, George, Kolb, Peter, Latek, Dorota, Marti-Solano, Maria, Matricon, Pierre, Matsoukas, Minos-Timotheos, Miszta, Przemyslaw, Olivella, Mireia, Perez-Benito, Laura, Provasi, Davide, Rios, Santiago, Torrecillas, Ivan R., Sallander, Jessica, Sztyler, Agnieszka, Vasile, Silvana, Weinstein, Harel, Zachariae, Ulrich, Hildebrand, Peter W., De Fabritiis, Gianni, Sanz, Ferran, Gloriam, David E., Cordomi, Arnau, Guixa-Gonzalez, Ramon, Selent, Jana, Rodriguez-Espigares, Ismael, Torrens-Fontanals, Mariona, Tiemann, Johanna K. S., Aranda-Garcia, David, Manuel Ramirez-Anguita, Juan, Stepniewski, Tomasz Maciej, Worp, Nathalie, Varela-Rial, Alejandro, Morales-Pastor, Adrian, Medel-Lacruz, Brian, Pandy-Szekeres, Gaspar, Mayol, Eduardo, Giorgino, Toni, Carlsson, Jens, Deupi, Xavier, Filipek, Slawomir, Filizola, Marta, Carlos Gomez-Tamayo, Jose, Gonzalez, Angel, Gutiérrez-de-Terán, Hugo, Jimenez-Roses, Mireia, Jespers, Willem, Kapla, Jon, Khelashvili, George, Kolb, Peter, Latek, Dorota, Marti-Solano, Maria, Matricon, Pierre, Matsoukas, Minos-Timotheos, Miszta, Przemyslaw, Olivella, Mireia, Perez-Benito, Laura, Provasi, Davide, Rios, Santiago, Torrecillas, Ivan R., Sallander, Jessica, Sztyler, Agnieszka, Vasile, Silvana, Weinstein, Harel, Zachariae, Ulrich, Hildebrand, Peter W., De Fabritiis, Gianni, Sanz, Ferran, Gloriam, David E., Cordomi, Arnau, Guixa-Gonzalez, Ramon, and Selent, Jana

Abstract

G-protein-coupled receptors (GPCRs) are involved in numerous physiological processes and are the most frequent targets of approved drugs. The explosion in the number of new three-dimensional (3D) molecular structures of GPCRs (3D-GPCRome) over the last decade has greatly advanced the mechanistic understanding and drug design opportunities for this protein family. Molecular dynamics (MD) simulations have become a widely established technique for exploring the conformational landscape of proteins at an atomic level. However, the analysis and visualization of MD simulations require efficient storage resources and specialized software. Here we present GPCRmd (http://gpcrmd.org/), an online platform that incorporates web-based visualization capabilities as well as a comprehensive and user-friendly analysis toolbox that allows scientists from different disciplines to visualize, analyze and share GPCR MD data. GPCRmd originates from a community-driven effort to create an open, interactive and standardized database of GPCR MD simulations.

Published
2020
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8. Simulating Time-Resolved Dynamics of Biomolecular Systems

Author

Aranda-Garcia, David, Torrens-Fontanals, Mariona, Medel-Lacruz, Brian, Lopez-Balastegui, Marta, Peralta-García, Alejandro, Dieguez-Eceolaza, Miguel, Morales-Pastor, Adrian, Sotillo-Núñez, David, Abbondandolo, Davide, Stępniewski, Tomasz Maciej, and Selent, Jana

Published
2015
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