🧬 Biotech is one of the fastest growing industry segments on Modal. The team at Chai Discovery uses Modal to build state-of-the-art computational bio models. Last week, they updated the license of their Chai-1 molecular structure prediction model so that it can be used commercially. Today, we added a detailed example on how you can run this model yourself on Modal! If you're a biotech company looking to speed up batch data preprocessing or parallelize experimentation on GPUs, we'd love to chat!
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DiffDock predicts the 3D structure of how a molecule interacts with a protein. You can try a runtime NIM DiffDock here :)
Now available – DiffDock 2.0 NIM ➡️ https://nvda.ws/40LMMNy This latest #NVIDIANIM update offers computational chemists and researchers a significant boost with 16% improved accuracy in identifying potential protein-small molecule interactions. Speeding up the process of finding good clinical trial candidates by training with PLINDER, the largest dataset of its kind, saves money and time. #drugdiscovery #healthcare
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Proud to be part of the team at Fovus as we continue to revolutionize computational drug discovery! 🚀 Our collaboration with Chemspace is a testament to the power of Molecular Dynamics Simulation and AI-driven HPC strategies in transforming protein-ligand interaction studies. The result? Deeper insights and accelerated breakthroughs in drug development. 💊 Check out the full article below to learn more about how we’re pushing the boundaries of innovation. #ComputationalChemistry #DrugDiscovery #AI #HPC #MolecularDynamics #Biotech #CloudComputing #Chemspace #Fovus
🚀 Revolutionizing Computational Drug Discovery with Chemspace & Fovus 💊 Check out the full article here: 🔗 https://lnkd.in/g9DCAqHw Chemspace and Fovus are transforming the landscape of computational chemistry with cutting-edge innovations. With Molecular Dynamics Simulation and AI-driven HPC strategy optimization, Fovus optimizes Chemspace's protein-ligand interaction studies, providing deeper insights for drug development. #ComputationalChemistry #DrugDiscovery #AI #HPC #MolecularDynamics #Biotech #CloudComputing #Chemspace #Fovus
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By automating image acquisition and analysis, researchers can gain deeper insights into cellular dynamics, optimise culture conditions, and ensure reproducibility across experiments. Automated imaging tools can provide researchers with valuable information. In this free compendium, get a better understanding of quantitative imaging-based methods designed to provide accurate and objective evaluation of a number of important variables that contribute to experimental results. Download it here: https://buff.ly/3xqpcsV #ChemetrixAcademy #CellCulture #AutomatedImaging #Agilent #CellAssay #CellAnalysis #AnalyticalInstruments #Laboratory
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Excited to share my master's thesis work with Chris Kim, Nazim Bouatta, and Mohammed AlQuraishi: QuickBind, a light-weight and interpretable molecular docking model (https://lnkd.in/dHtW5GXE). I presented QuickBind in a Spotlight Presentation at MLCB 2024 in Seattle, and it will be published in the corresponding volume of PMLR. 🔬 QuickBind predicts how a small molecule will bind to a target protein, a key component of early-stage computational drug discovery. ⚖️ We assessed QuickBind on widely used benchmarks and found that it provides an attractive trade-off between model accuracy and runtime. 💊 To facilitate high-throughput virtual screening applications, we augmented QuickBind with a binding affinity module and demonstrate its capabilities for multiple clinically-relevant drug targets. 🔍 We investigated the mechanistic basis by which QuickBind makes predictions and found that it has learned key physicochemical properties of molecular docking. 🚀 By virtue of its simplicity, QuickBind can serve as both an effective virtual screening tool and a minimal test bed for exploring new model architectures and innovations.
QuickBind: A Light-Weight And Interpretable Molecular Docking Model
arxiv.org
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One of the challenges when studying cell division is identifying and isolating at each stage without blocking the cell cycle. CellView™ Image Technology is a novel high-speed tool that improves the view of cell sorting at all major mitotic phases, without the need for chemical enrichment and in ways that were previously inaccessible [1]. Discover more about BD CellView™ Image Technology on our website 👉 https://lnkd.in/eF6uHq7k 1. Schraivogel D, Kuhn TM, Rauscher B, et al. High-speed fluorescence image-enabled cell sorting. Science. 2022;375(6578):315–320. #BDCellViewTechnology #SpectralFlowCytometry #Spectral #ImagingFlowCytometry #CellSorting #SingleCellAnalysis #BDBiosciences
BD CellView™ Image Technology
bdbiosciences.com
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Unlock the future of biomedical product regulation! Join the virtual book launch for 'Toward Good Simulation Practice' on May 8th at 9:30 AM EDT — a comprehensive guide to leveraging computational modeling and simulation in regulatory processes.
Toward Good Simulation Practice - Virtual Book Launch
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Unlock the future of biomedical product regulation! Join the virtual book launch for 'Toward Good Simulation Practice' on May 8th at 9:30 AM EDT — a comprehensive guide to leveraging computational modeling and simulation in regulatory processes.
Toward Good Simulation Practice - Virtual Book Launch
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Unlock the future of biomedical product regulation! Join the virtual book launch for 'Toward Good Simulation Practice' on May 8th at 9:30 AM EDT — a comprehensive guide to leveraging computational modeling and simulation in regulatory processes.
Toward Good Simulation Practice - Virtual Book Launch
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Is it possible to restore vision simply by stimulating the brain's visual cortex? With Neuralink's Blindsight technology having recently being granted the Breakthrough Device Designation by the Food and Drug Administration (FDA), we can expect rapid developments in the field. Blindsight is expected to restore vision by allowing individuals to visualize low resolution images. But some have hinted that in the future, these images may actually be of higher resolution than what is possible with natural vision. While we may not be quite there yet, is it possible that we will one day be capable of seeing wavelengths beyond the visible spectrum? Tune in to our new episode released today to find out!
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Unlock the future of biomedical product regulation! Join the virtual book launch for 'Toward Good Simulation Practice' on May 8th at 9:30 AM EDT — a comprehensive guide to leveraging computational modeling and simulation in regulatory processes.
Toward Good Simulation Practice - Virtual Book Launch
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https://modal.com/docs/examples/chai1 🧪