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Microsoft AI Research Introduce a Novel Deep Learning Framework Called Distributional Graphormer (DiG) to Predict the Equilibrium Distribution of Molecular Systems. Dhanshree Shripad Shenwai Artificial Intelligence Category – MarkTechPost

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A molecule’s structure dictates its properties and functions. That is why structure prediction is a major issue in molecular science. Molecular scientists are hailing the breakthrough accuracy of deep learning approaches like AlphaFold and RoseTTAFold in identifying the most probable structures for proteins from their amino acid sequences. However, structural prediction can only provide a partial picture of a protein’s function, and this method only delivers a single snapshot.

Recent Microsoft research provides Distributional Graphormer (DiG), a novel deep learning framework for equilibrium distribution-based protein structure prediction. It hopes to solve this fundamental problem and give molecular science a boost. DiG is a major step forward in modeling ensembles of structures according to equilibrium distributions, as opposed to just one. Because of its ability to anticipate distributions, statistical mechanics and thermodynamics, which regulate molecular systems at the microscopic level, can be applied to their macroscopic aspects.

DiG improves upon their prior work, Graphormer, a general-purpose graph transformer that can accurately describe molecular structures, to provide a new approach to distribution prediction. DiG, an improved version of Graphormer, can now directly forecast target distribution from fundamental molecular descriptors by employing deep neural networks, a new and powerful capacity.

 It is predicated on the concept of simulated annealing, a well-established technique in thermodynamics and optimization that has inspired the creation of diffusion models that have led to significant advances in the field of artificially generated content (AIGC) in recent years. Through the modeling of an annealing process, a simple distribution is gradually refined to build a complex distribution by allowing it to explore and settle in the most probable states. DiG is a deep learning framework for molecular systems that simulates this procedure. Diffusion models, originating in statistical mechanics and thermodynamics, are frequently used as the basis for AIGC models.

Using Graphormer to convert a simple distribution into a complex distribution, DiG is based on diffusion. The data or information used to train DiG is flexible. By minimizing the difference between the energy-based probabilities and the probabilities predicted by DiG, energy functions of molecular systems can be used by DiG to steer transformation. To teach DiG, this method can draw on the system’s existing knowledge.

Through a series of molecular sampling tasks spanning a wide variety of molecular systems, including proteins, protein-ligand complexes, and catalyst-adsorbate systems, the team demonstrates the efficacy and promise of DiG. The findings show that DiG not only efficiently and cheaply produces realistic and varied molecular structures but also provides estimates of state densities, which are essential for computing macroscopic attributes using statistical mechanics.

The team believes that DiG represents a major step forward in quantitatively analyzing microscopic molecules and predicting their macroscopic features, paving the way for many fascinating new lines of inquiry in molecular science.

Check out the Paper and Reference Article. Don’t forget to join our 26k+ ML SubRedditDiscord Channel, and Email Newsletter, where we share the latest AI research news, cool AI projects, and more. If you have any questions regarding the above article or if we missed anything, feel free to email us at Asif@marktechpost.com

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The post Microsoft AI Research Introduce a Novel Deep Learning Framework Called Distributional Graphormer (DiG) to Predict the Equilibrium Distribution of Molecular Systems. appeared first on MarkTechPost.

 A molecule’s structure dictates its properties and functions. That is why structure prediction is a major issue in molecular science. Molecular scientists are hailing the breakthrough accuracy of deep learning approaches like AlphaFold and RoseTTAFold in identifying the most probable structures for proteins from their amino acid sequences. However, structural prediction can only provide a
The post Microsoft AI Research Introduce a Novel Deep Learning Framework Called Distributional Graphormer (DiG) to Predict the Equilibrium Distribution of Molecular Systems. appeared first on MarkTechPost.  Read More AI Shorts, Applications, Artificial Intelligence, Deep Learning, Editors Pick, Staff, Tech News, Technology, Uncategorized 

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