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DEMO2: Assemble multi-domain protein structures by coupling analogous template alignments with deep-learning inter-domain restraint prediction

Xiaogen Zhou, Chunxiang Peng, Wei Zheng, Yang Li, Guijun Zhang, Yang Zhang

2022Nucleic Acids Research23 citationsDOIOpen Access PDF

Abstract

Most proteins in nature contain multiple folding units (or domains). The revolutionary success of AlphaFold2 in single-domain structure prediction showed potential to extend deep-learning techniques for multi-domain structure modeling. This work presents a significantly improved method, DEMO2, which integrates analogous template structural alignments with deep-learning techniques for high-accuracy domain structure assembly. Starting from individual domain models, inter-domain spatial restraints are first predicted with deep residual convolutional networks, where full-length structure models are assembled using L-BFGS simulations under the guidance of a hybrid energy function combining deep-learning restraints and analogous multi-domain template alignments searched from the PDB. The output of DEMO2 contains deep-learning inter-domain restraints, top-ranked multi-domain structure templates, and up to five full-length structure models. DEMO2 was tested on a large-scale benchmark and the blind CASP14 experiment, where DEMO2 was shown to significantly outperform its predecessor and the state-of-the-art protein structure prediction methods. By integrating with new deep-learning techniques, DEMO2 should help fill the rapidly increasing gap between the improved ability of tertiary structure determination and the high demand for the high-quality multi-domain protein structures. The DEMO2 server is available at https://zhanggroup.org/DEMO/.

Topics & Concepts

BiologyDomain (mathematical analysis)Protein domainComputational biologyCoupling (piping)BioinformaticsArtificial intelligenceGeneticsComputer scienceGeneEngineeringMathematicsMathematical analysisMechanical engineeringProtein Structure and DynamicsRNA and protein synthesis mechanismsGenomics and Phylogenetic Studies
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