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Protein remote homology detection and structural alignment using deep learning

Tymor Hamamsy, James T. Morton, Robert Blackwell, Daniel Berenberg, Nicholas Carriero, Vladimir Gligorijević, Charlie E. M. Strauss, Julia Koehler Leman, Kyunghyun Cho, Richard Bonneau

2023Nature Biotechnology150 citationsDOIOpen Access PDF

Abstract

Exploiting sequence-structure-function relationships in biotechnology requires improved methods for aligning proteins that have low sequence similarity to previously annotated proteins. We develop two deep learning methods to address this gap, TM-Vec and DeepBLAST. TM-Vec allows searching for structure-structure similarities in large sequence databases. It is trained to accurately predict TM-scores as a metric of structural similarity directly from sequence pairs without the need for intermediate computation or solution of structures. Once structurally similar proteins have been identified, DeepBLAST can structurally align proteins using only sequence information by identifying structurally homologous regions between proteins. It outperforms traditional sequence alignment methods and performs similarly to structure-based alignment methods. We show the merits of TM-Vec and DeepBLAST on a variety of datasets, including better identification of remotely homologous proteins compared with state-of-the-art sequence alignment and structure prediction methods.

Topics & Concepts

Sequence alignmentComputational biologySequence (biology)Protein superfamilySimilarity (geometry)Structural alignmentHomology modelingSequence homologyComputer scienceStructural similarityAlignment-free sequence analysisLoop modelingHomology (biology)Protein structureMetric (unit)Structural motifArtificial intelligenceProtein sequencingSequence motifPeptide sequenceBiologyProtein structure predictionGeneticsAmino acidGeneImage (mathematics)BiochemistryEngineeringEnzymeOperations managementProtein Structure and DynamicsMachine Learning in BioinformaticsGenomics and Phylogenetic Studies
Protein remote homology detection and structural alignment using deep learning | Litcius