Litcius/Paper detail

Next Generation Protein Structure Predictions and Genetic Variant Interpretation

Gaurav D. Diwan, Juan Carlos González‐Sánchez, Gordana Apic, Robert B. Russell

2021Journal of Molecular Biology33 citationsDOIOpen Access PDF

Abstract

The need to make sense of the thousands of genetic variants uncovered every day in terms of pathology or biological mechanism is acute. Many insights into how genetic changes impact protein function can be gleaned if three-dimensional structures of the associated proteins are available. The availability of a highly accurate method of predicting structures from amino acid sequences (e.g. Alphafold2) is thus potentially a great boost to those wanting to understand genetic changes. In this paper we discuss the current state of protein structures known for the human and other proteomes and how Alphafold2 might impact on variant interpretation efforts. For the human proteome in particular, the state of the available structural data suggests that the impact on variant interpretation might be less than anticipated. We also discuss additional efforts in structure prediction that could further aid the understanding of genetic variants.

Topics & Concepts

ProteomeInterpretation (philosophy)Computational biologyFunction (biology)BiologyProtein structureProtein functionHuman proteome projectComputer scienceBioinformaticsEvolutionary biologyGeneticsProteomicsGeneBiochemistryProgramming languageGenomics and Phylogenetic StudiesMachine Learning in BioinformaticsRNA and protein synthesis mechanisms
Next Generation Protein Structure Predictions and Genetic Variant Interpretation | Litcius