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Human mitochondrial protein complexes revealed by large-scale coevolution analysis and deep learning-based structure modeling
- Publication Year :
- 2021
- Publisher :
- Cold Spring Harbor Laboratory, 2021.
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Abstract
- Motivation Recent development of deep-learning methods has led to a breakthrough in the prediction accuracy of 3D protein structures. Extending these methods to protein pairs is expected to allow large-scale detection of protein–protein interactions (PPIs) and modeling protein complexes at the proteome level. Results We applied RoseTTAFold and AlphaFold, two of the latest deep-learning methods for structure predictions, to analyze coevolution of human proteins residing in mitochondria, an organelle of vital importance in many cellular processes including energy production, metabolism, cell death and antiviral response. Variations in mitochondrial proteins have been linked to a plethora of human diseases and genetic conditions. RoseTTAFold, with high computational speed, was used to predict the coevolution of about 95% of mitochondrial protein pairs. Top-ranked pairs were further subject to modeling of the complex structures by AlphaFold, which also produced contact probability with high precision and in many cases consistent with RoseTTAFold. Most top-ranked pairs with high contact probability were supported by known PPIs and/or similarities to experimental structural complexes. For high-scoring pairs without experimental complex structures, our coevolution analyses and structural models shed light on the details of their interfaces, including CHCHD4–AIFM1, MTERF3–TRUB2, FMC1–ATPAF2 and ECSIT–NDUFAF1. We also identified novel PPIs (PYURF–NDUFAF5, LYRM1–MTRF1L and COA8–COX10) for several proteins without experimentally characterized interaction partners, leading to predictions of their molecular functions and the biological processes they are involved in. Availability and implementation Data of mitochondrial proteins and their interactions are available at: http://conglab.swmed.edu/mitochondria. Supplementary information Supplementary data are available at Bioinformatics online.
- Subjects :
- Statistics and Probability
Proteome
business.industry
Scale (chemistry)
Deep learning
Computational Biology
Computational biology
Mitochondrion
Biology
Biochemistry
Computer Science Applications
Mitochondrial Proteins
Computational Mathematics
Deep Learning
Protein structure
Computational Theory and Mathematics
Humans
Artificial intelligence
business
Molecular Biology
Mitochondrial protein
Human proteins
Coevolution
Subjects
Details
- Database :
- OpenAIRE
- Accession number :
- edsair.doi.dedup.....f88a34627acd668061119e18770d1e1d