MitImpact 3: modeling the residue interaction network of the Respiratory Chain subunits
Copyright policy )MitImpact 3: modeling the residue interaction network of the Respiratory Chain subunits
Abstract Numerous lines of evidence have shown that the interaction between the nuclear and mitochondrial genomes ensures the efficient functioning of the OXPHOS complexes, with substantial implications in bioenergetics, adaptation, and disease. Their interaction is a fascinating and complex trait of the eukaryotic cell that MitImpact explores with its third major release. MitImpact expands its collection of genomic, clinical, and functional annotations of all non-synonymous substitutions of the human mitochondrial genome with new information on putative Compensated Pathogenic Deviations and co-varying amino acid sites of the Respiratory Chain subunits. It further provides evidence of energetic and structural residue compensation by techniques of molecular dynamics simulation. MitImpact is freely accessible at http://mitimpact.css-mendel.it.
- Casa Sollievo della Sofferenza Italy
- Roma Tre University Italy
- Sapienza University of Rome Italy
- University of Milano-Bicocca Italy
Models, Molecular, Primates, Mitochondrial Diseases, Rodentia, Oxidative Phosphorylation, Protein Structure, Secondary, Electron Transport, Mitochondrial Proteins, amino acid substitution; animals; cetacea; electron transport; electron transport chain complex proteins; gene ontology, OXPHOS complexes, nuclear and mitochondrial genomes, MitImpact;, Database Issue, Animals, Humans, Protein Interaction Domains and Motifs, Internet, Molecular Sequence Annotation, Mitochondria, Protein Subunits, Gene Ontology, Amino Acid Substitution, Electron Transport Chain Complex Proteins, Mutation, Cetacea
Models, Molecular, Primates, Mitochondrial Diseases, Rodentia, Oxidative Phosphorylation, Protein Structure, Secondary, Electron Transport, Mitochondrial Proteins, amino acid substitution; animals; cetacea; electron transport; electron transport chain complex proteins; gene ontology, OXPHOS complexes, nuclear and mitochondrial genomes, MitImpact;, Database Issue, Animals, Humans, Protein Interaction Domains and Motifs, Internet, Molecular Sequence Annotation, Mitochondria, Protein Subunits, Gene Ontology, Amino Acid Substitution, Electron Transport Chain Complex Proteins, Mutation, Cetacea
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