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The Effect of the Ala16Val Mutation on the Secondary Structure of the Manganese Superoxide Dismutase Mitochondrial Targeting Sequence

Matic Broz, Veronika Furlan, Samo Lešnik, Marko Jukič, Urban Bren

2022Antioxidants14 citationsDOIOpen Access PDF

Abstract

Manganese Superoxide Dismutase (MnSOD) represents a mitochondrial protein that scavenges reactive oxygen species (ROS) responsible for oxidative stress. A known single nucleotide polymorphism (SNP) rs4880 on the SOD2 gene, causing a mutation from alanine to valine (Ala16Val) in the primary structure of immature MnSOD, has been associated with several types of cancer and other autoimmune diseases. However, no conclusive correlation has been established yet. This study aims to determine the effect of the alanine to valine mutation on the secondary structure of the MnSOD mitochondrial targeting sequence (MTS). A model for each variant of the MTS was prepared and extensively simulated with molecular dynamics simulations using the CHARMM36m force field. The results indicate that the alanine variant of the MTS preserves a uniform α-helical secondary structure favorable for the protein transport into mitochondria, whereas the valine variant quickly breaks down its α-helix. Thus, the alanine MTS represents the more active MnSOD variant, the benefits of which have yet to be determined experimentally.

Topics & Concepts

SOD2Superoxide dismutaseAlanineValineReactive oxygen speciesBiologyMutationProtein secondary structurePoint mutationMolecular biologyMitochondrionBiochemistryGeneticsOxidative stressChemistryGeneAmino acidMitochondrial Function and PathologyGlutathione Transferases and PolymorphismsATP Synthase and ATPases Research
The Effect of the Ala16Val Mutation on the Secondary Structure of the Manganese Superoxide Dismutase Mitochondrial Targeting Sequence | Litcius