Search results for "Methionine sulfoxide"

showing 2 items of 2 documents

Coping with Oxygen

2010

Sometime before 2.7 BYA, a new and biologically toxic substance began to appear in the environment. Biologically produced dioxygen, O2, probably first began to accumulate in small pools or layers above cyanobacterial mats. These photosynthesizers must have already developed ways to at least partially deal with dioxygen and, with greater difficulty, the reactive oxygen species (ROS) derived from it (see Chap. 1 and below). But for primitive anaerobes in the vicinity, these new substances must have been especially toxic. Nevertheless, it is clear that they evolved ways to cope with the new threats. One way was to simply avoid dioxygen altogether.

chemistry.chemical_classificationCoping (psychology)chemistry.chemical_compoundReactive oxygen speciesBiochemistrychemistryMethionine sulfoxideMethionine sulfoxide reductasechemistry.chemical_elementToxic substanceOxygen
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Profiling Dopamine-Induced Oxidized Proteoforms of β-synuclein by Top-Down Mass Spectrometry

2021

The formation of multiple proteoforms by post-translational modifications (PTMs) enables a single protein to acquire distinct functional roles in its biological context. Oxidation of methionine residues (Met) is a common PTM, involved in physiological (e.g., signaling) and pathological (e.g., oxidative stress) states. This PTM typically maps at multiple protein sites, generating a heterogeneous population of proteoforms with specific biophysical and biochemical properties. The identification and quantitation of the variety of oxidized proteoforms originated under a given condition is required to assess the exact molecular nature of the species responsible for the process under investigation…

β synucleinPhysiologyClinical BiochemistryContext (language use)RM1-950Mass spectrometryProtein oxidationBiochemistryArticlechemistry.chemical_compoundDopamine oxidationDopamineSettore BIO/10 - BiochimicamedicineTop-down mass spectrometryFragmentation (cell biology)Proteoforms relative quantitationMolecular BiologyHuman β-synucleinMethionineMethionine sulfoxideCell BiologychemistryBiochemistryTherapeutics. PharmacologyMethionine sulfoxidemedicine.drug
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