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Journal Abstract Search

296 related items for PubMed ID: 21983555

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  • 2. Differential redox proteomics allows identification of proteins reversibly oxidized at cysteine residues in endothelial cells in response to acute hypoxia.
    Izquierdo-Álvarez A, Ramos E, Villanueva J, Hernansanz-Agustín P, Fernández-Rodríguez R, Tello D, Carrascal M, Martínez-Ruiz A.
    J Proteomics; 2012 Sep 18; 75(17):5449-62. PubMed ID: 22800641
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  • 4. Site-Specific Proteomic Mapping of Modified Cysteine Residues.
    Gould NS.
    Methods Mol Biol; 2019 Sep 18; 1967():183-195. PubMed ID: 31069771
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  • 6. Quantitative proteomics by fluorescent labeling of cysteine residues using a set of two cyanine-based or three rhodamine-based dyes.
    Volke D, Hoffmann R.
    Electrophoresis; 2008 Nov 18; 29(22):4516-26. PubMed ID: 19035404
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  • 11. Proteomics approaches to study the redox state of cysteine-containing proteins.
    Camerini S, Polci ML, Bachi A.
    Ann Ist Super Sanita; 2005 Nov 18; 41(4):451-7. PubMed ID: 16569913
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  • 12. Proteomic approaches to quantify cysteine reversible modifications in aging and neurodegenerative diseases.
    Gu L, Robinson RA.
    Proteomics Clin Appl; 2016 Dec 18; 10(12):1159-1177. PubMed ID: 27666938
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  • 14. Click-PEGylation - A mobility shift approach to assess the redox state of cysteines in candidate proteins.
    van Leeuwen LAG, Hinchy EC, Murphy MP, Robb EL, Cochemé HM.
    Free Radic Biol Med; 2017 Jul 18; 108():374-382. PubMed ID: 28366801
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  • 17. Oxidative stress, thiols, and redox profiles.
    Harris C, Hansen JM.
    Methods Mol Biol; 2012 Jul 18; 889():325-46. PubMed ID: 22669675
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  • 20. Thiol redox proteomics: Characterization of thiol-based post-translational modifications.
    Li X, Gluth A, Zhang T, Qian WJ.
    Proteomics; 2023 Jul 18; 23(13-14):e2200194. PubMed ID: 37248656
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