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Journal Abstract Search

193 related items for PubMed ID: 25571984

  • 1. Rational targeting of active-site tyrosine residues using sulfonyl fluoride probes.
    Hett EC, Xu H, Geoghegan KF, Gopalsamy A, Kyne RE, Menard CA, Narayanan A, Parikh MD, Liu S, Roberts L, Robinson RP, Tones MA, Jones LH.
    ACS Chem Biol; 2015 Apr 17; 10(4):1094-8. PubMed ID: 25571984
    [Abstract] [Full Text] [Related]

  • 2. Cellular thermal shift and clickable chemical probe assays for the determination of drug-target engagement in live cells.
    Xu H, Gopalsamy A, Hett EC, Salter S, Aulabaugh A, Kyne RE, Pierce B, Jones LH.
    Org Biomol Chem; 2016 Jul 14; 14(26):6179-83. PubMed ID: 27216142
    [Abstract] [Full Text] [Related]

  • 3. Covalent Enzyme Inhibition through Fluorosulfate Modification of a Noncatalytic Serine Residue.
    Fadeyi OO, Hoth LR, Choi C, Feng X, Gopalsamy A, Hett EC, Kyne RE, Robinson RP, Jones LH.
    ACS Chem Biol; 2017 Aug 18; 12(8):2015-2020. PubMed ID: 28718624
    [Abstract] [Full Text] [Related]

  • 4. Quantifying drug-target engagement in live cells using sulfonyl fluoride chemical probes.
    Jones LH, Xu H, Fadeyi OO.
    Methods Enzymol; 2019 Aug 18; 622():201-220. PubMed ID: 31155053
    [Abstract] [Full Text] [Related]

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  • 6. Selectivity Determination of a Small Molecule Chemical Probe Using Protein Microarray and Affinity Capture Techniques.
    Hett EC, Kyne RE, Gopalsamy A, Tones MA, Xu H, Thio GL, Nolan E, Jones LH.
    ACS Comb Sci; 2016 Oct 10; 18(10):611-615. PubMed ID: 27494431
    [Abstract] [Full Text] [Related]

  • 7. A library approach to rapidly discover photoaffinity probes of the mRNA decapping scavenger enzyme DcpS.
    Xu H, Hett EC, Gopalsamy A, Parikh MD, Geoghegan KF, Kyne RE, Menard CA, Narayanan A, Robinson RP, Johnson DS, Tones MA, Jones LH.
    Mol Biosyst; 2015 Oct 10; 11(10):2709-12. PubMed ID: 25959423
    [Abstract] [Full Text] [Related]

  • 8. Chemoselective Preparation of Clickable Aryl Sulfonyl Fluoride Monomers: A Toolbox of Highly Functionalized Intermediates for Chemical Biology Probe Synthesis.
    Fadeyi O, Parikh MD, Chen MZ, Kyne RE, Taylor AP, O'Doherty I, Kaiser SE, Barbas S, Niessen S, Shi M, Weinrich SL, Kath JC, Jones LH, Robinson RP.
    Chembiochem; 2016 Oct 17; 17(20):1925-1930. PubMed ID: 27504718
    [Abstract] [Full Text] [Related]

  • 9. Chemical proteomics with sulfonyl fluoride probes reveals selective labeling of functional tyrosines in glutathione transferases.
    Gu C, Shannon DA, Colby T, Wang Z, Shabab M, Kumari S, Villamor JG, McLaughlin CJ, Weerapana E, Kaiser M, Cravatt BF, van der Hoorn RA.
    Chem Biol; 2013 Apr 18; 20(4):541-8. PubMed ID: 23601643
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  • 11. Activation-Free Sulfonyl Fluoride Probes for Fragment Screening.
    Petri L, Ábrányi-Balogh P, Csorba N, Keeley A, Simon J, Ranđelović I, Tóvári J, Schlosser G, Szabó D, Drahos L, Keserű GM.
    Molecules; 2023 Mar 29; 28(7):. PubMed ID: 37049805
    [Abstract] [Full Text] [Related]

  • 12. Broad-Spectrum Kinase Profiling in Live Cells with Lysine-Targeted Sulfonyl Fluoride Probes.
    Zhao Q, Ouyang X, Wan X, Gajiwala KS, Kath JC, Jones LH, Burlingame AL, Taunton J.
    J Am Chem Soc; 2017 Jan 18; 139(2):680-685. PubMed ID: 28051857
    [Abstract] [Full Text] [Related]

  • 13. Global targeting of functional tyrosines using sulfur-triazole exchange chemistry.
    Hahm HS, Toroitich EK, Borne AL, Brulet JW, Libby AH, Yuan K, Ware TB, McCloud RL, Ciancone AM, Hsu KL.
    Nat Chem Biol; 2020 Feb 18; 16(2):150-159. PubMed ID: 31768034
    [Abstract] [Full Text] [Related]

  • 14. Fatty Acyl Sulfonyl Fluoride as an Activity-Based Probe for Profiling Fatty Acid-Associated Proteins in Living Cells.
    Zhang D, Lu M, Chen C, Xu Y, Peng T.
    Chembiochem; 2022 Feb 16; 23(4):e202100628. PubMed ID: 34918441
    [Abstract] [Full Text] [Related]

  • 15. Chemoenzymatic synthesis of 6-phospho-cyclophellitol as a novel probe of 6-phospho-β-glucosidases.
    Kwan DH, Jin Y, Jiang J, Chen HM, Kötzler MP, Overkleeft HS, Davies GJ, Withers SG.
    FEBS Lett; 2016 Feb 16; 590(4):461-8. PubMed ID: 26790390
    [Abstract] [Full Text] [Related]

  • 16. Crystal structures of human DcpS in ligand-free and m7GDP-bound forms suggest a dynamic mechanism for scavenger mRNA decapping.
    Chen N, Walsh MA, Liu Y, Parker R, Song H.
    J Mol Biol; 2005 Apr 08; 347(4):707-18. PubMed ID: 15769464
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  • 18. A study of the reactivity of S(VI)-F containing warheads with nucleophilic amino-acid side chains under physiological conditions.
    Mukherjee H, Debreczeni J, Breed J, Tentarelli S, Aquila B, Dowling JE, Whitty A, Grimster NP.
    Org Biomol Chem; 2017 Nov 22; 15(45):9685-9695. PubMed ID: 29119993
    [Abstract] [Full Text] [Related]

  • 19. DcpS as a therapeutic target for spinal muscular atrophy.
    Singh J, Salcius M, Liu SW, Staker BL, Mishra R, Thurmond J, Michaud G, Mattoon DR, Printen J, Christensen J, Bjornsson JM, Pollok BA, Kiledjian M, Stewart L, Jarecki J, Gurney ME.
    ACS Chem Biol; 2008 Nov 21; 3(11):711-22. PubMed ID: 18839960
    [Abstract] [Full Text] [Related]

  • 20. A fluorescent HTS assay for phosphohydrolases based on nucleoside 5'-fluorophosphates: its application in screening for inhibitors of mRNA decapping scavenger and PDE-I.
    Baranowski MR, Nowicka A, Jemielity J, Kowalska J.
    Org Biomol Chem; 2016 May 18; 14(20):4595-604. PubMed ID: 27031609
    [Abstract] [Full Text] [Related]

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