Site-Selective Protein Chemical Modification of Exposed Tyrosine Residues Using Tyrosine Click Reaction.
暂无分享,去创建一个
H. Ueda | M. Matsumura | T. Ueno | Hiroyuki Nakamura | Shinichi Sato | T. Kadonosono | S. Abe | Tetsuya Kadonosono
[1] K. Shimbo,et al. AJICAP: Affinity Peptide Mediated Regiodivergent Functionalization of Native Antibodies. , 2019, Angewandte Chemie.
[2] M. Kanai,et al. Electrochemical Tryptophan-Selective Bioconjugation , 2019 .
[3] Xing Jin,et al. Incorporation of non-standard amino acids into proteins: challenges, recent achievements, and emerging applications , 2019, Applied Microbiology and Biotechnology.
[4] M. Matsumura,et al. N'-acyl-N-methylphenylenediamine as a novel proximity labeling agent for signal amplification in immunohistochemistry. , 2019, Bioorganic & medicinal chemistry.
[5] M. Boujtita,et al. Electrochemically Promoted Tyrosine-Click-Chemistry for Protein Labeling. , 2018, Journal of the American Chemical Society.
[6] Jun Ohata,et al. A Three-Component Organometallic Tyrosine Bioconjugation. , 2018, Angewandte Chemie.
[7] Jun Ohata,et al. A Hexa-rhodium Metallopeptide Catalyst for Site-Specific Functionalization of Natural Antibodies. , 2017, Journal of the American Chemical Society.
[8] H. Spits,et al. Inducible, Site-Specific Protein Labeling by Tyrosine Oxidation–Strain-Promoted (4 + 2) Cycloaddition , 2017, Bioconjugate chemistry.
[9] Hiroyuki Nakamura,et al. Horseradish‐Peroxidase‐Catalyzed Tyrosine Click Reaction , 2017, Chembiochem : a European journal of chemical biology.
[10] Yohei Seki,et al. Transition Metal-Free Tryptophan-Selective Bioconjugation of Proteins. , 2016, Journal of the American Chemical Society.
[11] Lu Shin Wong,et al. An Enzyme Cascade for Selective Modification of Tyrosine Residues in Structurally Diverse Peptides and Proteins. , 2016, Journal of the American Chemical Society.
[12] Nikolaus Krall,et al. Site-selective protein-modification chemistry for basic biology and drug development. , 2016, Nature chemistry.
[13] Thomas Hoeg-Jensen,et al. Chemo- and Regioselective Ethynylation of Tryptophan-Containing Peptides and Proteins. , 2016, Chemistry.
[14] Hiroyuki Nakamura,et al. Tyrosine-Specific Chemical Modification with in Situ Hemin-Activated Luminol Derivatives. , 2015, ACS chemical biology.
[15] C. Bertozzi,et al. Site-Specific Antibody–Drug Conjugates: The Nexus of Bioorthogonal Chemistry, Protein Engineering, and Drug Development , 2014, Bioconjugate chemistry.
[16] Jolon M. Dyer,et al. Protein oxidation: identification and utilisation of molecular markers to differentiate singlet oxygen and hydroxyl radical-mediated oxidative pathways , 2013, Photochemical & photobiological sciences : Official journal of the European Photochemistry Association and the European Society for Photobiology.
[17] Hiroyuki Nakamura,et al. Ligand-directed selective protein modification based on local single-electron-transfer catalysis. , 2013, Angewandte Chemie.
[18] Allie C. Obermeyer,et al. Oxidative modification of native protein residues using cerium(IV) ammonium nitrate. , 2011, Journal of the American Chemical Society.
[19] Rajeeva Singh,et al. Synthesis and evaluation of hydrophilic linkers for antibody-maytansinoid conjugates. , 2011, Journal of medicinal chemistry.
[20] Z. Ball,et al. Proximity-driven metallopeptide catalysis: Remarkable side-chain scope enables modification of the Fos bZip domain , 2011 .
[21] M. Goto,et al. Site-specific protein cross-linking by peroxidase-catalyzed activation of a tyrosine-containing peptide tag. , 2011, Bioconjugate chemistry.
[22] F. Albericio,et al. Postsynthetic modification of peptides: chemoselective C-arylation of tryptophan residues. , 2010, Chemistry.
[23] C. Barbas,et al. Tyrosine bioconjugation through aqueous ene-type reactions: a click-like reaction for tyrosine. , 2010, Journal of the American Chemical Society.
[24] Franklin Peale,et al. Variants of the Antibody Herceptin That Interact with HER2 and VEGF at the Antigen Binding Site , 2009, Science.
[25] M. Francis,et al. Tyrosine-selective protein alkylation using pi-allylpalladium complexes. , 2006, Journal of the American Chemical Society.
[26] M. Francis,et al. Dual-surface modification of the tobacco mosaic virus. , 2005, Journal of the American Chemical Society.
[27] Neel S. Joshi,et al. A three-component Mannich-type reaction for selective tyrosine bioconjugation. , 2004, Journal of the American Chemical Society.
[28] M. Francis,et al. Selective tryptophan modification with rhodium carbenoids in aqueous solution. , 2004, Journal of the American Chemical Society.
[29] Jacob M Hooker,et al. Interior surface modification of bacteriophage MS2. , 2004, Journal of the American Chemical Society.
[30] Eldon Emberly,et al. Correlation between sequence hydrophobicity and surface‐exposure pattern of database proteins , 2003, Protein science : a publication of the Protein Society.
[31] Pinak Chakrabarti,et al. Quantifying the accessible surface area of protein residues in their local environment. , 2002, Protein engineering.
[32] G. McGaughey,et al. π-Stacking Interactions , 1998, The Journal of Biological Chemistry.
[33] B. Kalyanaraman,et al. Comparison of lignin peroxidase, horseradish peroxidase and laccase in the oxidation of methoxybenzenes. , 1990, The Biochemical journal.