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Journal Abstract Search

172 related items for PubMed ID: 33503098

  • 21. A novel molybdenum disulfide nanosheet loaded Titanium/Zirconium bimetal oxide affinity probe for efficient enrichment of phosphopeptides in A549 cells.
    Ma ZQ, Wang YH, Peng Y, Guo X, Meng Z.
    J Chromatogr B Analyt Technol Biomed Life Sci; 2022 May 30; 1199():123235. PubMed ID: 35447520
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  • 22. Facile synthesis of guanidyl-based magnetic ionic covalent organic framework composites for selective enrichment of phosphopeptides.
    Xiong F, Jiang L, Jia Q.
    Anal Chim Acta; 2020 Feb 22; 1099():103-110. PubMed ID: 31986266
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  • 26. Dual metal cations coated magnetic mesoporous silica probe for highly selective capture of endogenous phosphopeptides in biological samples.
    Hu X, Li Y, Miao A, Deng C.
    Mikrochim Acta; 2020 Jun 22; 187(7):400. PubMed ID: 32572637
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  • 27. Bifunctional MNPs@UIO-66-Arg core-shell-satellite nanocomposites for enrichment of phosphopeptides.
    Zhang Y, Li N, Li J, Fan M, Zhang Q, Dang F.
    Mikrochim Acta; 2024 Mar 19; 191(4):211. PubMed ID: 38502246
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  • 30. Magnetic guanidyl-functionalized covalent organic framework composite: a platform for specific capture and isolation of phosphopeptides and exosomes.
    Wang B, Wang B, Feng Q, Fang X, Dai X, Yan Y, Ding CF.
    Mikrochim Acta; 2022 Aug 15; 189(9):330. PubMed ID: 35969309
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  • 31. PAMAM-PMAA brush-functionalized magnetic composite nanospheres: a smart nanoprobe with tunable selectivity for effective enrichment of mono-, multi-, or global phosphopeptides.
    Yu L, Luo B, Li Z, He J, Lan F, Wu Y.
    J Mater Chem B; 2020 Feb 14; 8(6):1266-1276. PubMed ID: 31967178
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  • 32. Highly Selective Capture of Monophosphopeptides by Two-Dimensional Metal-Organic Framework Nanosheets.
    Xiao J, Yang SS, Wu JX, Wang H, Yu X, Shang W, Chen GQ, Gu ZY.
    Anal Chem; 2019 Jul 16; 91(14):9093-9101. PubMed ID: 31204471
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  • 33. Synthesis of a metal oxide affinity chromatography magnetic mesoporous nanomaterial and development of a one-step selective phosphopeptide enrichment strategy for analysis of phosphorylated proteins.
    Gao L, Tao J, Qi L, Jiang X, Shi H, Liu Y, Di B, Wang Y, Yan F.
    Anal Chim Acta; 2022 Feb 22; 1195():339430. PubMed ID: 35090649
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  • 35. Titanium (IV) ion-modified covalent organic frameworks for specific enrichment of phosphopeptides.
    Wang H, Jiao F, Gao F, Lv Y, Wu Q, Zhao Y, Shen Y, Zhang Y, Qian X.
    Talanta; 2017 May 01; 166():133-140. PubMed ID: 28213213
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  • 36. Facile Preparation of Hydrophilic Mesoporous Metal-Organic Framework via Synergistic Etching and Surface Functionalization for Glycopeptides Analysis.
    Pu C, Zhao H, Hong Y, Zhan Q, Lan M.
    Anal Chem; 2020 Jan 21; 92(2):1940-1947. PubMed ID: 31887020
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  • 37. Ti(IV) carrying polydopamine-coated, monodisperse-porous SiO2 microspheres with stable magnetic properties for highly selective enrichment of phosphopeptides.
    Salimi K, Usta DD, Çelikbıçak Ö, Pinar A, Salih B, Tuncel A.
    Colloids Surf B Biointerfaces; 2017 May 01; 153():280-290. PubMed ID: 28279934
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  • 38. Postsynthetic Functionalization of Zr4+-Immobilized Core-Shell Structured Magnetic Covalent Organic Frameworks for Selective Enrichment of Phosphopeptides.
    Gao C, Bai J, He Y, Zheng Q, Ma W, Lei Z, Zhang M, Wu J, Fu F, Lin Z.
    ACS Appl Mater Interfaces; 2019 Apr 10; 11(14):13735-13741. PubMed ID: 30892013
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