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  • 1.
    Duong-Thi, Minh-Dao
    et al.
    Linnaeus University, Faculty of Health and Life Sciences, Department of Chemistry and Biomedical Sciences. Nanyang Technol University, Singapore.
    Bergström, Maria
    Linnaeus University, Faculty of Health and Life Sciences, Department of Chemistry and Biomedical Sciences.
    Edwards, Katarina
    Uppsala University.
    Eriksson, Jonny
    Uppsala University.
    Ohlson, Sten
    Linnaeus University, Faculty of Health and Life Sciences, Department of Chemistry and Biomedical Sciences.
    To Yiu Ying, Janet
    Nanyang Technol University, Singapore.
    Torres, Jaume
    Nanyang Technol University, Singapore.
    Agmo Hernández, Víctor
    Uppsala University.
    Lipodisks integrated with weak affinity chromatography enable fragment screening of integral membrane proteins2016In: The Analyst, ISSN 0003-2654, E-ISSN 1364-5528, Vol. 141, no 3, p. 981-988Article in journal (Refereed)
    Abstract [en]

    Membrane proteins constitute the largest class of drug targets but they present many challenges in drug discovery. Importantly, the discovery of potential drug candidates is hampered by the limited availability of efficient methods for screening drug-protein interactions. In this work we present a novel strategy for rapid identification of molecules capable of binding to a selected membrane protein. An integral membrane protein (human aquaporin-1) was incorporated into planar lipid bilayer disks (lipodisks), which were subsequently covalently coupled to porous derivatized silica and packed into HPLC columns. The obtained affinity columns were used in a typical protocol for fragment screening by weak affinity chromatography (WAC), in which one hit was identified out of a 200 compound collection. The lipodisk-based strategy, which ensures a stable and native-like lipid environment for the protein, is expected to work also with other membrane proteins and screening procedures.

  • 2.
    Kumar, Saroj
    et al.
    Linnaeus University, Faculty of Health and Life Sciences, Department of Chemistry and Biomedical Sciences.
    Milani, Gloria
    University of Padova, Italy.
    Takatsuki, Hideyo
    Linnaeus University, Faculty of Health and Life Sciences, Department of Chemistry and Biomedical Sciences.
    Lana, Tobia
    University of Padova, Italy.
    Persson, Malin
    Linnaeus University, Faculty of Health and Life Sciences, Department of Chemistry and Biomedical Sciences.
    Frasson, Chiara
    University of Padova, Italy.
    te Kronnie, Geertruy
    University of Padova, Italy.
    Månsson, Alf
    Linnaeus University, Faculty of Health and Life Sciences, Department of Chemistry and Biomedical Sciences.
    Sensing protein antigen and microvesicle analytes using high-capacity biopolymer nano-carriers2016In: The Analyst, ISSN 0003-2654, E-ISSN 1364-5528, Vol. 141, no 3, p. 836-846Article in journal (Refereed)
    Abstract [en]

    Lab-on-a-chip systems with molecular motor driven transport of analytes attached to cytoskeletal filament shuttles (actin filaments, microtubules) circumvent challenges with nanoscale liquid transport. However, the filaments have limited cargo-carrying capacity and limitations either in transportation speed (microtubules) or control over motility direction (actin). To overcome these constraints we here report incorporation of covalently attached antibodies into self-propelled actin bundles (nanocarriers) formed by cross-linking antibody conjugated actin filaments viafascin, a natural actin-bundling protein. We demonstrate high maximum antigen binding activity and propulsion by surface adsorbed myosin motors. Analyte transport capacity is tested using both protein antigens and microvesicles, a novel class of diagnostic markers. Increased incubation concentration with protein antigen in the 0.1–100 nM range (1 min) reduces the fraction of motile bundles and their velocity but maximum transportation capacity of >1 antigen per nm of bundle length is feasible. At sub-nanomolar protein analyte concentration, motility is very well preserved opening for orders of magnitude improved limit of detection using motor driven concentration on nanoscale sensors. Microvesicle-complexing to monoclonal antibodies on the nanocarriers compromises motility but nanocarrier aggregation via microvesicles shows unique potential in label-free detection with the aggregates themselves as non-toxic reporter elements.

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  • 3. O'Mahony, John
    et al.
    Karlsson, Björn C. G.
    University of Kalmar, School of Pure and Applied Natural Sciences.
    Mizaikoff, B
    Nicholls, Ian A.
    University of Kalmar, School of Pure and Applied Natural Sciences.
    Correlated theoretical, spectroscopic and X-ray crystallographic studies of a non-covalent molecularly imprinted polymerisation system2007In: The Analyst, ISSN 0003-2654, E-ISSN 1364-5528, Vol. 132, p. 1161-1168Article in journal (Refereed)
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