Ngā hua rapu - Marie‐Isabel Aguilar

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  1. 1
    Transthyretin and familial amyloidotic polyneuropathy

    Transthyretin and familial amyloidotic polyneuropathy Xu Hou, Marie‐Isabel Aguilar, David H. Small

    I whakaputaina 2007
    Whiwhi kuputuhi katoa Whiwhi kuputuhi katoa
    Revisão
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  2. 2
    New insights into the molecular mechanisms of biomembrane structural changes and interactions by optical biosensor technology

    New insights into the molecular mechanisms of biomembrane structural changes and interactions by optical biosensor technology Tzong-Hsien Lee, Daniel Hirst, Marie‐Isabel Aguilar

    I whakaputaina 2015
    Whiwhi kuputuhi katoa
    Revisão
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  3. 3
    Analysis of antimicrobial peptide interactions with hybrid bilayer membrane systems using surface plasmon resonance

    Analysis of antimicrobial peptide interactions with hybrid bilayer membrane systems using surface plasmon resonance Henriette Mozsolits, Hans‐Jürgen Wirth, Jerome A. Werkmeister, Marie‐Isabel Aguilar

    I whakaputaina 2001
    Whiwhi kuputuhi katoa
    Artigo
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  4. 4
    Real-time Measurement of Membrane Conformational States Induced by Antimicrobial Peptides: Balance Between Recovery and Lysis

    Real-time Measurement of Membrane Conformational States Induced by Antimicrobial Peptides: Balance Between Recovery and Lysis Kristopher Hall, Tzong-Hsien Lee, Ádám Mechler, Marcus J. Swann, Marie‐Isabel Aguilar

    I whakaputaina 2014
    Whiwhi kuputuhi katoa Whiwhi kuputuhi katoa
    Artigo
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  5. 5
    Mitochondrial outer membrane permeabilization: a focus on the role of mitochondrial membrane structural organization

    Mitochondrial outer membrane permeabilization: a focus on the role of mitochondrial membrane structural organization Siti Haji Suhaili, Hamed Karimian, Matthew Stellato, Tzong-Hsien Lee, Marie‐Isabel Aguilar

    I whakaputaina 2017
    Whiwhi kuputuhi katoa
    Revisão
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  6. 6
    PrP(106-126) Does Not Interact with Membranes under Physiological Conditions

    PrP(106-126) Does Not Interact with Membranes under Physiological Conditions Sónia Troeira Henriques, Leonard K. Pattenden, Marie‐Isabel Aguilar, Miguel A. R. B. Castanho

    I whakaputaina 2008
    Whiwhi kuputuhi katoa Whiwhi kuputuhi katoa
    Artigo
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  7. 7
    Proline Facilitates Membrane Insertion of the Antimicrobial Peptide Maculatin 1.1 via Surface Indentation and Subsequent Lipid Disordering

    Proline Facilitates Membrane Insertion of the Antimicrobial Peptide Maculatin 1.1 via Surface Indentation and Subsequent Lipid Disordering David I. Fernandez, Tzong-Hsien Lee, Marc‐Antoine Sani, Marie‐Isabel Aguilar, Frances Separovic

    I whakaputaina 2013
    Whiwhi kuputuhi katoa Whiwhi kuputuhi katoa
    Artigo
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  8. 8
    Geometrically Precise Building Blocks: the Self-Assembly of β-Peptides

    Geometrically Precise Building Blocks: the Self-Assembly of β-Peptides Romila D. Gopalan, Mark P. Del Borgo, Ádám Mechler, Patrick Perlmutter, Marie‐Isabel Aguilar

    I whakaputaina 2015
    Whiwhi kuputuhi katoa
    Revisão
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  9. 9
    The intricate link between membrane lipid structure and composition and membrane structural properties in bacterial membranes

    The intricate link between membrane lipid structure and composition and membrane structural properties in bacterial membranes Tzong-Hsien Lee, Patrick Charchar, Frances Separovic, Gavin E. Reid, Irene Yarovsky, Marie‐Isabel Aguilar

    I whakaputaina 2024
    Whiwhi kuputuhi katoa Whiwhi kuputuhi katoa
    Artigo
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  10. 10
    Cholesterol is necessary both for the toxic effect of Aβ peptides on vascular smooth muscle cells and for Aβ binding to vascular smooth muscle cell membranes

    Cholesterol is necessary both for the toxic effect of Aβ peptides on vascular smooth muscle cells and for Aβ binding to vascular smooth muscle cell membranes Supundi Subasinghe, Sharon Unabia, Colin J. Barrow, Su San Mok, Marie‐Isabel Aguilar, David H. Small

    I whakaputaina 2003
    Whiwhi kuputuhi katoa
    Artigo
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  11. 11
    Real-time quantitative analysis of lipid disordering by aurein 1.2 during membrane adsorption, destabilisation and lysis

    Real-time quantitative analysis of lipid disordering by aurein 1.2 during membrane adsorption, destabilisation and lysis Tzong-Hsien Lee, Christine Heng, Marcus J. Swann, John D. Gehman, Frances Separovic, Marie‐Isabel Aguilar

    I whakaputaina 2010
    Whiwhi kuputuhi katoa
    Artigo
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  12. 12
    Transthyretin oligomers induce calcium influx via voltage‐gated calcium channels

    Transthyretin oligomers induce calcium influx via voltage‐gated calcium channels Xu Hou, Helena C. Parkington, Harold A. Coleman, Ádám Mechler, Lisandra L. Martin, Marie‐Isabel Aguilar, David H. Small

    I whakaputaina 2006
    Whiwhi kuputuhi katoa Whiwhi kuputuhi katoa
    Artigo
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  13. 13
    A Synthetic Mirror Image of Kalata B1 Reveals that Cyclotide Activity Is Independent of a Protein Receptor

    A Synthetic Mirror Image of Kalata B1 Reveals that Cyclotide Activity Is Independent of a Protein Receptor Lillian Sando, Sónia Troeira Henriques, Fiona Foley, Shane M. Simonsen, Norelle L. Daly, Kristopher Hall, Kirk R. Gustafson, Marie‐Isabel Aguilar, David J. Craik

    I whakaputaina 2011
    Whiwhi kuputuhi katoa
    Artigo
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  14. 14
    The β-amyloid protein of Alzheimer's disease increases neuronal CRMP-2 phosphorylation by a Rho-GTP mechanism

    The β-amyloid protein of Alzheimer's disease increases neuronal CRMP-2 phosphorylation by a Rho-GTP mechanism Steven Petratos, Qiao‐Xin Li, Amee J. George, Xu Hou, Megan L. Kerr, Sharon Unabia, Irene Hatzinisiriou, Danuta Maksel, Marie‐Isabel Aguilar, David H. Small

    I whakaputaina 2007
    Whiwhi kuputuhi katoa Whiwhi kuputuhi katoa
    Artigo
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  15. 15
    Anti-fibrotic Potential of AT2 Receptor Agonists

    Anti-fibrotic Potential of AT2 Receptor Agonists Yan Wang, Mark Del Borgo, Huey W. Lee, Dhãniel Baraldi, Baydaa Hirmiz, Tracey A. Gaspari, Kate M. Denton, Marie‐Isabel Aguilar, Chrishan S. Samuel, Robert E. Widdop

    I whakaputaina 2017
    Whiwhi kuputuhi katoa Whiwhi kuputuhi katoa
    Revisão
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  16. 16
    A Single β-Amino Acid Substitution to Angiotensin II Confers AT <sub>2</sub> Receptor Selectivity and Vascular Function

    A Single β-Amino Acid Substitution to Angiotensin II Confers AT <sub>2</sub> Receptor Selectivity and Vascular Function Emma S. Jones, Mark P. Del Borgo, Julian F. Kirsch, Daniel Clayton, Sanja Bosnyak, Iresha Welungoda, Nicholas Hausler, Sharon Unabia, Patrick Perlmutter, Walter G. Thomas, Marie‐Isabel Aguilar, Robert E. Widdop

    I whakaputaina 2011
    Whiwhi kuputuhi katoa
    Artigo
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  17. 17
    The plant defensin NaD1 introduces membrane disorder through a specific interaction with the lipid, phosphatidylinositol 4,5 bisphosphate

    The plant defensin NaD1 introduces membrane disorder through a specific interaction with the lipid, phosphatidylinositol 4,5 bisphosphate Jennifer A. E. Payne, Mark R. Bleackley, Tzong-Hsien Lee, Thomas Shafee, Ivan K. H. Poon, Mark D. Hulett, Marie‐Isabel Aguilar, Nicole L. van der Weerden, Marilyn A. Anderson

    I whakaputaina 2016
    Whiwhi kuputuhi katoa
    Artigo
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