353 results on '"Johnston, Angus P. R."'
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2. The therapeutic effect of GAS6 in remyelination is dependent upon Tyro3.
3. Key principles and methods for studying the endocytosis of biological and nanoparticle therapeutics
4. Inducing immune tolerance with dendritic cell-targeting nanomedicines
5. Length-Dependent Cellular Internalization of Nanobody-Functionalized Poly(2-oxazoline) Nanorods
6. Unravelling cytosolic delivery of cell penetrating peptides with a quantitative endosomal escape assay
7. Self-Immolative Polymer Nanoparticles with Precise and Controllable pH-Dependent Degradation
8. Impact of the Core Architecture of Dual pH-Responsive Polymer Nanoparticles on Intracellular Delivery of Doxorubicin
9. Length-Dependent Cellular Internalization of Nanobody-Functionalized Poly(2-oxazoline) Nanorods.
10. Minimum information reporting in bio–nano experimental literature
11. Nanoparticles for vaccine and gene therapy: Overcoming the barriers to nucleic acid delivery
12. Reaction Vessels Assembled by the Sequential Adsorption of Polymers
13. Quantifying Nanoparticle Internalization Using a High Throughput Internalization Assay
14. Understanding the Biological Interactions of pH‐Swellable Nanoparticles
15. Identifying cell-to-cell variability in internalization using flow cytometry
16. Identifying cell-to-cell variability in internalization using flow cytometry
17. Particle generation, functionalization and sortase A–mediated modification with targeting of single-chain antibodies for diagnostic and therapeutic use
18. Analysis of Intracellular Trafficking of Dendritic Cell Receptors for Antigen Targeting
19. Supplementary material document from Identifying cell-to-cell variability in internalization using flow cytometry
20. Quantifying the Endosomal Escape of pH-Responsive Nanoparticles Using the Split Luciferase Endosomal Escape Quantification Assay
21. Nanoparticle Association: In Vivo Quantification of Nanoparticle Association with Immune Cell Subsets in Blood (Adv. Healthcare Mater. 9/2021)
22. In Vivo Quantification of Nanoparticle Association with Immune Cell Subsets in Blood
23. Understanding the Polymer Rearrangement of pH-Responsive Nanoparticles
24. Inducing immune tolerance with dendritic cell-targeting nanomedicines
25. Targeting Dendritic Cells: The Role of Specific Receptors in the Internalization of Polymer Capsules
26. Reaction Vessels Assembled by the Sequential Adsorption of Polymers
27. A molecular sensor to quantify the localization of proteins, DNA and nanoparticles in cells
28. High-Density Lipoprotein Composition Influences Lymphatic Transport after Subcutaneous Administration
29. Silicon‐Nanotube‐Mediated Intracellular Delivery Enables Ex Vivo Gene Editing
30. Organ-specific lymphatics play distinct roles in regulating HDL trafficking and composition
31. Engineering the Orientation, Density, and Flexibility of Single-Domain Antibodies on Nanoparticles To Improve Cell Targeting
32. SNAPSwitch: A Molecular Sensor to Quantify the Localization of Proteins, DNA and Nanoparticles in Cells
33. Quantifying the Endosomal Escape of pH-Responsive Nanoparticles Using the Split Luciferase Endosomal Escape Quantification Assay.
34. Carboxylated Cy5-Labeled Comb Polymers Passively Diffuse the Cell Membrane and Target Mitochondria
35. pH‐Responsive Polymer Nanoparticles for Drug Delivery
36. Pointing in the Right Direction: Controlling the Orientation of Proteins on Nanoparticles Improves Targeting Efficiency
37. Understanding Cell Interactions Using Modular Nanoparticle Libraries
38. The Endosomal Escape of Nanoparticles: Toward More Efficient Cellular Delivery
39. Elucidating the Influences of Size, Surface Chemistry, and Dynamic Flow on Cellular Association of Nanoparticles Made by Polymerization‐Induced Self‐Assembly
40. Controlling Endosomal Escape Using pH-Responsive Nanoparticles with Tunable Disassembly
41. Quantifying Cellular Internalization with a Fluorescent Click Sensor
42. Correction: Engineered hydrogen-bonded polymer multilayers: from assembly to biomedical applications
43. Thiol-Reactive Star Polymers Display Enhanced Association with Distinct Human Blood Components
44. pH-Responsive Transferrin-pHlexi Particles Capable of Targeting Cells in Vitro
45. Life Under the Microscope: Quantifying Live Cell Interactions to Improve Nanoscale Drug Delivery
46. The Endosomal Escape of Nanoparticles: Toward More Efficient Cellular Delivery.
47. Probing Endosomal Escape Using pHlexi Nanoparticles
48. Flow Cytometry: HD Flow Cytometry: An Improved Way to Quantify Cellular Interactions with Nanoparticles (Adv. Healthcare Mater. 18/2016)
49. HD Flow Cytometry: An Improved Way to Quantify Cellular Interactions with Nanoparticles
50. Human immune cell targeting of protein nanoparticles – caveospheres
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