Creation and selective functionalization of virus-like polymer particles
- Date:
- August 13, 2018
- Source:
- Tohoku University
- Summary:
- Researchers have collaborated with others to develop a simple way to create and functionalize virus-like polymer particles that have various nanostructures.
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Researchers at Tohoku University in Japan have collaborated with others to develop a simple way to create and functionalize virus-like polymer particles that have various nanostructures. The collaboration includes researchers from Michigan University in the USA and Karlsruhe Institute of Technology (KIT) in Germany.
The geometrical control of enzymes, antibodies and other proteins over polymer particles is essential for realizing cascade reactions observed in a living body; highly sensitive immunoassay systems; and highly efficient drug delivery systems. Given enzymatic reactions occur step-by-step along aligned enzymes, the formations of such enzyme arrays are crucial for realizing the particles.
In immunoassay systems and drug delivery systems using polymer particles, the density and alignment of antibodies on the particles are very important factors in achieving high sensitivities. A virus is an ideal particle given its nanostructures and geometrically controlled functional groups. However, structural control and selective chemical modification of synthetic polymer particles have until now been inaccessible due to their complicated synthetic routes.
Diblock copolymers form nanoscale phase-separated structures, and macromolecular compositions can control structures and periodicities. In the present study, Guillaume Delaittre and co-workers at KIT have succeeded in synthesizing hydrophobic diblock copolymers that have functionalized blocks. Divya Varadharajan at KIT and Hiroshi Yabu at Tohoku University have converted those diblock copolymers to nanostructured particles by using a nanoprecipitation method they developed.
Changing the preparation conditions, sizes and morphologies of particles led to core-shell, stacked lamellae, and other morphologies being found. The stacked lamellae structure, in which both polymer phases are exposed to the particle surfaces, was chosen for selective chemical modification.
To visualize the site-selective chemical modification of particles, fluorescent dyes were fixed on the one polymer phase. Joerg Lahann at Michigan University identified this chemical modification by observing ring-shaped fluorescence from nanodiscs originating from disassembling stacked lamellae. Lahann used stimulated emission depletion (STED) microscopy in his work, which is one of the super-resolving microscopy methods.
Story Source:
Materials provided by Tohoku University. Note: Content may be edited for style and length.
Journal Reference:
- Divya Varadharajan, Hatice Turgut, Joerg Lahann, Hiroshi Yabu, Guillaume Delaittre. Surface-Reactive Patchy Nanoparticles and Nanodiscs Prepared by Tandem Nanoprecipitation and Internal Phase Separation. Advanced Functional Materials, 2018; 1800846 DOI: 10.1002/adfm.201800846
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