sj-docx-2-cpa-10.1177_07067437241234954 - Supplemental material for Patient Perceptions of Microbiome-Based Therapies as Novel Treatments for Mood Disorders: A Mixed Methods Study

Supplemental material, sj-docx-2-cpa-10.1177_07067437241234954 for Patient Perceptions of Microbiome-Based Therapies as Novel Treatments for Mood Disorders: A Mixed Methods Study by Dina Moinul, Chenhui Hao, Gina Dimitropoulos and Valerie H. Taylor in The Canadian Journal of Psychiatry</p

sj-docx-1-cpa-10.1177_07067437241234954 - Supplemental material for Patient Perceptions of Microbiome-Based Therapies as Novel Treatments for Mood Disorders: A Mixed Methods Study

Supplemental material, sj-docx-1-cpa-10.1177_07067437241234954 for Patient Perceptions of Microbiome-Based Therapies as Novel Treatments for Mood Disorders: A Mixed Methods Study by Dina Moinul, Chenhui Hao, Gina Dimitropoulos and Valerie H. Taylor in The Canadian Journal of Psychiatry</p

Reversibly Switching the Surface Porosity of a DNA Tetrahedron

The ability to reversibly switch the surface porosity of nanocages would allow controllable matter transport in and out of the nanocages. This would be a desirable property for many technological applications, such as drug delivery. To achieve such capability, however, is challenging. Herein we report a strategy for reversibly changing the surface porosity of a self-assembled DNA nanocage (a DNA tetrahedron) that is based on DNA hydridization and strand displacement. The involved DNA nanostructures were thoroughly characterized by multiple techniques, including polyacrylamide gel electrophoresis, dynamic light scattering, atomic force microscopy, and cryogenic electron microscopy. This work may lead to the design and construction of stimuli-responsive nanocages that might find applications as smart materials