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Video/AnimationAminoX: Making Better Protein Drugs, Quicker and CheaperA synthetic biology and advanced chemistry platform that efficiently incorporates non-standard amino acids by hacking the ubiquitous protein synthesis process. Credit: Wyss Institute at Harvard University -
Video/AnimationCatalytic Nanoarchitectures for Clean AirThe Wyss Institute is developing a new type of coating for catalytic converters that, inspired by the nanoscale structure of a butterfly’s wing, can dramatically reduce the cost and improve the performance of air purification technologies, making them more accessible to all. Credit: Wyss Institute at Harvard University -
Audio/PodcastBiofilms: Reprogramming Bacteria to Improve LivesWyss Core Faculty member Neel Joshi and Postdoctoral Fellow Anna Duraj-Thatte discuss the intersection between synthetic biology and materials science as an underexplored area with great potential to positively affect our daily lives—applications ranging from manufacturing to medicine. Dr. Joshi outlines ways that his lab at the Wyss Institute is looking at reprogramming bacteria in... -
Video/Animation3D Printing Ceramic FoamThis video shows the 3D printing process that adds layer upon layer of the foam link to create a 3D porous ceramic honeycomb pattern. This new capability is an important step toward generating porous materials for lightweight structures, thermal insulation, tissue scaffolds and other applications. Credit: Lori Sanders -
Video/AnimationBioprinting: The Kidney’s Proximal TubulesIn this video, see how the Wyss Institute team has advanced bioprinting to the point of being able to fabricate a functional subunit of a kidney. Credit: Wyss Institute at Harvard University -
Video/AnimationOctobot: A Soft, Autonomous RobotThe Octobot is the first entirely soft, autonomous robot. It is made by a combination of embedded 3D printing, modeling, and soft lithography. Inspired by real octopuses, the Octobot has no rigid components. It is powered by a chemical reaction and controlled with a microfluidic logic that directs the flow of fuel. The logic circuit... -
Video/AnimationToehold SwitchesIn this animation, Wyss Institute Postdoctoral Fellow Alex Green, Ph.D., the lead author of “Toehold Switches: De-Novo-Designed Regulators of Gene Expression”, narrates a step-by-step guide to the mechanism of the synthetic toehold switch gene regulator. Credit: Wyss Institute at Harvard University -
Video/AnimationProgrammable Paper: Advances in Synthetic BiologyWyss Institute scientists discuss the collaborative environment and team effort that led to two breakthroughs in synthetic biology that can either stand alone as distinct advances – or combine forces to create truly tantalizing potentials in diagnostics and gene therapies. Credit: Wyss Institute at Harvard University. -
Video/AnimationBioinspired Blood Repellent CoatingIn this video, Wyss Institute Founding Director Don Ingber, Core Faculty member Joanna Aizenberg, Staff Scientist Dan Leslie and Postdoctoral Fellow Anna Waterhouse explain how a coating they developed using FDA-approved materials could prevent blood clotting in medical devices without the use of blood thinners. Credit: Wyss Institute at Harvard University -
Video/AnimationVirus-inspired DNA NanodevicesWyss Institute Core Faculty member William Shih and Technology Development Fellow Steven Perrault explain why DNA nanodevices need protection inside the body, and how a viral-inspired strategy helps protect them. Credit: Wyss Institute at Harvard University -
Video/AnimationDNA CagesTo create supersharp images of their cage-shaped DNA polyhedra, the scientists used DNA-PAINT, a microscopy method that uses short strands of DNA (yellow) labeled with a fluorescent chemical (green) to bind and release partner strands on polyhedra corners, causing them to blink. The blinking corners reveal the shape of structures far too small to be... -
Video/AnimationChitosan BioplasticIn this video, the team grew a California Blackeye pea plant in soil enriched with its chitosan bioplastic over a three-week period – demonstrating the material’s potential to encourage plant growth once it is returned to the environment. Credit: Wyss Institute at Harvard University -
Video/AnimationNew coating turns glass into superglassA transparent new coating makes ordinary glass tough, ultraslippery, and self-cleaning. The coating is based on SLIPS — the world’s slipperiest synthetic substance. Here, a droplet of dyed octane quickly beads up and rolls off a watch glass with the new coating. To learn more, go to Credit: Wyss Institute at Harvard University