Posts Tagged: Molecular Engineering
In a recent study, a research team led by Dr. Freeman Lan has developed a method for single-cell genetic profiling of microbes. The findings, published in Nature Methods, introduce a robust and easily adaptable droplet microfluidics workflow named DoTA-seq (Droplet Microfluidics for Targeted Amplification Sequencing), providing a scalable solution for studying single-cell heterogeneity in microbial populations.
Researchers at the University of Toronto's Faculty of Applied Science and Engineering have successfully utilized an artificial intelligence (AI) framework to redesign a crucial protein involved in the delivery of gene therapy.
BME professor Leo Chou creates DNA nanostructures that can serve as a platform to deliver instructions to a body's immune cells in a way that would elicit an effective response towards a disease. His team has developed a new way to visualize 3D nanostructures made of human DNA.
Researchers at the University of Toronto have developed an alternative theory to explain how nanoparticles enter and exit the tumours they are meant to treat. This new principle debunks a leading theory in cancer nanomedicine that has guided research for nearly four decades.
U of T Engineering lab partners with Moderna to develop RNA-based tools to treat and prevent disease
A team of U of T Engineering researchers, led by Professor Omar F. Khan (BME), has partnered with biotechnology company Moderna to develop next-generation RNA platform technologies.
Microscopes are some of the most powerful tools in cell biology — but what if the cell component that needs to be imaged is smaller than the wavelengths of visible light? A new study from Professor Chris Yip (ChemE, BME) proposes a solution, one that could help advance research into cancer and other diseases.
A mixed filling dumpling with Myo Palate's cultivated pork and store-bought vegetable ingredients. The company has partnered with U of T Engineering professor Michael Garton (BME) on a project to further advance their technology.
Omar F. Khan was first inspired to be an engineer by his father's workplace accident. Now, his lab is studying nanomaterials & pushing the boundaries of regenerative medicine.
Dr. Omar Khan's lab is creating new nanotechnologies to control and deliver nucleic acids, will lead a team that plans on working with Moderna to develop next-generation vaccine platforms.
Hai-Ling Margaret Cheng was one of the UofT researchers receiving the New Frontiers in Research Fund.
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