Mingyu Yang

Ming is a graduate student in the Van Vliet Group for Material Chemomechanics at MIT. His current research leverages 3D printing technologies to develop in vitro models of human myelination. Ming is also passionate about democratizing STEM education, and he enjoys developing content for MIT's open education / MOOC initiatives. Ming received his B.S. from Johns Hopkins University in 2019, where he studied Materials Science & Engineering and Cognitive Science.

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Genetics: Population Genetics and Human Traits (edX)

Self Paced
Genetics: Population Genetics and Human Traits (edX)
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How do we know what we know about heredity? Enhance your scientific thinking and experimental design skills with this in-depth adventure through genetics. This is the third genetics course in a three-part series. Building upon the concepts from biochemistry, genetics, and molecular biology from our 7.00x Introductory Biology MOOC, [...]

Genetics: Analysis and Applications (edX)

How do we know what we know about heredity? Enhance your scientific thinking and experimental design skills with this in-depth adventure through genetics. This is the second genetics course in a three-part series. Building upon the concepts from biochemistry, genetics, and molecular biology from our 7.00x Introductory Biology MOOC, [...]

Genetics: The Fundamentals (edX)

Self Paced
Genetics: The Fundamentals (edX)
Course Auditing
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How do we know what we know about heredity? Enhance your scientific thinking and experimental design skills with this in-depth adventure through genetics. How do we study the inheritance of different traits? How does that information help us understand heritable diseases? Professors Michael Hemann and Peter Reddien will challenge [...]

Making a Cell Therapy: Principles and Practice of Manufacturing (edX)

Cell therapies, such as CAR-T and stem cell therapies, are an exciting new class of therapeutics with the potential to revolutionize medicine. Learn the biology, engineering, and analytical chemistry behind how these amazing new products are manufactured. The success of CAR-T cell therapies, driven by their unprecedented efficacy and [...]