ESP Biography



MIDORI GREENWOOD-GOODWIN, ESP Teacher




Major: Materials Sci & Bioengineering

College/Employer: Stanford

Year of Graduation: G

Picture of Midori Greenwood-Goodwin

Brief Biographical Sketch:

Not Available.



Past Classes

  (Clicking a class title will bring you to the course's section of the corresponding course catalog)

E3390: Biomaterials Design for Tissue Engineering in Splash! Spring 2014 (Apr. 12 - 13, 2014)
"Will Your Next Burger Come From a Petri Dish?" Come to this class to learn the science behind the headlines! You will learn about how animal cells are cultured outside the body, and materials design for tissue engineering applications. A few applications that will be discussed include delivery of stem cells, 3D printing of tissues, and food tissues.


E2071: Living Factories: Introduction to Metabolic Engineering and Synthetic Biology in Splash! Spring 2012 (Apr. 21 - 22, 2012)
Cells have evolved over millions of years to highly specialized functions, but all cells require external resources to use as the building blocks for their growth and survival. Using the cells’ own machinery, i.e. metabolic pathways, we can now engineer cells to not only grow better, but to grow better and make specialized chemical and biological products. This course will cover the mechanisms of cell growth and maintenance, methods for synthetic biology, methods for engineering new metabolic pathways, and real-world applications. Additionally, students will have the opportunity to run an in class experiment testing the effects of various metabolic engineering and synthetic biology methods on production of novel compounds.


B1842: Protein Engineering and Biomaterials in Splash! Fall 2011 (Oct. 29 - 30, 2011)
First, students will be introduced to the building blocks of proteins and their heirarchal structures. Second, students will learn how to engineer proteins using computational and recombinant design methods. Third, students will learn about the various methods of protein production. Lastly, we will discuss applications of engineered proteins and protein-based materials.