Synthetic development biology

21 October 2015 - videos (review8 on vimeo, lesson9 on vimeo - Nina Tandon (EpiBone, Cooper Union)

Instructors:
(1) Nina Tandon (EpiBone, Cooper Union, nina@epibone.com)
(2) Oliver Medvedik (Genspace co-founder, Cooper Union prof. of Biology, oliver@genspace.org)
(3) Keith Comito (Life Extension Advocacy Foundation founder, instructor of Genspace's Biotic Video games course, keith@omegasoftweb.com)

Videos: Slide 11, 44 Slide 15 Slide 43 Slide 51 Slide 75

We will discuss the biomimetic paradigm for tissue engineering (i.e. how to mimic developmental biology so as to grow tissues in the laboratory). For this lecture, we will focus on bioreactors (i.e. advanced cell culture systems that recapitulate living cellular environment in the laboratory). We will explore examples of bioreactors used to grow different tissue types, as well as a fun application of bioreactors for a different purpose: building biotic video games!

Background reading

Design homework assignment:

Exploring bioreactor design elements.

Lab homework assignment:

Build a Paramecium/Arduino interface.
Measure how fast the paramecia (a) swim and (b) change direction in response to electrical stimulation.

Components (based off: http://making.do/paramecium/build.html)
IMPORTANT: Purchase these paramecia well in advance of class (link: http://www.carolina.com/protozoa/paramecium-caudatum-living/131554.pr – you can state the expected use date. If you require international shipping, try: https://www.wardsci.com/store/catalog/product.jsp?catalog_number=871310 – Let me know if you have any issues. nina@epibone.com)!)
NOTE: The interface described in the above setup is only an example – Leave out the brain sensor unless you are feeling very ambitious! And don't feel tied to the laser-cut setup either – The essential idea is that you are placing paramecia in between electrodes in a setup that facilitates imaging. I built a setup at home with the following components:
(1) toy microscope (4x works fine): http://www.amazon.com/gp/product/B000NOU54O/ref=ask_ql_qh_dp_hza
(2) eyepiece imager: http://www.amazon.com/gp/product/B003DVP7CE/?
(3) electrode setup: glued 0.9mm pencil leads to a microscope slide at 1cm spacing (and only used two leads instead of four). You can clip aligator clips to the parts of the pencil lead extending past the edge of the slide: https://www.dropbox.com/s/injhnqej6yuc1wu/IMG_5224.JPG?dl=0

Equipment
multimeter
laser cutter
laptop or desktop computer
standard toolbox tools: wrenches, wirecutters, screwdrivers
standard lab equipment: pipetors, tubes

This is what the setup looks like through my toy microscope imager at 4x: https://www.dropbox.com/s/hzuwfco319pfght/Movie%20on%2010-12-15%20at%208.17%20PM.mov?dl=0