At Terreform ONE and Genspace the emergence of citizen
biotech must be seen within the broader context of
advanced technologies becoming ever more readily available to individuals and
groups. With that availability, comes enhanced opportunities to develop new
ideas. We have produced the first full-scale synthetic biological chair entitled; Genetic Generation Seat or Gen2Seat. At IGEM
(International Genetically Engineered Machines) competition, we have genetically engineered the naturally occurring bacterium Acetobacter xylinum. This bacterium secretes copious amounts of
cellulose, which can then be harvested and used directly as a building
material. Alternatively, our goal is to create a novel strain that can also secrete
the biopolymer chitin, which is normally produced by arthropods, such as
insects and crustaceans. In addition, we fused mycelium blocks with the modified acetobactor to create a new biopolymer. Applying the tools of synthetic
biology, alongside other biological disciplines, such as microbiology and
tissue engineering, will allow us to create products more organically, with
minimal waste and energy expenditure.
Authors: Terreform ONE + Genspace, Mitchell Joachim, Oliver
Medvedik, Melanie Fessel, Maria
Aiolova, Ellen
Jorgenson, Shruti
Grover, James Schwartz, Josue Ledema, Tania Doles, Philip Weller,
Greg Pucillo, Shivina Harjani, Jesse Hull.
Media: biopolymer of acetobacter, chitin, mycelium.
Size: 20"x 21"x 14".
Support/ Consultation: Ecovative Design LLC, Suzanne Lee and BioCouture.
Sponsor: NYU Gallatin.
Media: biopolymer of acetobacter, chitin, mycelium.
Size: 20"x 21"x 14".
Support/ Consultation: Ecovative Design LLC, Suzanne Lee and BioCouture.
Sponsor: NYU Gallatin.