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Biomedical Engineering and Bioengineering Commons™
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Full-Text Articles in Biomedical Engineering and Bioengineering
Bio Circuits For Evolutionary Biotech, Camilo Toruno
Bio Circuits For Evolutionary Biotech, Camilo Toruno
ENGS 86 Independent Projects (AB Students)
The field of bioengineering has much promise for renewable chemical production, bioremediation, and of course medical applications. Developing new useful microorganisms is extremely time and capital intensive, typically taking 50 million USD and eight years. This is due in large part to the low throughput techniques that are characteristic of the field of metabolic engineering. Here we describe the modification of an existing synthetic biosensor to measure the pharmaceutical dopamine, and the use of a circuit simulator Cadence to predict improvements to the biosensor. This biosensor paired with directed evolution techniques could reach throughputs of 5 million cells per day …
Bioproducts From Bacteria: A Synthetic Biology Approach, Andrew Walters, Ron Sims, Charles Miller
Bioproducts From Bacteria: A Synthetic Biology Approach, Andrew Walters, Ron Sims, Charles Miller
Research on Capitol Hill
What can synthetic biology do?
Synthetic biology can solve many of Utah's problems:
1. Health: generate better medicines and treatments
- Insulin, Artemisinin (anti-malaria drug), Cancer
2. Fuel: augment petroleum with biofuels and biogas
3. Electricity: directly generate electricity from waste
4. Food: engineer more nutritious food with higher yields
- Golden rice, Arctic Apples, Corn, Soybeans, Cotton
5. Products: generate necessary products renewably
- Bioplastics, Spider silk, Adhesives, Pigments, Perfumes
Biomanufacturing Through Igem-An International Student Competition, Asif Rahman, Ryan J. Putman, Neal Hengge, Charles D. Miller
Biomanufacturing Through Igem-An International Student Competition, Asif Rahman, Ryan J. Putman, Neal Hengge, Charles D. Miller
Biological Engineering Faculty Publications
The foundations of synthetic biology are built on molecular biology and genetic engineering. One of the purposes of synthetic biology is to make biology easier to engineer by the creation of standardized biological parts and devices. There are a wide range of potential applications for synthetic biology and a variety of approaches to constructing parts and systems. Undergraduate Science, Technology, Engineering, and Mathematics (STEM) students from around the world apply synthetic biology principles at the annual International Genetically Engineered Machine (iGEM) competition to demonstrate functioning biological systems created from standardized parts. The iGEM competition will continue to add to the …
A Roadmap To Safe And Reliable Engineered Biological Nano-Communication Networks, Justin W. Firestone
A Roadmap To Safe And Reliable Engineered Biological Nano-Communication Networks, Justin W. Firestone
Department of Computer Science and Engineering: Dissertations, Theses, and Student Research
Synthetic biology has the potential to benefit society with novel applications that can improve soil quality, produce biofuels, grow customized biological tissue, and perform intelligent drug delivery, among many other possibilities. Engineers are creating techniques to program living cells, inserting new logic, and leveraging cell-to-cell communication, which result in changes to a cell's core functionality. Using these techniques, we can now create synthetic biological organisms (SBOs) with entirely new (potentially unseen) behaviors, which, similar to silicon devices, can sense, actuate, perform computation, and interconnect with other networks at the nanoscale level. SBOs are programmable evolving entities, and can be likened …