Engineering biology is the set of methods for designing, building, and testing engineered biological systems which have been used to manipulate information, construct materials, process chemicals, produce energy, provide food, and help maintain or enhance human health and environment.[1]

History

edit

Rapid advances in the ability to genetically modify biological organisms have advanced a new engineering discipline, commonly referred to as synthetic biology. This approach seeks to harness the power of living systems for a variety of manufacturing applications, such as advanced therapeutics, sustainable fuels, chemical feedstocks, and advanced materials. To date, research in synthetic biology has typically relied on trial-and-error approaches, which are costly, laborious, and inefficient.[2] Engineering biology methods include a combination of traditional biological techniques such as bioinformatics, molecular biology, and wet cell biology, as well as conventional engineering practices such as design and computation.[3]

References

edit
  1. ^ Endy, D. (2005). Foundations for engineering biology. Nature, 438(7067), 449-453. doi:10.1038/nature04342
  2. ^ Hutchison, C. A., Chuang, R. Y., Noskov, V. N., Assad-Garcia, N., Deerinck, T. J., Ellisman, M. H., ... & Pelletier, J. F. (2016). Design and synthesis of a minimal bacterial genome. Science, 351(6280), aad6253. doi:10.1126/science.aad6253
  3. ^ Klabukov, I.D.; Baranovskii, D.S. (2023). "The Engineering Biology Problems Book: Bridging the gap between biomedicine and engineering". Biomedical Research and Therapy. 10 (8): 5801–5803. doi:10.15419/bmrat.v10i8.821. ISSN 2198-4093.

Bibliography

edit
  • H.R.4521 - America COMPETES Act of 2022

https://www.congress.gov/congressional-record/2022/03/17/senate-section/article/S1237-5