Synthetic biology: Difference between revisions
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Revision as of 19:04, 29 September 2011
Synthetic biology is a subfield of biology and engineering concerned -- as a goal or side effect -- with the construction of artificial life forms for technological, medical or research purposes.
Different approaches exist to achieve such constructions. For example, nucleic acid bases may be modified, genes knocked in or out, cells or tissue transgrafted or organs transplanted.
At a more fundamental level, self-replicative systems other than nucleic acids and proteins may be constructed, or the carbon-based biology we know from our planet may be replaced experimentally by a kind of life based on other elements, notably silicon.
Somewhat more broadly, the American Chemical Society’s journal, ACS Synthetic Biology, states:
The journal is particularly interested in studies on the design and synthesis of new genetic circuits and gene products; computational methods in the design of systems; and integrative applied approaches to understanding disease and metabolism. |
It lists the following topics as appropriate for its journal on synthetic biology:
Design and optimization of genetic systems |
The Institution of Engineering and Technology (IET) also publishes a journal on synthetic biology, IET Synthetic Biology, the editor commenting on the discipline in part as follows:
Synthetic biology is the discipline that has resulted from [the] collision of new enabling technologies. Thus, recombinant DNA and improved DNA synthesis techniques provide the means of assembling new genetic systems, and computational approaches borrowed from systems biology provide tools for the design and modelling of artificial biological circuits. In addition however, the shift from analysis of naturally evolved biological systems to the construction of synthetic systems requires the recruitment of engineering principles to biology.[1] |
References
- ↑ Haseloff J. (2007) Editorial: IET Synthetic Biology. IET Synth. Biol. 1:1-2