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synthetic biology : ウィキペディア英語版 | synthetic biology Synthetic biology is an interdisciplinary branch of biology, combining disciplines such as biotechnology, evolutionary biology, molecular biology, systems biology, biophysics, computer engineering, and genetic engineering. The definition of synthetic biology is debated not only among natural scientists but also in the human sciences, arts and politics. One popular definition is "designing and constructing biological devices,〔(【引用サイトリンク】Registry of Standard Biological Parts )〕 biological systems, and biological machines for useful purposes." However, the functional aspects of this definition stem from molecular biology and biotechnology. Synthetic biology has been recently defined as the artificial design and engineering of biological systems and living organisms for purposes of improving applications for industry or biological research as it has expanded to many interdisciplinary fields. == History == The term "synthetic biology" has a history spanning the twentieth century. The first use was in Stéphane Leduc’s publication of « Théorie physico-chimique de la vie et générations spontanées » (1910)〔( Théorie physico-chimique de la vie et générations spontanées, S. Leduc,1910 )〕 and « La Biologie Synthétique » (1912). In 1974, the Polish geneticist Wacław Szybalski used the term "synthetic biology",〔Wacław Szybalski, ''In Vivo and in Vitro Initiation of Transcription'', Page 405. In: A. Kohn and A. Shatkay (Eds.), Control of Gene Expression, pp. 23–4, and Discussion pp. 404–5 (Szybalski's concept of Synthetic Biology), 411–2, 415–7. New York: Plenum Press, 1974〕 writing:
Let me now comment on the question "what next". Up to now we are working on the descriptive phase of molecular biology. … But the real challenge will start when we enter the synthetic phase of research in our field. We will then devise new control elements and add these new modules to the existing genomes or build up wholly new genomes. This would be a field with an unlimited expansion potential and hardly any limitations to building "new better control circuits" or ..... finally other "synthetic" organisms, like a "new better mouse". … I am not concerned that we will run out of exciting and novel ideas, … in the synthetic biology, in general. When in 1978 the Nobel Prize in Physiology or Medicine was awarded to Arber, Nathans and Smith for the discovery of restriction enzymes, Wacław Szybalski wrote in an editorial comment in the journal ''Gene'':
The work on restriction nucleases not only permits us easily to construct recombinant DNA molecules and to analyze individual genes, but also has led us into the new era of synthetic biology where not only existing genes are described and analyzed but also new gene arrangements can be constructed and evaluated. The beginning of actual applications of synthetic biology first occurred in 2000, when two articles posted in Nature discussed the creation the now frequently used biological circuit devices of a genetic toggle switch and a biological clock by combining genes within E. coli cells.
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