A decade’s worth of engineering-infused biology
In the late 1990s, a handful of physicists and engineers began to take a greater interest in biology. The Human Genome Project was spitting out more and more gene sequences, but no one knew how all these genes and proteins worked together to create a living, breathing organism. . . .
By Jef Akst (New Scientist)
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Exploiting the unique properties of living systems makes synthetic biologists better engineers. |
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Designing genomes from scratch will be the next revolution in biology. |
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Infographic: Designing Genetic Circuits Near the turn of the millennium, James Collins and Stanislas Leibler independently undertook rather similar projects: design what would become synthetic biology’s seminal genetic circuits. And they came up with strikingly similar action plans—use E. coli to pair promoters with repressors that control one another’s behavior. . . . |
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Rewriting E. coli’s Genetic Code Researchers use directed evolution to create a bacterial strain that substitutes a synthetic base for thymine. By Sabine Louët |
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A method for rapidly replacing stop codons throughout the genetic code of E. coli paves the way for biomanufacturing designer proteins. By Tia Ghose |
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The potential costs of regulating synthetic biology must be counted against putative benefits. By Rob Carlson |
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Q&A: Ethics Chair On Synthetic Biology The Scientist speaks with the chair of a presidential bioethics commission, which decided this week that synthetic biology should not be too harshly regulated by the US government. By Jef Akst |
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Is the “Synthetic Cell” about Life? A bioethicist explores the soul of Venter’s new life form and of his experiment. By Gregory Kaebnick |
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