Difference between revisions of "Team:ZJU-China/Description"
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Revision as of 03:07, 2 October 2016
Description
Synthetic genetic oscillators have long been of interest to the scientific community. Our team has constructed a special oscillator gene circuit manipulating two quorum sensing autoinducers to change periodically, and reach their peak value alternately. Inspired by Enigma machine, we intend to use our oscillator circuit to make a biological cipher machine, which is able to encrypt a.
Synthetic genetic oscillators have long been of interest to the scientific community. Our team has constructed a special oscillator gene circuit manipulating two quorum sensing autoinducers to change periodically, and reach their peak value alternately. Inspired by Enigma machine, we intend to use our oscillator circuit to make a biological cipher machine, which is able to encryptSynthetic genetic oscillators have long been of interest to the scientific community. Our team has constructed a special oscillator gene circuit manipulating two quorum sensing autoinducers to change periodically, and reach their peak value alternately. Inspired by Enigma machine, we intend to use our oscillator circuit to make a biological cipher machine, which is able to encrypt
Synthetic genetic oscillators have long been of interest to the scientific community. Our team has constructed a special oscillator gene circuit manipulating two quorum sensing autoinducers to change periodically, and reach their peak value alternately. Inspired by Enigma machine, we intend to use our oscillator circuit to make a biological cipher machine, which is able to encrypt a.ers to change periodically, and reach their peak value alternately. Inspired by Enigma machine, we intend to use our oscillator circuit to make a biological cipher machine, which is able to encrypt
