Team:NYMU-Taipei/Project/Time Regulation

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(New page: We, the subteam self-proclaimed as the regulators of time, control time through the use of oscillators. Our goal is to design a subsystem such that it would set to detach after a specified...)
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We, the subteam self-proclaimed as the regulators of time, control time through the use of oscillators.
We, the subteam self-proclaimed as the regulators of time, control time through the use of oscillators.
Our goal is to design a subsystem such that it would set to detach after a specified amount of time.
Our goal is to design a subsystem such that it would set to detach after a specified amount of time.
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{| border="1" style="width:90%;margin-left:5%;border:1px solid gray;"
{| border="1" style="width:90%;margin-left:5%;border:1px solid gray;"
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| style="width:50%;padding:5px;vertical-align:top;" | [[/Cyanoxilator|Cyanoxilator]] (Cyanobacterial Oscillator)
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| style="width:50%;padding:5px;vertical-align:top;" | [[Team:NYMU-Taipei/Cyanoxilator|Cyanoxilator]] (Cyanobacterial Oscillator)
* Uses the three Kai proteins existing in Cyanobacteria (KaiA, KaiB, KaiC) that already naturally has a oscillatory rhythm and moving it over to  ''E. coli''.
* Uses the three Kai proteins existing in Cyanobacteria (KaiA, KaiB, KaiC) that already naturally has a oscillatory rhythm and moving it over to  ''E. coli''.
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| style="width:50%;padding:5px;" | [[/Reloxilator|Reloxilator]] (Relaxation Oscillator)
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| style="width:50%;padding:5px;" | [[Team:NYMU-Taipei/Reloxilator|Reloxilator]] (Relaxation Oscillator)
* A tuneable intracell-synchronized relaxation oscillator based on the combination of:
* A tuneable intracell-synchronized relaxation oscillator based on the combination of:
** The lysogenic/lysis genetic switch in the phage λ and giving it oscillatory and tuneable properties.
** The lysogenic/lysis genetic switch in the phage λ and giving it oscillatory and tuneable properties.
** The intracellular-synchronizing properties of the ''Vibrio Fischeri'' organism.
** The intracellular-synchronizing properties of the ''Vibrio Fischeri'' organism.
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Revision as of 17:37, 1 August 2008

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We, the subteam self-proclaimed as the regulators of time, control time through the use of oscillators. Our goal is to design a subsystem such that it would set to detach after a specified amount of time. We are using two very different kinds of oscillators to meet our goal:

Cyanoxilator (Cyanobacterial Oscillator)
  • Uses the three Kai proteins existing in Cyanobacteria (KaiA, KaiB, KaiC) that already naturally has a oscillatory rhythm and moving it over to E. coli.
Reloxilator (Relaxation Oscillator)
  • A tuneable intracell-synchronized relaxation oscillator based on the combination of:
    • The lysogenic/lysis genetic switch in the phage λ and giving it oscillatory and tuneable properties.
    • The intracellular-synchronizing properties of the Vibrio Fischeri organism.