Team:Valencia/Project/Results

From 2009.igem.org

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We have:<br>
We have:<br>
<ol>
<ol>
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<li>Designed and constructed the first Lightning Cell Display (iLCD), which is able to produce an animated image of up to 144 pixels from a given electrical stimulus.</li>
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<li>Designed and constructed the first [https://2009.igem.org/Team:Valencia/Hardware/iLCD '''Lightning Cell Display (iLCD)'''], a fast and responsive '''digital imaging''' system based on living cells, which is able to produce an animated image of up to 144 pixels from a given electrical stimulus.</li>
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<li>Built the first Light Emitting Cell (LEC), opening the gate to the use of electricity as a signal mediator in Synthetic Biology works.</li>
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<li>Built the first [https://2009.igem.org/Team:Valencia/WetLab/YeastTeam '''Light Emitting Cell (LEC)'''], opening the gate to the use of electricity as a signal mediator in Synthetic Biology works.</li>
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<li>Precisely characterized the LEC, studying the factors that can be tuned (like voltage and shock time) and proving in a wide range of experiments that aequorin-engineered yeast can be stimulated with electric current.</li>
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<li>Developed an integrative [https://2009.igem.org/Team:Valencia/Hardware experimental system] to control the LECs, which is able to apply a precise voltage (between 0V-24V) during a precise period of time (with intervals as small as 20 ms.) controlled by a computer. The [https://2009.igem.org/Team:Valencia/Hardware experimental device] was integrated with a continuous luminometer in order to measure the light emission as a function of these parameters.<br><br></li>
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<li>[https://2009.igem.org/Team:Valencia/WetLab/YeastTeam/Results '''Precisely characterized the LEC'''], studying the factors that can be tuned (like voltage and shock time) and proving in a [https://2009.igem.org/Team:Valencia/Parts/Characterization wide range of experiments] that '''aequorin-engineered yeast can be stimulated with electric current'''. From these works we have established that '''the refreshing time of our LEC is of about 10 seconds'''.</li>
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<li>Advanced Bioelectronics enabling bidirectional communication of monocellular organisms and electronic components.<br><br></li>
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<li>Advanced Bioelectronics enabling bidirectional communication of unicellular organisms and electronic components.<br><br></li>
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<li>Built a fast and responsive 'digital imaging' system based on living cells.<br><br></li>
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<li>Characterized a new part: [https://2009.igem.org/Team:Valencia/Parts/Characterization '''BBa_K222000 (Aequorin)'''].<br><br></li>
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<li>10 seconds refreshing time.<br><br></li>
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<li>Characterized a new part: [https://2009.igem.org/Team:Valencia/Parts/Characterization ''BBa_K222000 (Aequorin)''].<br><br></li>
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<li>We have developed an [https://2009.igem.org/Team:Valencia/Hardware experimental system] which is able to apply a precise voltage (between 0V-24V) during a precise interval of time (with a precision up to 20 ms.) controlled by a computer. The [https://2009.igem.org/Team:Valencia/Hardware experimental device] was integrated with a continuous luminometer in order to measure the light emission as a function of these parameters.<br><br></li>
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<li>Developped an impressive [https://2009.igem.org/Team:Valencia/Human Human Practices] part of the project. Resulting in the publication of the book [https://2009.igem.org/Team:Valencia/Human Sins, Ethics and Biology]<br><br></li>
<li>Developped an impressive [https://2009.igem.org/Team:Valencia/Human Human Practices] part of the project. Resulting in the publication of the book [https://2009.igem.org/Team:Valencia/Human Sins, Ethics and Biology]<br><br></li>
<li>Helped TUDelft and NTU-Singapore whith their respectives surveys. We have also helped to Paris Team answering their questions about their iPhone application<br><br></li>
<li>Helped TUDelft and NTU-Singapore whith their respectives surveys. We have also helped to Paris Team answering their questions about their iPhone application<br><br></li>

Revision as of 01:27, 22 October 2009







Achievements

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We have:

  1. Designed and constructed the first Lightning Cell Display (iLCD), a fast and responsive digital imaging system based on living cells, which is able to produce an animated image of up to 144 pixels from a given electrical stimulus.
  2. Built the first Light Emitting Cell (LEC), opening the gate to the use of electricity as a signal mediator in Synthetic Biology works.
  3. Developed an integrative experimental system to control the LECs, which is able to apply a precise voltage (between 0V-24V) during a precise period of time (with intervals as small as 20 ms.) controlled by a computer. The experimental device was integrated with a continuous luminometer in order to measure the light emission as a function of these parameters.

  4. Precisely characterized the LEC, studying the factors that can be tuned (like voltage and shock time) and proving in a wide range of experiments that aequorin-engineered yeast can be stimulated with electric current. From these works we have established that the refreshing time of our LEC is of about 10 seconds.
  5. Advanced Bioelectronics enabling bidirectional communication of unicellular organisms and electronic components.

  6. Characterized a new part: BBa_K222000 (Aequorin).

  7. Developped an impressive Human Practices part of the project. Resulting in the publication of the book Sins, Ethics and Biology

  8. Helped TUDelft and NTU-Singapore whith their respectives surveys. We have also helped to Paris Team answering their questions about their iPhone application






























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