Difference between revisions of "Team:Cornell"

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         #HQ_page p {
 
         #HQ_page p {
 
             font-family: 'Opens Sans', sans-serif;
 
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                 <div class="home-banner-content-wrapper">
 
                 <div class="home-banner-content-wrapper">
 
                     <img class="home-banner-logo" src="https://static.igem.org/mediawiki/2018/6/63/T--Cornell--OscillateLogo.jpg">
 
                     <img class="home-banner-logo" src="https://static.igem.org/mediawiki/2018/6/63/T--Cornell--OscillateLogo.jpg">
                     <p class="home-banner-caption">Introducing novelty through a frequency-based biological band-pass filter.</p>
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                     <div class="home-banner-caption">Introducing novelty through a frequency-based biological band-pass filter.</div>
 
                     <div class="home-banner-chevron-wrapper">
 
                     <div class="home-banner-chevron-wrapper">
 
                         <a id="chevron-button" href="#home-description"><img class="home-banner-chevron" src="https://static.igem.org/mediawiki/2018/d/d0/T--Cornell--RedChevron.jpg"></a>
 
                         <a id="chevron-button" href="#home-description"><img class="home-banner-chevron" src="https://static.igem.org/mediawiki/2018/d/d0/T--Cornell--RedChevron.jpg"></a>
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                     </div>
 
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                     <hr class="yellow-accent-line-left-sub">
 
                     <hr class="yellow-accent-line-left-sub">
                     <p>We are building a <span id="home-description-emphasis-words">biological band-pass filter</span>. While biological band pass filters have been developed before, none respond to frequency-based inputs but instead respond to amplitude based inputs. By controlling the rates of degradation of the components of our system, we are putting together a <span id="home-description-emphasis-words">frequency-response</span> low-pass and high-pass filter to create a <span id="home-description-emphasis-words">novel</span> band-pass filter.</p>
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                     <div>We are building a <span id="home-description-emphasis-words">biological band-pass filter</span>. While biological band pass filters have been developed before, none respond to frequency-based inputs but instead respond to amplitude based inputs. By controlling the rates of degradation of the components of our system, we are putting together a <span id="home-description-emphasis-words">frequency-response</span> low-pass and high-pass filter to create a <span id="home-description-emphasis-words">novel</span> band-pass filter.</div>
 
                 </div>
 
                 </div>
 
                 <div class="home-sub-description-right-image">
 
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                 </div>
 
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                 <hr class="yellow-accent-line-right-sub">
 
                 <hr class="yellow-accent-line-right-sub">
                 <p>We are building a <span id="home-description-emphasis-words">biological band-pass filter</span>. While biological band pass filters have been developed before, none respond to frequency-based inputs but instead respond to amplitude based inputs. By controlling the rates of degradation of the components of our system, we are putting together a <span id="home-description-emphasis-words">frequency-response</span> low-pass and high-pass filter to create a <span id="home-description-emphasis-words">novel</span> band-pass filter.</p>
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                 <div>We are building a <span id="home-description-emphasis-words">biological band-pass filter</span>. While biological band pass filters have been developed before, none respond to frequency-based inputs but instead respond to amplitude based inputs. By controlling the rates of degradation of the components of our system, we are putting together a <span id="home-description-emphasis-words">frequency-response</span> low-pass and high-pass filter to create a <span id="home-description-emphasis-words">novel</span> band-pass filter.</div>
 
                 </div>
 
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                     <hr class="yellow-accent-line-left-sub">
 
                     <hr class="yellow-accent-line-left-sub">
                     <p>We are building a <span id="home-description-emphasis-words">biological band-pass filter</span>. While biological band pass filters have been developed before, none respond to frequency-based inputs but instead respond to amplitude based inputs. By controlling the rates of degradation of the components of our system, we are putting together a <span id="home-description-emphasis-words">frequency-response</span> low-pass and high-pass filter to create a <span id="home-description-emphasis-words">novel</span> band-pass filter.</p>
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                     <div>We are building a <span id="home-description-emphasis-words">biological band-pass filter</span>. While biological band pass filters have been developed before, none respond to frequency-based inputs but instead respond to amplitude based inputs. By controlling the rates of degradation of the components of our system, we are putting together a <span id="home-description-emphasis-words">frequency-response</span> low-pass and high-pass filter to create a <span id="home-description-emphasis-words">novel</span> band-pass filter.</div>
 
                 </div>
 
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                 <hr class="yellow-accent-line-right-sub">
 
                 <hr class="yellow-accent-line-right-sub">
                 <p>We are building a <span id="home-description-emphasis-words">biological band-pass filter</span>. While biological band pass filters have been developed before, none respond to frequency-based inputs but instead respond to amplitude based inputs. By controlling the rates of degradation of the components of our system, we are putting together a <span id="home-description-emphasis-words">frequency-response</span> low-pass and high-pass filter to create a <span id="home-description-emphasis-words">novel</span> band-pass filter.</p>
+
                 <div>We are building a <span id="home-description-emphasis-words">biological band-pass filter</span>. While biological band pass filters have been developed before, none respond to frequency-based inputs but instead respond to amplitude based inputs. By controlling the rates of degradation of the components of our system, we are putting together a <span id="home-description-emphasis-words">frequency-response</span> low-pass and high-pass filter to create a <span id="home-description-emphasis-words">novel</span> band-pass filter.</div>
 
                 </div>
 
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                 <div class="home-sub-description-left-image">
 
                 <div class="home-sub-description-left-image">

Revision as of 21:57, 24 September 2018

Team:Cornell - 2018.igem.org

Introducing novelty through a frequency-based biological band-pass filter.
We are building a biological band-pass filter. While biological band pass filters have been developed before, none respond to frequency-based inputs but instead respond to amplitude based inputs. By controlling the rates of degradation of the components of our system, we are putting together a frequency-response low-pass and high-pass filter to create a novel band-pass filter.

Our filter would allow bacteria to respond only to certain frequency-based inputs, and give it even more digital logic-like character, long a goal of synthetic biology. Moving forward, our project could be an important tool for scientists as synthetic biology branches into increasingly diverse fields.
Ideation.
We are building a biological band-pass filter. While biological band pass filters have been developed before, none respond to frequency-based inputs but instead respond to amplitude based inputs. By controlling the rates of degradation of the components of our system, we are putting together a frequency-response low-pass and high-pass filter to create a novel band-pass filter.
Ideation.
We are building a biological band-pass filter. While biological band pass filters have been developed before, none respond to frequency-based inputs but instead respond to amplitude based inputs. By controlling the rates of degradation of the components of our system, we are putting together a frequency-response low-pass and high-pass filter to create a novel band-pass filter.
Ideation.
We are building a biological band-pass filter. While biological band pass filters have been developed before, none respond to frequency-based inputs but instead respond to amplitude based inputs. By controlling the rates of degradation of the components of our system, we are putting together a frequency-response low-pass and high-pass filter to create a novel band-pass filter.
Ideation.
We are building a biological band-pass filter. While biological band pass filters have been developed before, none respond to frequency-based inputs but instead respond to amplitude based inputs. By controlling the rates of degradation of the components of our system, we are putting together a frequency-response low-pass and high-pass filter to create a novel band-pass filter.