Team:UANL Mty-Mexico/Project/Circuit
From 2011.igem.org
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Once explained the <span class="content-link"><a href="https://2011.igem.org/Team:UANL_Mty-Mexico/Project/Mechanism" title="Mechanism Description">mechanism</a> </span> through which the community processes the information, it is time to have a look at the whole genetic circuit. A brief description of each figure is provided in sake of clarity.</p> | Once explained the <span class="content-link"><a href="https://2011.igem.org/Team:UANL_Mty-Mexico/Project/Mechanism" title="Mechanism Description">mechanism</a> </span> through which the community processes the information, it is time to have a look at the whole genetic circuit. A brief description of each figure is provided in sake of clarity.</p> | ||
- | <p>Most of the circuit is made up of biobricks, listed at the bottom of the page. However, some of the parts are yet to be submitted to the registry of biological parts. | + | <p>Most of the circuit is made up of biobricks, listed at the bottom of the page. However, some of the parts are yet to be submitted to the registry of biological parts. The genetic light induction system is described in the <span class="content-link"><a href="https://2011.igem.org/Team:UANL_Mty-Mexico/Contributions/Photochassis" title="Mechanism Description">Photochassis</a></span> section.</p> |
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- | <p> <b>Red light induced, green light repressed.</b> Red light induces cI's expression as well as PAI auntoinducer synthetase (QS1 producer) from pTetMnt and pMnt, respectively. cI can activate rather pRM or pRM434, depending on its concentration. pRM transcribes GFP and cI434, the latter repressing pRM434. The community then enters state 1. As [cI] increases, pRM gets repressed and pRM434 is allowed to be activated by cI; YFP is then transcribed from pRM434. That would mean state 2. </p><p> | + | <p> <b>Red light induced, green light repressed.</b> Red light induces cI's expression as well as PAI auntoinducer synthetase (QS1 producer) from pTetMnt and pMnt, respectively. cI can activate rather pRM or pRM434, depending on its concentration. pRM transcribes GFP and cI434, the latter repressing pRM434. The community then enters <b>state 1</b>. As [cI] increases, pRM gets repressed and pRM434 is allowed to be activated by cI; YFP is then transcribed from pRM434. That would mean <b>state 2</b>. </p><p> |
In the dotted box, green light-activated HHL auntoinducer synthetase from cell two which produces HHL molecules (QS2). RhIR is constitutively produced in cell one. When QS2 molecules reach cell one, they bind to RhIR and the complex activates transcription of TetR and cI434 from pRhIR/HHL. TetR represses pTetMnt inhibiting cI's further transcription; cI434 represses pRM434 enforcing cell's one off state. Note that aisPAI does not get repressed by green light. The λ operators OL and OR, spaced ∼2.4 kb apart, allow DNA looping required for the <span class="content-link"><a href="https://2011.igem.org/Team:UANL_Mty-Mexico/Project/Mechanism#Molecularly" title="Why DNA looping?">biphasic switch</a> </span>. | In the dotted box, green light-activated HHL auntoinducer synthetase from cell two which produces HHL molecules (QS2). RhIR is constitutively produced in cell one. When QS2 molecules reach cell one, they bind to RhIR and the complex activates transcription of TetR and cI434 from pRhIR/HHL. TetR represses pTetMnt inhibiting cI's further transcription; cI434 represses pRM434 enforcing cell's one off state. Note that aisPAI does not get repressed by green light. The λ operators OL and OR, spaced ∼2.4 kb apart, allow DNA looping required for the <span class="content-link"><a href="https://2011.igem.org/Team:UANL_Mty-Mexico/Project/Mechanism#Molecularly" title="Why DNA looping?">biphasic switch</a> </span>. | ||
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- | <div class = "img-holder" style="width:686px"> <a href="https://static.igem.org/mediawiki/2011/f/fe/Circuit.jpg" rel="lightbox" title="<b>Red light induced, green light repressed.</b> Red light induces cI's expression as well as PAI auntoinducer synthetase (QS1 producer) from pTetMnt and pMnt, respectively. cI can activate rather pRM or pRM434, depending on its concentration. pRM transcribes GFP and cI434, the latter repressing pRM434. The community then enters state 1. As [cI] increases, pRM gets repressed and pRM434 is allowed to be activated by cI; YFP is then transcribed from pRM434. That would mean state 2. </p><p> | + | <div class = "img-holder" style="width:686px"> <a href="https://static.igem.org/mediawiki/2011/f/fe/Circuit.jpg" rel="lightbox" title="<b>Red light induced, green light repressed.</b> Red light induces cI's expression as well as PAI auntoinducer synthetase (QS1 producer) from pTetMnt and pMnt, respectively. cI can activate rather pRM or pRM434, depending on its concentration. pRM transcribes GFP and cI434, the latter repressing pRM434. The community then enters <b>state 1</b>. As [cI] increases, pRM gets repressed and pRM434 is allowed to be activated by cI; YFP is then transcribed from pRM434. That would mean <b>state 2</b>. </p><p> |
In the dotted box, green light-activated HHL auntoinducer synthetase from cell two which produces HHL molecules (QS2). RhIR is constitutively produced in cell one. When QS2 molecules reach cell one, they bind to RhIR and the complex activates transcription of TetR and cI434 from pRhIR/HHL. TetR represses pTetMnt inhibiting cI's further transcription; cI434 represses pRM434 enforcing cell's one off state. Note that aisPAI does not get repressed by green light. The λ operators OL and OR, spaced ∼2.4 kb apart, allow DNA looping required for the biphasic switch."><img src="https://static.igem.org/mediawiki/2011/f/fe/Circuit.jpg"width="686px" height="346px" alt="Circuit Cell One" align="center"></a> | In the dotted box, green light-activated HHL auntoinducer synthetase from cell two which produces HHL molecules (QS2). RhIR is constitutively produced in cell one. When QS2 molecules reach cell one, they bind to RhIR and the complex activates transcription of TetR and cI434 from pRhIR/HHL. TetR represses pTetMnt inhibiting cI's further transcription; cI434 represses pRM434 enforcing cell's one off state. Note that aisPAI does not get repressed by green light. The λ operators OL and OR, spaced ∼2.4 kb apart, allow DNA looping required for the biphasic switch."><img src="https://static.igem.org/mediawiki/2011/f/fe/Circuit.jpg"width="686px" height="346px" alt="Circuit Cell One" align="center"></a> | ||
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- | <p><b>Green light induced, red light repressed.</b> Remember cells one and two share a very similar mechanism. Green light induces cI's expression as well as HHL auntoinducer synthetase (QS2 producer) from pCpcG2/TetR and pCpcG2, respectively. cI can activate rather pRM or pRM434, depending on its concentration. pRM transcribes RFP and cI434, the latter repressing pRM434. The community then enters state 3. As [cI] increases, pRM gets repressed and pRM434 is allowed to be activated by cI; BFP is then transcribed from pRM434. That would be state 4.</p><p>In the dotted box, red light-activated HHL auntoinducer synthetase from cell one which produces PAI molecules (QS1). LasR is constitutively produced in cell two. When QS1 molecules reach cell two, they bind to LasR and the complex activates transcription of TetR and cI434 from pLasR/PAI. TetR represses pCpcG2/tetR inhibiting cI's further transcription; cI434 represses pRM434 enforcing cell's two off state. Note that aisHHL does not get repressed by red light. The λ operators OL and OR, spaced ∼2.4 kb apart, allow DNA looping required for the <span class="content-link"><a href="https://2011.igem.org/Team:UANL_Mty-Mexico/Project/Mechanism#Molecularly" title="Why DNA looping?">biphasic switch</a> </span>. | + | <p><b>Green light induced, red light repressed.</b> Remember cells one and two share a very similar mechanism. Green light induces cI's expression as well as HHL auntoinducer synthetase (QS2 producer) from pCpcG2/TetR and pCpcG2, respectively. cI can activate rather pRM or pRM434, depending on its concentration. pRM transcribes RFP and cI434, the latter repressing pRM434. The community then enters <b>state 3</b>. As [cI] increases, pRM gets repressed and pRM434 is allowed to be activated by cI; BFP is then transcribed from pRM434. That would be <b>state 4</b>.</p><p>In the dotted box, red light-activated HHL auntoinducer synthetase from cell one which produces PAI molecules (QS1). LasR is constitutively produced in cell two. When QS1 molecules reach cell two, they bind to LasR and the complex activates transcription of TetR and cI434 from pLasR/PAI. TetR represses pCpcG2/tetR inhibiting cI's further transcription; cI434 represses pRM434 enforcing cell's two off state. Note that aisHHL does not get repressed by red light. The λ operators OL and OR, spaced ∼2.4 kb apart, allow DNA looping required for the <span class="content-link"><a href="https://2011.igem.org/Team:UANL_Mty-Mexico/Project/Mechanism#Molecularly" title="Why DNA looping?">biphasic switch</a> </span>. |
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- | <a href="https://static.igem.org/mediawiki/2011/8/87/Circuit2.jpg" rel="lightbox" title="<b>Green light induced, red light repressed.</b> Remember cells one and two share a very similar mechanism. Green light induces cI's expression as well as HHL auntoinducer synthetase (QS2 producer) from pCpcG2/TetR and pCpcG2, respectively. cI can activate rather pRM or pRM434, depending on its concentration. pRM transcribes RFP and cI434, the latter repressing pRM434. The community then enters state 3. As [cI] increases, pRM gets repressed and pRM434 is allowed to be activated by cI; BFP is then transcribed from pRM434. That would be state 4.</p><p>In the dotted box, red light-activated HHL auntoinducer synthetase from cell one which produces PAI molecules (QS1). LasR is constitutively produced in cell two. When QS1 molecules reach cell two, they bind to LasR and the complex activates transcription of TetR and cI434 from pLasR/PAI. TetR represses pCpcG2/tetR inhibiting cI's further transcription; cI434 represses pRM434 enforcing cell's two off state. Note that aisHHL does not get repressed by red light. The λ operators OL and OR, spaced ∼2.4 kb apart, allow DNA looping required for the biphasic switch."> | + | <a href="https://static.igem.org/mediawiki/2011/8/87/Circuit2.jpg" rel="lightbox" title="<b>Green light induced, red light repressed.</b> Remember cells one and two share a very similar mechanism. Green light induces cI's expression as well as HHL auntoinducer synthetase (QS2 producer) from pCpcG2/TetR and pCpcG2, respectively. cI can activate rather pRM or pRM434, depending on its concentration. pRM transcribes RFP and cI434, the latter repressing pRM434. The community then enters <b>state 3</b>. As [cI] increases, pRM gets repressed and pRM434 is allowed to be activated by cI; BFP is then transcribed from pRM434. That would be <b>state 4</b>.</p><p>In the dotted box, red light-activated HHL auntoinducer synthetase from cell one which produces PAI molecules (QS1). LasR is constitutively produced in cell two. When QS1 molecules reach cell two, they bind to LasR and the complex activates transcription of TetR and cI434 from pLasR/PAI. TetR represses pCpcG2/tetR inhibiting cI's further transcription; cI434 represses pRM434 enforcing cell's two off state. Note that aisHHL does not get repressed by red light. The λ operators OL and OR, spaced ∼2.4 kb apart, allow DNA looping required for the biphasic switch."> |
<img src="https://static.igem.org/mediawiki/2011/8/87/Circuit2.jpg"width="686px" height="320px" alt="Circuit Cell Two" align="center"></a> | <img src="https://static.igem.org/mediawiki/2011/8/87/Circuit2.jpg"width="686px" height="320px" alt="Circuit Cell Two" align="center"></a> | ||
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- | <p><b>Green AND Red Light induced.</b> When both lights are on, cells one and two repress each other but keep producing QS molecules (through aisPAI and aisHHL, in the dotted boxes); cell three then gets active. LasR and RhIR are constitutively expressed in cell three. Mnt represses pMnt, inhibiting CFP's transcription. There are two Mnt genes placed under a different promoter each. PAI molecules (QS1) coming from cell one bind to LasR and the complex activates cI's transcription from pLasR/PAI. cI then represses pR, inhibiting Mnt's transcription. HHL molecules (QS2) coming from cell two bind to RhIR and the complex activates TetR's transcription from pRhIR/HHL. TetR then represses the second Mnt's transcription from pTet. Only when both Mnt genes are repressed (Mnt NOR Mnt), CFP is allowed to be expressed from pMnt; then the community enters state 5. Even if a NOR gate is directly implied in CFP's expression, we consider this globally as an <span class="content-link"><a href="https://2011.igem.org/Team:UANL_Mty-Mexico/Project/Mechanism#Gate" title="AND gate description">AND gate</a> </span> as both lights need to be present to induce CFP expression.</p> | + | <p><b>Green AND Red Light induced.</b> When both lights are on, cells one and two repress each other but keep producing QS molecules (through aisPAI and aisHHL, in the dotted boxes); cell three then gets active. LasR and RhIR are constitutively expressed in cell three. Mnt represses pMnt, inhibiting CFP's transcription. There are two Mnt genes placed under a different promoter each. PAI molecules (QS1) coming from cell one bind to LasR and the complex activates cI's transcription from pLasR/PAI. cI then represses pR, inhibiting Mnt's transcription. HHL molecules (QS2) coming from cell two bind to RhIR and the complex activates TetR's transcription from pRhIR/HHL. TetR then represses the second Mnt's transcription from pTet. Only when both Mnt genes are repressed (Mnt NOR Mnt), CFP is allowed to be expressed from pMnt; then the community enters <b>state 5</b>. Even if a NOR gate is directly implied in CFP's expression, we consider this globally as an <span class="content-link"><a href="https://2011.igem.org/Team:UANL_Mty-Mexico/Project/Mechanism#Gate" title="AND gate description">AND gate</a> </span> as both lights need to be present to induce CFP expression.</p> |
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<div class = "img-holder" style="width:686px"> | <div class = "img-holder" style="width:686px"> | ||
- | <a href="https://static.igem.org/mediawiki/2011/0/0e/Circuit3-new.png" rel="lightbox" title="<b>Green AND Red Light induced.</b> When both lights are on, cells one and two repress each other but keep producing QS molecules (through aisPAI and aisHHL, in the dotted boxes); cell three then gets active. LasR and RhIR are constitutively expressed in cell three. Mnt represses pMnt, inhibiting CFP's transcription. There are two Mnt genes placed under a different promoter each. PAI molecules (QS1) coming from cell one bind to LasR and the complex activates cI's transcription from pLasR/PAI. cI then represses pR, inhibiting Mnt's transcription. HHL molecules (QS2) coming from cell two bind to RhIR and the complex activates TetR's transcription from pRhIR/HHL. TetR then represses the second Mnt's transcription from pTet. Only when both Mnt genes are repressed (Mnt NOR Mnt), CFP is allowed to be expressed from pMnt; then the community enters state 5. Even if a NOR gate is directly implied in CFP's expression, we consider this globally as an AND gate as both lights need to be present to induce CFP expression."> | + | <a href="https://static.igem.org/mediawiki/2011/0/0e/Circuit3-new.png" rel="lightbox" title="<b>Green AND Red Light induced.</b> When both lights are on, cells one and two repress each other but keep producing QS molecules (through aisPAI and aisHHL, in the dotted boxes); cell three then gets active. LasR and RhIR are constitutively expressed in cell three. Mnt represses pMnt, inhibiting CFP's transcription. There are two Mnt genes placed under a different promoter each. PAI molecules (QS1) coming from cell one bind to LasR and the complex activates cI's transcription from pLasR/PAI. cI then represses pR, inhibiting Mnt's transcription. HHL molecules (QS2) coming from cell two bind to RhIR and the complex activates TetR's transcription from pRhIR/HHL. TetR then represses the second Mnt's transcription from pTet. Only when both Mnt genes are repressed (Mnt NOR Mnt), CFP is allowed to be expressed from pMnt; then the community enters <b>state 5</b>. Even if a NOR gate is directly implied in CFP's expression, we consider this globally as an AND gate as both lights need to be present to induce CFP expression."> |
<img src="https://static.igem.org/mediawiki/2011/0/0e/Circuit3-new.png"width="671" height="330" alt="Circuit Cell Three" align="center"> | <img src="https://static.igem.org/mediawiki/2011/0/0e/Circuit3-new.png"width="671" height="330" alt="Circuit Cell Three" align="center"> | ||
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+ | |||
+ | <table width="700px"> | ||
+ | <tr class="yellow"> | ||
+ | <td class="width">BioBrick</td> | ||
+ | <td class="adjacent">Part name</td> | ||
+ | <td class="adjacent">Description</td> | ||
+ | </tr> | ||
<tr> | <tr> | ||
<td class="bold">pConst+RBS</td> | <td class="bold">pConst+RBS</td> | ||
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<td class="bold">aisHHL</td> | <td class="bold">aisHHL</td> | ||
<td class="adjacent"><a href="http://partsregistry.org/Part:BBa_C0070">BBa_C0070</a></td> | <td class="adjacent"><a href="http://partsregistry.org/Part:BBa_C0070">BBa_C0070</a></td> | ||
- | <td class="final">Autoinducer synthesis protein that produces N-butyryl-HHL | + | <td class="final">Autoinducer synthesis protein that produces N-butyryl-HHL which binds to RhlR</td> |
</tr> | </tr> | ||
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- | <img src="https://static.igem.org/mediawiki/igem.org/0/09/OurSymbol.png" width="200" height="160" alt="OurSymbol"> | + | <a href="#top" title="Go back to top"><img src="https://static.igem.org/mediawiki/igem.org/0/09/OurSymbol.png" width="200" height="160" alt="OurSymbol"></a> |
+ | |||
<div class="br"></div> | <div class="br"></div> |
Latest revision as of 16:56, 13 February 2012
Once explained the mechanism through which the community processes the information, it is time to have a look at the whole genetic circuit. A brief description of each figure is provided in sake of clarity.
Most of the circuit is made up of biobricks, listed at the bottom of the page. However, some of the parts are yet to be submitted to the registry of biological parts. The genetic light induction system is described in the Photochassis section.
Red light induced, green light repressed. Red light induces cI's expression as well as PAI auntoinducer synthetase (QS1 producer) from pTetMnt and pMnt, respectively. cI can activate rather pRM or pRM434, depending on its concentration. pRM transcribes GFP and cI434, the latter repressing pRM434. The community then enters state 1. As [cI] increases, pRM gets repressed and pRM434 is allowed to be activated by cI; YFP is then transcribed from pRM434. That would mean state 2.
In the dotted box, green light-activated HHL auntoinducer synthetase from cell two which produces HHL molecules (QS2). RhIR is constitutively produced in cell one. When QS2 molecules reach cell one, they bind to RhIR and the complex activates transcription of TetR and cI434 from pRhIR/HHL. TetR represses pTetMnt inhibiting cI's further transcription; cI434 represses pRM434 enforcing cell's one off state. Note that aisPAI does not get repressed by green light. The λ operators OL and OR, spaced ∼2.4 kb apart, allow DNA looping required for the biphasic switch .
Green light induced, red light repressed. Remember cells one and two share a very similar mechanism. Green light induces cI's expression as well as HHL auntoinducer synthetase (QS2 producer) from pCpcG2/TetR and pCpcG2, respectively. cI can activate rather pRM or pRM434, depending on its concentration. pRM transcribes RFP and cI434, the latter repressing pRM434. The community then enters state 3. As [cI] increases, pRM gets repressed and pRM434 is allowed to be activated by cI; BFP is then transcribed from pRM434. That would be state 4.
In the dotted box, red light-activated HHL auntoinducer synthetase from cell one which produces PAI molecules (QS1). LasR is constitutively produced in cell two. When QS1 molecules reach cell two, they bind to LasR and the complex activates transcription of TetR and cI434 from pLasR/PAI. TetR represses pCpcG2/tetR inhibiting cI's further transcription; cI434 represses pRM434 enforcing cell's two off state. Note that aisHHL does not get repressed by red light. The λ operators OL and OR, spaced ∼2.4 kb apart, allow DNA looping required for the biphasic switch .
Green AND Red Light induced. When both lights are on, cells one and two repress each other but keep producing QS molecules (through aisPAI and aisHHL, in the dotted boxes); cell three then gets active. LasR and RhIR are constitutively expressed in cell three. Mnt represses pMnt, inhibiting CFP's transcription. There are two Mnt genes placed under a different promoter each. PAI molecules (QS1) coming from cell one bind to LasR and the complex activates cI's transcription from pLasR/PAI. cI then represses pR, inhibiting Mnt's transcription. HHL molecules (QS2) coming from cell two bind to RhIR and the complex activates TetR's transcription from pRhIR/HHL. TetR then represses the second Mnt's transcription from pTet. Only when both Mnt genes are repressed (Mnt NOR Mnt), CFP is allowed to be expressed from pMnt; then the community enters state 5. Even if a NOR gate is directly implied in CFP's expression, we consider this globally as an AND gate as both lights need to be present to induce CFP expression.
BioBrick | Part name | Description |
pConst+RBS | BBa_K081005 | Constitutive promoter plus Strong Ribosome Binding Site |
RBS (strong) | BBa_B0030 | Strong Ribosome Binding Site |
mRFP | BBa_J06505 | Red Fluorescent Protein with LVA tag |
GFP | BBa_K145015 | Green Fluorescent Protein with LVA tag |
CFP | BBa_E0022 | Cyan Fluorescent Protein with LVA tag |
YFP | BBa_E0032 | Yellow Fluorescent Protein with LVA tag |
BFP | BBa_K156010 | Blue Fluorescent Protein with LVA tag |
Double Ter | BBa_B0015 | Double transcriptional terminator |
Double Ter | BBa_B0014 | Double transcriptional terminator |
Mnt | BBa_B0030 | Mnt Repressor |
pRM434 | BBa_I12006 | Hybrid Promoter, induced by cI and repressed by cI434 |
pLasR/PAl | BBa_R0079 | LasR & PAl regulated Promoter (Quorum sensing) |
pRhlR/HHL | BBa_R0071 | RhlR & HHL regulated Promoter (Quorum sensing) |
aisHHL | BBa_C0070 | Autoinducer synthesis protein that produces N-butyryl-HHL which binds to RhlR |
RhlR | BBa_C0071 | Transcriptional regulator, in complex with RhlR binds to the RhlR promoter |
aisPAl | BBa_C0078 | Autoinducer synthesis protein that produces PAI-1 [N-(3-oxododecanoyl)-L-homoserine lactone] which binds to LasR |
LasR | BBa_C0079 | Transcriptional regulator, in complex with PAI binds to LasR promoter |
pMnt | BBa_R0073 | Mnt Reprressible Promoter |
RBS.2 (weak) | BBa_B0030 | Weak Ribosome Binding Site |
RBS.3 (medium) | BBa_B0032 | Medium Ribosome Binding Site |
RBS.4 (weaker) | BBa_B0033 | Weaker Ribosome Binding Site |
TetR | BBa_C0040 | Tetracycline Repressor with LVA tag |
cI | BBa_C0051 | cI protein from phage lambda |
cI434 | BBa_C0052 | cI protein from phage 434 |
pTetR | BBa_R0040 | TetR repressible Promoter |
pR | BBa_R0051 | Right Promoter from Phage lambda |
pTetMnt | BBa_K091105 | Mnt and TetR repressible Promoter |