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Team:Chiba/Project
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[[Image:Project design chiba QS.gif|frame|right|'''Fig.1''' Project desgin]] | [[Image:Project design chiba QS.gif|frame|right|'''Fig.1''' Project desgin]] | ||
::'''"Team : Chiba - E.coli time manager"''' | ::'''"Team : Chiba - E.coli time manager"''' | ||
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| - | == | + | ==Introduction== |
[[Image:Chiba-logo.gif||frame|'''Fig.2''' Team logo]] | [[Image:Chiba-logo.gif||frame|'''Fig.2''' Team logo]] | ||
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<br> | <br> | ||
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| - | == | + | ==Our project== |
| + | AHL濃度が上がって、スレッショルド超えるまでの時間を遅くして、発現を遅らせる。 | ||
| + | ==System design== | ||
Our project uses two classes of bacteria: senders and receivers.Senders produce signaling molecules, and receivers are activated only after a particular concentration of this molecule is reached.The communication using non-endogenous molecules is less sensitive,and it requires higher signal concentration to take effect.This results in slower activation of receivers. | Our project uses two classes of bacteria: senders and receivers.Senders produce signaling molecules, and receivers are activated only after a particular concentration of this molecule is reached.The communication using non-endogenous molecules is less sensitive,and it requires higher signal concentration to take effect.This results in slower activation of receivers. | ||
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Communication using non-endogenous molecules is less sensitive, and requires a higher signal concentration to take effect.This results in slower activation of receivers. | Communication using non-endogenous molecules is less sensitive, and requires a higher signal concentration to take effect.This results in slower activation of receivers. | ||
| - | + | ===Sender === | |
*Quorum-Sensing Cross-talk | *Quorum-Sensing Cross-talk | ||
[[Image:AHL variety chiba.gif|frame|'''Fig.4''' AHL varieties]] | [[Image:AHL variety chiba.gif|frame|'''Fig.4''' AHL varieties]] | ||
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日本語:異なる生物は、アシル鎖の長さ、あるいはC-3位の置換基が異なる種類のAHLを合成する。''Vibrio fischeri''は3OC6HSLを、''Pseudomonas aeruginosa''はC4HSL、C6HSL、および3OC12HSLを合成する(Fig.4).AHLを受け取り、遺伝子発現を活性化するLuxRは''Vibrio fischeri''由来であり、低濃度の3OC6HSLに対して(~5nM)、応答する。しかし、他種生物由来のAHLに対しては、より高い濃度でないと応答しないことが分かっている[http://partsregistry.org/Part:BBa_F2620:Specificity <sup>(2)</sup>].AHL合成速度が十分に遅いならば、LuxRは、3OC6HSLに対して最も早く応答し、他のAHLに対してはそれよりも遅く応答する。 | 日本語:異なる生物は、アシル鎖の長さ、あるいはC-3位の置換基が異なる種類のAHLを合成する。''Vibrio fischeri''は3OC6HSLを、''Pseudomonas aeruginosa''はC4HSL、C6HSL、および3OC12HSLを合成する(Fig.4).AHLを受け取り、遺伝子発現を活性化するLuxRは''Vibrio fischeri''由来であり、低濃度の3OC6HSLに対して(~5nM)、応答する。しかし、他種生物由来のAHLに対しては、より高い濃度でないと応答しないことが分かっている[http://partsregistry.org/Part:BBa_F2620:Specificity <sup>(2)</sup>].AHL合成速度が十分に遅いならば、LuxRは、3OC6HSLに対して最も早く応答し、他のAHLに対してはそれよりも遅く応答する。 | ||
| - | + | [[Team:Chiba/Sender_Experiments|Sender experiments detail]] | |
| + | ===Receiver === | ||
English: | English: | ||
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#レシーバータンパク質であるLuxRに変異を入れることで、AHLに対する応答感度を上下させること | #レシーバータンパク質であるLuxRに変異を入れることで、AHLに対する応答感度を上下させること | ||
#AHL分解も同時に起こすことで、AHL合成速度を遅くする | #AHL分解も同時に起こすことで、AHL合成速度を遅くする | ||
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*Quorum-Sensing Cross-talk | *Quorum-Sensing Cross-talk | ||
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日本語: | 日本語: | ||
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*LuxR/Plux mutants show | *LuxR/Plux mutants show | ||
#a greater response to 3OC6HSL[http://authors.library.caltech.edu/5553/ <sup>(3)</sup>] | #a greater response to 3OC6HSL[http://authors.library.caltech.edu/5553/ <sup>(3)</sup>] | ||
#a increase in sensitivity to 3OC12HSL[http://mic.sgmjournals.org/cgi/content/abstract/151/11/3589 <sup>(4)</sup>]. | #a increase in sensitivity to 3OC12HSL[http://mic.sgmjournals.org/cgi/content/abstract/151/11/3589 <sup>(4)</sup>]. | ||
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| + | [[Team:Chiba/Receiver_experiments|Receiver experiments detail]] | ||
| + | ===AiiA=== | ||
*AHL reporter with aiiA | *AHL reporter with aiiA | ||
:Express LuxR and aiiA constantly. AiiA degrades AHL as signaling molecule. Express GFP when the AHL concentration exceed the capacity of aiiA. | :Express LuxR and aiiA constantly. AiiA degrades AHL as signaling molecule. Express GFP when the AHL concentration exceed the capacity of aiiA. | ||
:This enables the delay of the activation time of receiver. | :This enables the delay of the activation time of receiver. | ||
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| + | [[Team:Chiba/AiiA_experiments|AiiA experiments detail]] | ||
| + | ==Demo Experiments== | ||
| + | 実験内容とdataかるく | ||
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| + | [[Team:Chiba/Demo_experiments|Demo experiments detail]] | ||
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| + | ==Conclusion== | ||
| + | けつろん | ||
| + | ==Future Work== | ||
===references=== | ===references=== | ||
Revision as of 11:20, 25 October 2008
| Home | The Team | The Project | Parts Submitted to the Registry | Reference | Notebook | Acknowledgements |
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Project Design ( Sender experiments | Receiver experiments ) | Our Goal |
Abstruct
- "Team : Chiba - E.coli time manager"
We control the timing of gene expression by using multiple signaling devices.To this end,we utilize molecules associated with Quorum sensing, a phenomenon that allows bacteria to communicate with each other.Our project uses two classes of bacteria: senders and receivers. Senders produce signaling molecules, and Receivers are activated only after a particular concentration of this molecule is reached.Although different quorum sensing species have slightly different signaling molecules, these molecules are not completely specific to their hosts and cross-species reactivity is observed [http://www3.interscience.wiley.com/journal/119124142/abstract (1)],[http://partsregistry.org/Part:BBa_F2620:Specificity (2)]. Communication using non-endogenous molecules is less sensitive, and requires a higher signal concentration to take effect.This results in slower activation of receivers.
Introduction
Our project
AHL濃度が上がって、スレッショルド超えるまでの時間を遅くして、発現を遅らせる。
System design
Our project uses two classes of bacteria: senders and receivers.Senders produce signaling molecules, and receivers are activated only after a particular concentration of this molecule is reached.The communication using non-endogenous molecules is less sensitive,and it requires higher signal concentration to take effect.This results in slower activation of receivers.
About Quorum Sensing
Quorum sensing is a cell-to-cell signaling action of bacteria. They detect the cell density of the same species and coordinate the expression behavior of their cells. Species of Gram-Negative signaling transfer molecules (so-called autoinducer) is a series of acyl homoserine lactone (AHL). The signals are synthesized from S-adenosylmethionine(SAM) by a synthase protein and once they have reached a threshold concentration,they bound to a transcriptional regulatory protein to induce expression of target genes.
More about Quorum Sensing
- [http://parts.mit.edu/registry/index.php/Featured_Parts:Cell-Cell-Signaling Cell-Cell-Signaling]
- [http://www.che.caltech.edu/groups/fha/quorum.html About Quorum sensing]
Controlling the time of a cell-to-cell signaling action
Communication using non-endogenous molecules is less sensitive, and requires a higher signal concentration to take effect.This results in slower activation of receivers.
Sender
- Quorum-Sensing Cross-talk
English:AHLs produced by different bacteria differ only in the length of the acyl-chain moiety and substitution at position C-3.
日本語:異なる生物は、アシル鎖の長さ、あるいはC-3位の置換基が異なる種類のAHLを合成する。Vibrio fischeriは3OC6HSLを、Pseudomonas aeruginosaはC4HSL、C6HSL、および3OC12HSLを合成する(Fig.4).AHLを受け取り、遺伝子発現を活性化するLuxRはVibrio fischeri由来であり、低濃度の3OC6HSLに対して(~5nM)、応答する。しかし、他種生物由来のAHLに対しては、より高い濃度でないと応答しないことが分かっている[http://partsregistry.org/Part:BBa_F2620:Specificity (2)].AHL合成速度が十分に遅いならば、LuxRは、3OC6HSLに対して最も早く応答し、他のAHLに対してはそれよりも遅く応答する。
Receiver
English:
日本語:AHLを合成するSenderだけではなく、AHLを受け取る側のReceiverを変えれば、その応答感度を変えることができる。そこで私たちは、以下のいくつかの方法を考えた。
- 一種類のSender(AHL<--LuxI)に対して、由来生物の異なるレシーバタンパク質でそれを受信する。
- レシーバータンパク質であるLuxRに変異を入れることで、AHLに対する応答感度を上下させること
- AHL分解も同時に起こすことで、AHL合成速度を遅くする
- Quorum-Sensing Cross-talk
English:
日本語:
- LuxR/Plux mutants show
- a greater response to 3OC6HSL[http://authors.library.caltech.edu/5553/ (3)]
- a increase in sensitivity to 3OC12HSL[http://mic.sgmjournals.org/cgi/content/abstract/151/11/3589 (4)].
AiiA
- AHL reporter with aiiA
- Express LuxR and aiiA constantly. AiiA degrades AHL as signaling molecule. Express GFP when the AHL concentration exceed the capacity of aiiA.
- This enables the delay of the activation time of receiver.
Demo Experiments
実験内容とdataかるく
Conclusion
けつろん
Future Work
references
- [http://www3.interscience.wiley.com/journal/119124142/abstract M.K Winson et al.:Construction and analysis of luxCDABE-based plasmid sensors for investigating N-acyl homoserine lactone-mediated quorum sensing.FEMS Microbiology Letters 163 (1998) 185-192]
- [http://partsregistry.org/Part:BBa_F2620:Specificity BBa_F2620:Specificity]
- [http://authors.library.caltech.edu/5553/ C. H. Collins.et al.:Directed evolution of Vibrio fischeri LuxR for increased sensitivity to a broad spectrum of acyl-homoserine lactones.Mol.Microbiol.2005.55(3).712–723]
- [http://mic.sgmjournals.org/cgi/content/abstract/151/11/3589 B. Koch. et al.:The LuxR receptor: the sites of interaction with quorum-sensing signals and inhibitors.Microbiology 151 (2005),3589-3602]
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