Synchronization of Cell Cycles

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===Aim===
===Aim===
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Our aim is to develop a synthetic gene network to synchronize ''E. coli'' cell cycles. Cell cycle is a robust biological oscillator. We plan to couple these oscillator using LuxI-LuxR based quorum sensing signaling. The cell cycle phase will be modulated using DnaA sequestration.
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Our aim is to develop a synthetic gene network to synchronize ''E. coli'' cell cycles.  
===Approach===
===Approach===
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Cell cycle is a robust biological oscillator. Theoretical work predicts that weak coupling of cellular oscillators should result in their synchronization [Garcia-Ojalvo et al., 2005]. Our core oscilltor is a cell cycle phase dependant promoter- Pcya.
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We plan to couple these oscillators using LuxI-LuxR based quorum sensing signaling machinery.The core oscilltor will regulate expression luxI(an enzyme that produces an autoinducer acyl-homoserine-lactone).Oscilltory expression of luxI would result in oscilltory production of the autoinducer(AI). This in turn would cause oscillatory expression from a luxR-AI dependant promoter. 
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The cell cycle phase will be modulated using DnaA sequestration. DnaA is a cell cycle regulator in ''E.coli''. Cell cycle progression is affected by decrease in free and active DnaA molecules is a cell. DnaA temperature sensitive mutants are used for cell cycle synchronization. We have used DnaA binding sites on plasmid to 'sequester' free DnaA molecules. We expect transcription from upstream promoter would change concentration of free DnaA inside a cell. We have put luxR dependant promoter  upstream to DnaA binding sites. Thus, concentration of free DnaA concentration is dependant on AI concentation. This would lead to regulation of local cell cycle phase based on global phase.

Revision as of 13:09, 30 October 2006

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Contents

Group II

Aim

Our aim is to develop a synthetic gene network to synchronize E. coli cell cycles.

Approach

Cell cycle is a robust biological oscillator. Theoretical work predicts that weak coupling of cellular oscillators should result in their synchronization [Garcia-Ojalvo et al., 2005]. Our core oscilltor is a cell cycle phase dependant promoter- Pcya.

We plan to couple these oscillators using LuxI-LuxR based quorum sensing signaling machinery.The core oscilltor will regulate expression luxI(an enzyme that produces an autoinducer acyl-homoserine-lactone).Oscilltory expression of luxI would result in oscilltory production of the autoinducer(AI). This in turn would cause oscillatory expression from a luxR-AI dependant promoter.

The cell cycle phase will be modulated using DnaA sequestration. DnaA is a cell cycle regulator in E.coli. Cell cycle progression is affected by decrease in free and active DnaA molecules is a cell. DnaA temperature sensitive mutants are used for cell cycle synchronization. We have used DnaA binding sites on plasmid to 'sequester' free DnaA molecules. We expect transcription from upstream promoter would change concentration of free DnaA inside a cell. We have put luxR dependant promoter upstream to DnaA binding sites. Thus, concentration of free DnaA concentration is dependant on AI concentation. This would lead to regulation of local cell cycle phase based on global phase.


Constructs

In our genetic construct, we have used Pcya (adenylate cyclase promoter-that is known to oscillate in cell cycle dependant manner) as a core oscillator.


Testing oscillations

LuxI tagged with cfp(+LVA) is expressed from this promoter.LuxI oscillations will result in AI(autoinducer) oscillations and this would result in oscillations of AI dependant promoter. YFP is expressed from such a promoter. CFP expression is readout for the core oscillator-Pcya and YFP is readout of the expression of the quorum sensing promoter-Plux.

Testing the core oscillator Pcya











Y axis is the mean cfp fluorescence of a cell. X-axis is a correlate of cell cycle phase.Here, we have used cell length as a crude correlate for cell cycle phase.The same data is platted twice for visual representation of oscillation. RFP expression is control.

Testing oscillations at Plux



Y axis is the mean yfp fluorescence of a cell. X-axis is major axis length of a cell which is a correlate of cell cycle phase.

--Sugat 06:49, 8 July 2006 (EDT)

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