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SELF-DIFFERENTIATED BACTERIAL ASSEMBLY LINE PEKING 2007 IGEM All ideas and images from Peking 2007 IGEM team unless otherwise noted Allen Lin 1
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Issue Proteins whose production interferes with each other Need for seperation Seperation from homogenous conditions in division of labor Solutions: Temporal Differentiation Spatial Differentiation 2
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Push-on-Push-off Switch Temporal Seperation Same input at different times -> different output Simple finite state machine (has a current state and cyclic) – binary 3
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Binary Switch Bistable switch (stabilizes over time) NOR gate to reset to initial conditions 4
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Binary Switch 5
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Details of Binary Switch At first, Prm on -> CI and lacI produced, red color C1 represses Pr, lacI represses Pku After UV light, CI degraded; Pr stronger promoter -> CI434 produced, green color Pr represses Prm, lacI production falls (mRNA degraded), so only LexA represss Pku After 2 nd UV light, LexA degraded, Pku on -> Prm on, red color, back to start cI(ind-) repressions Pr 6
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Theoretical Computation (with ODE) Allen’s comments: NOR gates can be used to build AND, OR, INV gates Note the time scale GFP and RFP can be replaced by two different production systems 7
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Choosing the right parts 8
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Confirmation of Bistable Switch Top figure: Each colony has a stable color Bottom figure: Two states exist 9
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How to Select Best Parts Graphical display of effectiveness (NOR gate) Blue graph – desired; others – not so much 10
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Allen’s Thoughts How was the circuit designed? The circuit is a 2-state, cyclic system – can it be expanded? What components are specific to this implementation? Needed a NOR gate to reset from 2 nd state to 1 st state Use of computation beforehand Identical input to produce varied output based on previous history -> counter? 11
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Hop Count Spatial Seperation – need for different production systems that interfere with each other to happen in fixed proportions 12
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Plasmids Main idea: Plasmid vector length as counter In conjugation, DNA between two OriC sites deleted 13
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Conjugation oriTtraITraI 14
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Isolating Components in Separate Plasmid Signaling First delete oriT and traI and place it signaling plasmid Counter will be in signaling plasmid Original Plasmid 15
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Theoretical Model Cell 1 Helper Signaling Plasmid Cell 2 Helper Signaling Plasmid 16
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Details Important that the different oriT/traI systems do not interfere (crosstalk) with each other Things to note: One promoter – only traI nearest promoter is transcribed, terminator ends that transcription DNA replication occurs in opposite direction of promoter Thus lose traI + terminator + functional oriT every step 17
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Experimental Result GFPoriT After conjugationBefore conjugation Before conjugation, promoter stops at terminators Conjugation step removes two terminators between oriT sites Thus, after conjugation, GFP expressed 18
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Experimental Result II Shows that absence of TraI prevents conjugation completely Plasmid F with traI deleted Wild type plasmid F 19
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Allen’s Thoughts Shows two steps needed for hop count system to work once Place assembly line specific genes in between oriT sites before terminator Ensures that one cell does each step; other cells in assembly line not far away What would happen if we combined temporal and seperation? Get bistable neighboring cells? Checkerboard configuration? 20
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Sources Peking 2007 iGEM presentation and powerpoint http://parts.mit.edu/igem07/index.php/Presentations http://parts.mit.edu/igem07/index.php/Presentations Peking 2007 Wiki Project Notes http://parts.mit.edu/igem07/index.php/Peking_The_Pr ojects http://parts.mit.edu/igem07/index.php/Peking_The_Pr ojects 21
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