quorumtaxis: programming e. coli to eavesdrop, stalk, and kill b. subtilis
TRANSCRIPT
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QuorumtaxisQuorumtaxis::Programming Programming E. coliE. coli to Eavesdrop, to Eavesdrop, Stalk, and Kill Stalk, and Kill B. subtilis B. subtilis
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= Quorumtaxis= Quorumtaxis
Quorum-sensingQuorum-sensing ChemotaxisChemotaxis++
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What is a Good Pheromone to Use for What is a Good Pheromone to Use for Quorumtaxis?Quorumtaxis?
Science (2006) 311: 1113-1116
Gram-negative bacteria Gram-positive bacteria
AHL-based pheromones are metabolic products with limited diversity.
Oligopeptides are genetically encoded with a tremendous potential for diversity.
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The The B. subtilisB. subtilis Peptide-based Quorum Peptide-based Quorum Sensing System has 4 Protein ComponentsSensing System has 4 Protein Components
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The ComXP Systems Could be Used to The ComXP Systems Could be Used to Create Diverse Quorumtaxis Systems Create Diverse Quorumtaxis Systems
ComX precursors exhibit tremendous sequence diversity,
J. Bact. (2001) 183(2): 451-460.
…and orthogonal ComX systems have evolved that do not communicate,
eliminating cross-talk between species and reducing background.
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Nature Reviews Mol Cell Bio (2004) 5: 1024-1037.
ComP Receptor is Related to ComP Receptor is Related to MMethyl-ethyl-accepting accepting CChemotaxis hemotaxis PProteins (MCPs)roteins (MCPs)
Gene Protein Response
tsr Tsr serinetar Tar aspartatetrg Trg ribosetap Tap peptidesaer Aer oxygen
ComP and Tsr exhibit ~11% identity.
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MCPs Have a Modular ArchitectureMCPs Have a Modular Architecture
BioEssays (2005) 28: 9-22.
Ligand-binding domain(divergent)
Signalling domain(conserved)
Tsr Receptor
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MCP-like Proteins Have Been MCP-like Proteins Have Been Recombined to Create Novel Receptors Recombined to Create Novel Receptors
Tar
Tsr• 58% Identity• Switch of attractant binding.
PNAS (1985) 82: 1326-1330. NarX
Tsr• 11%
Identity• Chemotacti
c response
to nitrates.
Mol. Microbiol. (2002) 44(3): 709-719.
Tar
HumanInsulin Receptor
• 3% Identity
• Aspartate activation
of a
tyrosine kinase.
PNAS (1989) 86: 5683-5687.
McpB
McpC
• 25% Identity
• Swapping of Asp, Pro domains of B. subtilis receptors.
J.Bact. (2004) 186: 5950-5955. Trg
EnvZ
• 7% Identity
• Sugar activation
of ompC promoter.
Cph1
EnvZ• 12%
identity• Light activation
of ompC
promoter.
J. Bact. (1993) 176: 1157-1163.
Nature (2005) 438: 441-442.
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Strategy
Use BioBricks and ComP-Tsr chimeras to construct quorumtaxis circuit.
Use chemotaxis models to design and optimize quorumtaxis circuit.
Extend circuit to include destroy output, e.g., SdpC toxin production.
Phase IPhase I
Phase IIPhase II
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Module Integration by a Chimeric ReceptorModule Integration by a Chimeric Receptor
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ComP-Tsr chimeras may be weakly functional because they:
Issues That May Arise With Chimeric Issues That May Arise With Chimeric ReceptorsReceptors
1. Weakly bind ComX.
2. Bind ComX, but transmit the signal poorly to the cytoplasmic domain.
3. Bind ComX, transmit the initial signal to the flagella, but are unable to adapt to gradients of ComX.
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Bacterial Chemotaxis Works by Bacterial Chemotaxis Works by Modulating Run LengthsModulating Run Lengths
Adapted from MIT OCW: Course 7.81/8.591/9.531 – A. van Oudenaarden. (Oct 2004)
Runs with an average length of 1 second between tumbles.
Run lengths are increased when moving up the gradient, and decreased when moving down.
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Adapted from Nature. 5, 1024-1037 (2004).Adapted from Nature. 5, 1024-1037 (2004).
Flagellar Motion is Controlled by Fast Flagellar Motion is Controlled by Fast Reactions Involving CheYReactions Involving CheY
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Adapted from Nature. 5, 1024-1037 (2004).
Adaptation is Facilitated by a Relatively Adaptation is Facilitated by a Relatively Slow Chain of Reactions Involving CheBSlow Chain of Reactions Involving CheB
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Chemotaxis Can be Modeled by Combining Chemotaxis Can be Modeled by Combining the CheY and CheB Reaction Sequencesthe CheY and CheB Reaction Sequences
Our model uses 17 differential equations and takes into account over 20 reactions.
Reactions are modeled using the Law of Mass Action and Michaelis-Menten enzyme kinetics.
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Identify ways in which our chimeric receptors differ from natural MCPs based on experimental data.
Determine which of the working chimeras best suits our project goals.
Characterize the specifics of our chimeras in order to make them easier to understand and use.
We Will Use the Model to…We Will Use the Model to…
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Outline of Experimental StrategyOutline of Experimental Strategy
1. Amplify genetic components.
2. Create ComP/Tsr chimera library and build quorumtaxis circuit.
3. Screen for functional quorumtaxis circuit.
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Step 1: Amplify BioBricksStep 1: Amplify BioBricks
ComP – Tsr chimera
EcoRI PstI
pSB1A3
tet promoter
Lane Sample Size
1 1 kb std --
2 pSB1A3 plasmid 2157 bp
3 pTetRBS + pSB1A32231 bp
4 ComA 650 bp
5 ComP 2400 bp
6 ComQX1100 bp
7 Tsr 1600 bp
1 2 3 4 5 6 7
1% agarose gel
0.5
2.0
1.01.5
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Step 2: Create Com and Tsr BioBricksStep 2: Create Com and Tsr BioBricks(from (from B. subtilisB. subtilis 168 and 168 and E. coliE. coli))
ComP – Tsr chimera
EcoRI PstI
pSB1A3
tet promoter
Lane Sample Size
1 1 kb std --
2 pSB1A3 plasmid 2157 bp
3 pTetRBS + pSB1A32231 bp
4 ComA 650 bp
5 ComP 2400 bp
6 ComQX1100 bp
7 Tsr 1600 bp
1 2 3 4 5 6 7
1% agarose gel
0.5
2.0
1.01.5
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Ligate
fragments
Step 3: Create ComP-Tsr ChimerasStep 3: Create ComP-Tsr Chimeras
Rational Design ApproachRational Design Approach Combinatorial LibraryCombinatorial Library
Digest
Adapted from Nature Biotechnology (1999) 17: 1159
ComP – Tsr chimera
EcoRI PstI
pSB1A3
tet promoter
tsr gene comP geneB
A 13
2
5
4
A1 A3 A5 B2 B4
6
B6
Tsr ComP
B
A 13
2
5
4
A1 A3 A5 B2 B4
6
B6
Tsr ComP
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Step 4: Test ∆Step 4: Test ∆mcpmcp E. coli E. coli SwarmingSwarming (strain that will be used to screen chimera function)(strain that will be used to screen chimera function)
Spot cells on soft agar plate
and assay outward growth.
Swarming assayE. coli strain
RP8611 (∆mcp)*B. subtilis & E. coli
18hr 20hr
* acquired from Prof. John S. Parkinson, University of Utah
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Spot ∆mcp E. coli on soft agar plate containing B. subtilis culture
extract (i.e., ComX)
ComX
Quorumtaxis
Expected swarming pattern
Step 5: Screen for Functional ChimerasStep 5: Screen for Functional Chimeras
ComX
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Progress and Future WorkProgress and Future Work
1. Amplify genetic components.
2. Create ComP/Tsr chimera library and build quorumtaxis circuit.
3. Screen for functional quorumtaxis circuit.
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Phase II: Develop ‘Destroy’ OutputPhase II: Develop ‘Destroy’ Output
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COMPUTATION AND APPLIED MATH Steve Cox Jay Raol Thomas Segall-Shapiro
CHEMICAL AND BIOMOLECULAR ENGINEERING Ken Cox Dario Prieto Miinkay Yu
BIOCHEMISTRY AND CELL BIOLOGY Beth Beason George Bennett Tina Chen Chris Conner Shan Gao Leah McKay Teresa Monkkonen Bibhash Mukhopadhyay (BCM) Peter Nguyen Joff Silberg Mary Kay Thompson Jeremy Thompson
CAIN PROJECT Elizabeth McCormack
BIOENGINEERING Irene Martinez Christie Peebles Ka-Yiu San
iGEMAndrew Hessel
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Extra SlidesExtra Slides
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Alternative StrategyAlternative Strategy
Engineer E. coli cell to express ComP and ComA components of the B. subtilis quorum sensing pathway.
Reception of ComX by ComP
Activation of ComA, which induces transcription of a Tsr-CCW fragment leading to a smooth swimming phenotype
Transcriptional Control of ChemotaxisTranscriptional Control of Chemotaxis