ETH Zurich 2006

From 2006.igem.org

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Revision as of 18:35, 8 October 2006

standing (L-R): Marco, Alexandra, Arthur, Olga, Dimo, Marko, Robert; in front (L-R):

Franz, Michael

Adding numbers is easy, isn't it? 1234 plus 5678, for example, is 6912. But how do engineers add binary numbers instead of decimal ones? And how, in the end, can this be done by a living cell? We, the members of the ETH Zurich 2006 iGEM team, are currently working on these questions, whereas the last one seems to be not trivial.

Coordination

TODOs

Modeling

Parts Model the whole System with Sensing, Pop's duplexer and Half adder (Marco and Franz)
Model whether a different strength of input is necessary for the AND and XOR Gates (Who?)
Finish modeling the second AND Gate and find a biological way to implement it and write the DNA and order it (Marco and Robert)

Lab

Responsible: Robert for the preparatory experiments, Olga for the assembly and testing of the gates.

Read the literature on the XOR and AND Gates, check carefully for strains needed and compatibility of the parts (Who?)
Prepare a protocol for parts assembly (Olga)
Assembly of the light sensing device from the parts we received from UCSF Voigt's lab (Arthur)
Assembly of the chemical sensing device (Franz, Dimo, Robert, Marco, Marko, Olga)

Documentation

Responsible: Alexandra for the registry, Franz for the presentation, Arthur for the Wiki.

enter lab experience report to registry
restructure the Wiki, identify lacking information and find people who can provide it (Arthur)
Make a picture of the whole model with te different parts in it (Alexandra)
Make a drawing of the DNA to have an overview of which parts will be consecutively on the same DNA piece (Alexandra)
Find promoters for the Pops duplexer (2 promoters in total) (Michael)

Schedule

Available as Google Calendar: iGEM 2006 ETH Zurich

Thu 20.7., 1700: kickoff meeting in CNB E 121
27.7.-3.8. 1st group phase: Define project in more detail within two groups
Thu 27.7., 1700: meeting of entire group to share ideas
Thu 3.8., 1700: decision on final project
15.8. 1700: Tutorial "Modelling of AND gate"
Until 20.8.: Finalize DNA design, order it
September,October: Implement design (registry bio-bricks, ordered DNA)
27.9.: Fix the flight dates and send the proposed flights to Jörg
23.10.: Latest point to start getting our presentation going and to finish the iGEM wiki documentation
30.10.: Project documentation on the Wiki has to be complete
4./5.11.: Jamboree in Boston

Participants and availability

Progress report and documentation

Initial project ideas

The fruits of some brainstorming and research

proposed projects

We split up the whole team into two groups, each proposed a project after these two weeks.

Meat monitor project (Michael, Dimo, Olga, Arthur, Marko)
Half adder/pattern recognition project (Franz, Alexandra, Robert, Marco)

It was decided to further pursue the Half adder project idea.

filling in the details

Reserved parts in the registry

We have already reserved parts for the adder and the gates in the registry the description of which are still tentative:

Half adder: BBa_J34000
AND gate: BBa_J34100
XOR gate: BBa_J34200

Chemical Sensing Device

Suggestions for Chemical Sensing Device:

Lactate lacI represses, IPTG induces (BBa_R0011 or BBa_R0010 )
Tetracycline, TetR inhibitor, Tet inducer by inhibiting TetR (or aTc, it's analog) (BBa_R0040)
combination thereof (BBa_I13614 / BBa_13617 / BBa_I13623 / BBa_I13624 / BBa_I13627 / BBa_I13637 / BBa_I13653)
simple sugar Arabinose (BBa_R0080)
I see the main difficulty in the spatial separation as the cells are growing in the petri dishes. since the inducers are water-soluble we would have to fix the chemicals onto the petro dish.

modeling

1 Page Overview (pdf) (∼1.2M) all versions
1 Page Overview (illustrator) (∼1.3M)
Modeling Overview (pdf) (∼0.5M) all versions
Modeling Overview (ppt) (∼0.6M) all versions
IPTG sensing (pdf) (∼0.1M) all versions
IPTG sensing (ppt) (∼0.2M) all versions

Matlab scripts for ODE simulation

modular scripts

contains a createXXX() script for each module. the created module contains
- function handles for reaction rates: r
- stoichiometric matrix: N
- constants (inside of the function handles)
- state (concentration) changes (the ode dy values) can be computed by: N · r
modules can be connected using the createInOutConnector() script. the result is again a module, consisting of the connected basic modules.
sim_1_1 and sim_1_2 can be used to simulate modules with 1 input/1 output and 1 input/2 outputs respectively.
both basic modules and compound (connected) modules can be simulated
simulations contains the first samples, simulating
- XOR → simulation results / sensitivity analysis
- AND-tRNA → simulation results / sensitivity analysis
- IPTG Sensing →simulation results
- PoPS Duplexer →simulation results
- Compound module: IPTG Sensing → PoPS Duplexer →simulation results
scripts: matlab_modules.zip (<0.1M)

old scripts

unzip the file, each zip file contains 2 files: sim_xxx.m and ode_xxx.m.

ode_xxx.m : contains the differential equations, i.e. the model

sim_xxx.m : sets the parameters, calls the simulator and plots the result (this is the one to run, but the other is also needed).

matlab_sim_and1.zip (<0.1M) →simulation results → abandoned
matlab_sim_and2.zip (<0.1M) →simulation results → the pursued version A
matlab_sim_and3.zip (<0.1M) →simulation results → the pursued version B
matlab_sim_and4.zip (<0.1M) →simulation results → abandoned

As a result of the meeting on August 17, we will from now on concentrate on the AND versions 2 and 3.

matlab_sim_xor1.zip (<0.1M) →simulation results → the only pursued version
matlab_sim_xor2.zip (<0.1M) →simulation results → abandoned
matlab_sim_xor3.zip (<0.1M) →simulation results → abandoned

Sensoring

matlab_sim_iptg.zip (<0.2M) →simulation results

assembly

chemical sensing

2006/10/03: Made LB-Agar plates with antibiotics
2006/10/04: Transformed cells, plated them
2006/10/05: Found plates empty after 18h on the table, put into incubator at 37°C
2006/10/06: picked cultures onto fresh plates

Useful Documents & Links

see here

@@ Line 1: / Line 1: @@
-[[Image:ETH-logo-small.gif|ETH Zurich]]
+<center>[[Image:ETH_2006_pic_for_frontpage.jpg|ETH Team 2006]]
+<BR/><b>standing (L-R):</b> Marco, Alexandra, Arthur, Olga, Dimo, Marko, Robert; <b>in front (L-R):</b>
+Franz, Michael</center>
+<br><br>
+<blockquote>
+Adding numbers is easy, isn't it? 1234 plus 5678, for example, is 6912. But how do engineers add binary numbers instead of decimal ones? And how, in the end, can this be done by a living cell?
+We, the members of the ETH Zurich 2006 iGEM team, are currently working on these questions, whereas the last one seems to be not trivial.
+</blockquote>
+<br><br>
 == Coordination ==
@@ Line 45: / Line 55: @@
 === Participants and availability ===
-<center>[[Image:ETH_2006_pic_for_frontpage.jpg|ETH Team 2006]]
-<BR/>Marco, Alexandra, Arthur, Olga, Dimo, Marko, Robert,
-<BR/>Franz, Michael</center>
 * [[User:Paolo Pinkel|Michael Friedmann]]:
@@ Line 59: / Line 65: @@
 * [[User:Terzerm|Marco Terzer]]:
 * [[Marko Jovanovic]]:
 == Progress report and documentation ==