4-State Device

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(System Variants)
(System Variants)
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===System Variants===
===System Variants===
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Currently, we have two systems, and we hope that at least one of them is going to work. The first system, cryptically labelled "Min+RepressionDomain" below, is made of 4 proteins and 4 operator regions. Each protein has four domains, 3 zink fingers and one repression domain (we call them "Zink Hands"). In the second system, each protein has also four domains, 2 zink fingers, one leucine zipper and one repression domain.  
+
Currently, we have two systems, and we hope that at least one of them is going to work.  
-
The operator regions in both systems are made of two binding regions for two specific Zink Hands and form a biobrick that should be inserted between the promoter region and the ribosome binding site.
+
The first system, cryptically labelled "Min+RepressionDomain" below, consists of 4 proteins and 4 operator regions. Each protein has four domains: a) 3 zink fingers that bind to specific sites on the helical DNA, and b) one repression domain (we call them "Zinc Hands" to distinguish them clearly from the individual zinc finger domains).  
-
Note that in both case, it is still under discussion as whether the repression domain should really be included or not.
+
In the second system, each protein has also 4 domains: 2 zink fingers, 1 leucine zipper and 1 repression domain.
 +
 
 +
The operator regions in both systems are made of 2 binding regions, each of which lets a specific Zinc Hand bind to it and thus each consisting of the corresponding 3 codons that match the 3 zinc fingers in that Zinc Hand. The operator regions (i.e. the "roadblocks" that will prevent the binding of the RNApolymerase) form a BioBrick that should be inserted between the promoter region and the ribosome binding site in order to keep the design modular.
 +
 
 +
Note that in both case, it is still under discussion as whether the repression domain should really be included or not. If it turns out that repression has been used in all the literature we can find, then we would be better off to play safe and include them.
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We considered adding a variant with degradation tag, but we think that it's not a problem if the system is slow in its first version.
+
 
 +
We considered adding a variant with degradation tag, since the system might be slow otherwise. However, due to the fact that we have limited resources - in terms of money, manpower, and time - and the fact that the degradation is decoupled and it will be clearly visible if the system turns out to be too slow, we decided against it for now.
===Assembly===
===Assembly===

Revision as of 16:26, 14 September 2005

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Contents

Organisation

Group Members

Meetings

2005.08.17, Wednesday, 15:30 @ Alex' bureau (CAB F62) Summary
2005.08.18, Thursday, 13:15 @ Alex' bureau (CAB F62)
2005.08.22, Monday, 13:45 @ Alex' bureau (CAB F62) Summary 050822
2005.08.25, Thursday 15:30 @ Alex' bureau (CAB F62)
2005.08.29, Monday 14:00 @ Alex' bureau (CAB F62)
2005.08.30, Tuesday 16:00 @ Alex' bureau (CAB F62)
2005.09.06, Tuesday 08:00 @ Alex' bureau (CAB F62)

Description of NOR module

This module behaves like a NOR gate. It has two inputs and one output. The output is high only when neither input 1 nor input 2 is high.

NOR-module Schematic

Below a preliminary parts-view of the module with PoPS interfaces (i/o).

              ---------------------------------
              |  ------------\                |
PoPS_in1 ---->|  | Repressor1 | --------      |
              |  ------------/          |     |
              |                         =     | 
              |                       --------|------> PoPS_out
              |                         =     | 
              |  ------------\          |     |
PoPS_in2 ---->|  | Repressor2 | --------      |
              |  ------------/                |
              ---------------------------------

Design

Zinc Fingers

A zinc finger [http://en.wikipedia.org/wiki/Zinc_finger] is a protein domain that binds to double stranded DNA. The idea is to use a zinc finger protein (ZFP) as a repressor by putting a ZFP binding site upstream of the coding region and thereby preventing RNA polymerase to transcribe the gene. Each Zinc finger domain binds to three base pairs and many domain-DNA interaction have been described, therefore making it possible to to construct artificial transcription factors by combining domains.

Zinc Finger Proteins

In total for the counter we will need four ZFPs. We have two different designs of the ZFPs.

1. Three domains to recognize nine base pairs.

2. two zinc finger domains and a leucine zipper domain. The leucine zipper will be cause the protein to home-dimerize and hence it will recognize 12 base pairs.

Zinc Finger Protein Binding Sites

Since we are going to synthesize parts of out module, we have the possibility to design our own ZFP binding sites, as well as our ZFPs. We have to different candidates for placing the binding sites.

1. Binding sites in the promotor. This would prevent the polymerase from binding to the promotor.

2. Binding sites directly after the start of transcription and before the ribosome binding site. This alternative is quite attractive, since it would allow for a high degree of modularity. In theory the ZFP would act as an extra "roadblock-operator" and any promotor could be used could be used in front of the protein.

Tester for Zinc Finger

System Variants

Currently, we have two systems, and we hope that at least one of them is going to work.

The first system, cryptically labelled "Min+RepressionDomain" below, consists of 4 proteins and 4 operator regions. Each protein has four domains: a) 3 zink fingers that bind to specific sites on the helical DNA, and b) one repression domain (we call them "Zinc Hands" to distinguish them clearly from the individual zinc finger domains).

In the second system, each protein has also 4 domains: 2 zink fingers, 1 leucine zipper and 1 repression domain.

The operator regions in both systems are made of 2 binding regions, each of which lets a specific Zinc Hand bind to it and thus each consisting of the corresponding 3 codons that match the 3 zinc fingers in that Zinc Hand. The operator regions (i.e. the "roadblocks" that will prevent the binding of the RNApolymerase) form a BioBrick that should be inserted between the promoter region and the ribosome binding site in order to keep the design modular.

Note that in both case, it is still under discussion as whether the repression domain should really be included or not. If it turns out that repression has been used in all the literature we can find, then we would be better off to play safe and include them.


Type Size (bp) . . . . TOTAL SIZE (bp)
Min+RepressionDomain Repressor 400 ZHR1 ZHR2 ZHR3 ZHR4 1600
. Operator +1/+10 30 ZHO1.1 ZHO2.1 ZHO3.1 ZHO4.1 120
LZ+RepressionDomain Repressor 400 ZHR5 ZHR6 ZHR7 ZHR8 1600
. Operator +1/+10 30 ZHO5 ZHO6 ZHO7 ZHO8 120
TOTAL . . . . . . 3440


We considered adding a variant with degradation tag, since the system might be slow otherwise. However, due to the fact that we have limited resources - in terms of money, manpower, and time - and the fact that the degradation is decoupled and it will be clearly visible if the system turns out to be too slow, we decided against it for now.

Assembly

  • Cut each system into BioBricks Pieces using different restriction enzymes.
  • Assemble in parallel for each genes 1-4 in two variants: promoter+operator, rbs+gene
  • Assemble the two constructs
  • ...

(please complete the above and add the test/debugging steps)

References

Kim & Wang (??)

Park et al. 2005 (Activation of transcription)

Chou et al. 1998

Mani05

Beerli98

Beerli00 (Linker)

Beerli02

Isalan01

Greisman97

Segal03

Segal99 ("GNN-paper")

Dreier01 ("ANN-paper")

Dreier05 ("CNN-paper")

Yang95 (Kinetics!!)

Klug05 (Minireview)

Newman03 ("Leucine Zippers")

Design

Overall Design

OverallDesign.png.png

What to order

WhatToOrder.png.png

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