Endy:Chassis engineering/Orthogonal protein synthesis: Difference between revisions

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==Dedicated systems==
==Motivation==
[[Image:DedicatedSystems.gif|right|thumb|500px|Idealized dedicated systems make the protein production processes for the engineered system and the cellular chassis' own systems entirely orthogonal]]
[[Image:DedicatedTubesW852.jpg|thumb|right|300px|Two orthogonal protein synthesis channels, one specific for engineered biological systems and one specific for normal cellular function.]]
*Dedicated systems are a method to decouple the function of an engineered biological system from the function of its chassis.
*By separating the resources and machinery used to supply and power an engineered system from those of the chassis, then perturbations in the operation of one should have less effect on the other.
*Currently, we are working to implement these systems at a transcription and translation level.
*These dedicated synthesis systems can then be used as the basis of [[Endy:Biological virtual machines|Biological virtual machines]]
*The different methods we are using to implement dedicated systems are described in  more detail below.  We have built reporter devices to examine the performance of the four different combinations of transcription systems currently available to us.  They are shown in matrix form below.


We are working to reduce the coupling between engineered biological systems and their cellular chassis.  This coupling leads to unexpected system behavior and perturbed cellular function.  A major source of the coupling between system and chassis is that both share the same transcription and translation processes.  We are working to implement an orthogonal protein synthesis channel that is solely used by an engineered biological system and does not perturb cellular function.
If this orthogonal channel can be standardized and designed to function in multiple cell types, then it forms the basis of a [[Endy:Dedicated systems/Virtual machines| biological virtual machine]]([[Endy:Dedicated systems/Virtual machines|1.0]], [[Endy:Chassis engineering/VM2.0|2.0]]).
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==Reporter devices for the transcription/translation systems==
Currently, we are working to enable dedicated transcription and dedicated translation in an ''E. coli'' strain MG1655 chassis.  Details on this work can be found on the following pages -
 
*[[Endy:Dedicated systems/Transcription|Dedicated Transcription]]
*[[Endy:Dedicated systems/Translation|Dedicated Translation]]
 
==Demonstrating the usefulness of dedicated systems==
#'''Measure specificity of combined dedicated systems'''
#'''Demonstrate decoupled function of the system and the cellular chassis'''
#*GFP accumulation as chassis make the transition from log to stationary phase should indicate whether system performance is less affected by the change in the chassis state.
#*Suddenly turning on the high level protein expression of a system should reduce growth rate of the chassis when the system uses dedicated systems than when it does not.  Initial experiments have suggested that this might only be true in a minimal media such as M9.
 
==First generation reporter devices for the dedicated transcription/translation systems==


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==VM Transcription==
===Introduction===
The T7 expression system developed by [http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=2199796&query_hl=11 Studier and coworkers] is essentially orthogonal from the ''E. coli'' transcription system.  T7 RNAP does not recognize ''E. coli'' promoters and ''E. coli'' RNAP does not recognize T7 promoters.
===Effects of producing dedicated transcription machinery in a cellular chassis===
[[Image:VM1.0DemandofT7RNAP|right|thumb|Growth curves for three colonies of BL21(DE3) in the presence or abscence of maximally inducing levels of IPTG.]]
Three colonies of BL21(DE3) were grown in the presence or absence of 0.4mM IPTG.  The IPTG induces the production of T7 RNAP.
Results suggest that the presence of dedicated transcription machinery in BL21 does not noticeably affect the growth rate of the cellular chassis.
While this implies that the presence of a dedicated transcription system has negligible effect on a cells ability to supply a demand, it is possible that the added demand of these systems pushs the cellular chassis much closer to its maximum demand level before physiological changes become evident.
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==VM Translation==
[[Image:DedicatedTranslation.gif|thumb|center|450px]]
==Demonstrating the utility of dedicated systems==

Latest revision as of 14:44, 7 March 2007

Motivation

Two orthogonal protein synthesis channels, one specific for engineered biological systems and one specific for normal cellular function.

We are working to reduce the coupling between engineered biological systems and their cellular chassis. This coupling leads to unexpected system behavior and perturbed cellular function. A major source of the coupling between system and chassis is that both share the same transcription and translation processes. We are working to implement an orthogonal protein synthesis channel that is solely used by an engineered biological system and does not perturb cellular function.


If this orthogonal channel can be standardized and designed to function in multiple cell types, then it forms the basis of a biological virtual machine(1.0, 2.0).

Currently, we are working to enable dedicated transcription and dedicated translation in an E. coli strain MG1655 chassis. Details on this work can be found on the following pages -

Demonstrating the usefulness of dedicated systems

  1. Measure specificity of combined dedicated systems
  2. Demonstrate decoupled function of the system and the cellular chassis
    • GFP accumulation as chassis make the transition from log to stationary phase should indicate whether system performance is less affected by the change in the chassis state.
    • Suddenly turning on the high level protein expression of a system should reduce growth rate of the chassis when the system uses dedicated systems than when it does not. Initial experiments have suggested that this might only be true in a minimal media such as M9.

First generation reporter devices for the dedicated transcription/translation systems

General Translation VM Translation
General Transcription I7101
 I7102
VM Transcription E7104
 E7103
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