Team:Tsinghua/Experiment

From 2009.igem.org

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= Project 1 =
 
==Synthesis of the Therapeutic DNA==
==Synthesis of the Therapeutic DNA==
In this part, we aims at constructing a molecular cloning vector with a cos site which enables it to be packaged into the gene therapy vector- in other words, to construct a cosmid. In order to detect the expression of the therapeutic DNA, we construct this cosmid based on the scanfold of Parts-J61031 encoding a RFP-expressing segment.
In this part, we aims at constructing a molecular cloning vector with a cos site which enables it to be packaged into the gene therapy vector- in other words, to construct a cosmid. In order to detect the expression of the therapeutic DNA, we construct this cosmid based on the scanfold of Parts-J61031 encoding a RFP-expressing segment.
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==Production of the targeted gene therapy vector==
==Production of the targeted gene therapy vector==
==Functioning of the targeted gene therapy vector==
==Functioning of the targeted gene therapy vector==
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= Project 2 =
 
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==Plasmid Construction==
 
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Firstly, we build up a recombinant plasmid of pET-28a, into which a DNA sequence of lambda repressor is inserted, and we try to make it express the protein.
 
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==Targeted Biobrick Modification and Expression==
 
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Secondly, another of DNA sequence is inserted into the plasmid, which can recognize and bind to the lambda repressor with specificity.
 
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==Transfection Efficiency Detection==
 
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Thirdly, we can add another report gene, RFP sequence into the plasmid, and see whether it can be expressed. If everything goes all right, we can put the whole system in a eukaryotic cell.
 
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= Project 1 and Project 2 =
 

Revision as of 09:15, 23 September 2009

Background Brainstorming Design Experiment Results Notebook


Contents

Synthesis of the Therapeutic DNA

In this part, we aims at constructing a molecular cloning vector with a cos site which enables it to be packaged into the gene therapy vector- in other words, to construct a cosmid. In order to detect the expression of the therapeutic DNA, we construct this cosmid based on the scanfold of Parts-J61031 encoding a RFP-expressing segment.

This cosmid mainly consists of the following segments:

1) origin of replication: we insert O gene and P gene from bacteriophage lambda into J61031, which are resoonsible for the late phase replication and package of the wild type circular bacteriophage lambda genome

2) cos site: necessary for the specific package of the Therapeutic DNA into the gene therapy vector.

3) RFP-expressing segment: originally integrated into the plamid of J61031.

cosmidcostruct

Synthesis of the Gene Therapy Production System

Bottom-Up Approach

In the bottom-up approach, we amplify the biobricks from both the bacteriophage lambda and the adenovirus genome and incorporate them with a given order into molecular cloning vector(s).

Specifically, we choose two molecular cloning vectors to encode two sections of the gene therapy vector genome, pET28a and pACYCDuet1.

pET28a pACYCDuet1

Top-Down Approach

Synthesis of the Targeted Biobrick

Production of the targeted gene therapy vector

Functioning of the targeted gene therapy vector

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