Team:Valencia/Parts

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(LEA)
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== '''LEA''' ==
== '''LEA''' ==
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The LEA fragment we used was kindly sent by Liu (?) and consists of the protein PM2 (LEA3) from soybean (Glycine max (L) Merr.). It was inserted into the pET28a vector and transformed into E. coli BL21 Star cells. In order to amplificate it and clone it into the pSB1C3, we used the forward primer actagtagcggccgctgcagATGGCGTCCAAGAAAC and the reverse primer tctagaagcggccgcgaattcTGCGTCTATATATAC (capital letters indicate the region of the sequence that pairs with the coding sequence of PM2).
+
The LEA fragment we used was kindly sent by Liu (?) and consists of the protein PM2 (LEA3) from soybean (Glycine max (L) Merr.). It was inserted into the pET28a vector and transformed into E. coli BL21 Star cells. In order to amplificate it and clone it into the pSB1C3,  
 +
we used the forward primer actagtagcggccgctgcagATGGCGTCCAAGAAAC
 +
and the reverse primer tctagaagcggccgcgaattcTGCGTCTATATATAC (capital letters indicate the region of the sequence that pairs with the coding sequence of PM2).
== '''Prionic Switch''' ==
== '''Prionic Switch''' ==

Revision as of 08:47, 26 October 2010


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Biobricks Submitted

Parts

We made the first prion-based non-genetic construction and placed into a standard biological parts, also called BioBricks. These are nucleic acid coding molecular biological functions, along with the associated information defining and describing the parts. You can find more information about this on the website of [http://biobricks.org/ The BioBricks Foundation].

Using these molecules any synthetic biologist or biological engineer can program living organisms. All our parts are available to anyone for free via MIT's [http://parts.mit.edu Registry of Standard Biological Parts].

We also placed the PM2 gene, coding the LEA3 protein, in another Biobrick, and probed that it conferes to our E.Coli protection against extreme temperature.

<groupparts>iGEM010 Valencia</groupparts>

LEA

The LEA fragment we used was kindly sent by Liu (?) and consists of the protein PM2 (LEA3) from soybean (Glycine max (L) Merr.). It was inserted into the pET28a vector and transformed into E. coli BL21 Star cells. In order to amplificate it and clone it into the pSB1C3, we used the forward primer actagtagcggccgctgcagATGGCGTCCAAGAAAC, and the reverse primer tctagaagcggccgcgaattcTGCGTCTATATATAC (capital letters indicate the region of the sequence that pairs with the coding sequence of PM2).

Prionic Switch

The switch is formed by two different parts: the activator and the reporter. The activator part is a construction of two fragments: the NM domains of the protein Sup35, which confers to the protein the prionic activity, and the GR526 portion, which contains the DNA-binding and transcription-activation domains of the Glucocorticoid Receptor (GR). The ligand-binding domain of the protein GR was eliminated, decoupling the response of the protein to the presence of glucocorticoids, and thus generating a constitutive transcription activation factor. The normal activity of this protein results in the activation of the genes preceded by the GRE (Glucocorticoid Response Element). When exposed to heat shock or other stress conditions, the NM domains start the prionic activity, eventually inhibiting the activation of transcription. This part was amplified by using the primers indicated by Lindquist et al (?), together with the sequence recommended to use for the ligation protocol with the plasmid pSB1C3. Those primers are: forward actagtagcggccgctgcagATGTCGGATTCAAAC and reverse tctagaagcggccgcgaattcTCCTGCAGTGGCTTG (again, capital letters represent the region that pairs with the coding sequence of NMGR526). The reporter part consists of the GRE and the reporter gene. In our experiments, we used LacZ as a reporter. The amplification of this part could not be made because we had some trouble finding the sequence of the GRE.