Team:Berkeley/Project/Other organisms

From 2010.igem.org

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Our project focused on the delivery of payloads to the cytoplasms of choanoflagellates, but its simple design makes it applicable to a host of other eukaryotes. Our design is only limited in three main aspects as to its potential targets:
Our project focused on the delivery of payloads to the cytoplasms of choanoflagellates, but its simple design makes it applicable to a host of other eukaryotes. Our design is only limited in three main aspects as to its potential targets:
-
* The target organism must be able to naturally phagoctyose <i>Escheria Coli</i>.
+
* The target organism must be able to naturally phagocytose <i>Escheria Coli</i>.
* The target organism's phagocytic vesicles must contain cholesterols susceptible to our [https://2010.igem.org/Team:Berkeley/Project/Vesicle_Buster Vesicle-Buster] device.
* The target organism's phagocytic vesicles must contain cholesterols susceptible to our [https://2010.igem.org/Team:Berkeley/Project/Vesicle_Buster Vesicle-Buster] device.
* The target organism must be able to survive in media that is compatible with our [https://2010.igem.org/Team:Berkeley/Project/Self_Lysis Self-Lysis] device.
* The target organism must be able to survive in media that is compatible with our [https://2010.igem.org/Team:Berkeley/Project/Self_Lysis Self-Lysis] device.
 +
We have started looking at other organisms to deliver payloads to using our payload delivery device. Having screened about a dozen single-celled, freshwater eukaryotes for phagocytosis of <i>E. coli</i> and ability to survive in various concentrations of LB, we are now focusing our efforts on [[http://en.wikipedia.org/wiki/Tetrahymena Tetrahymena]], [[http://en.wikipedia.org/wiki/Spirotrich Euplotes]] and [[http://en.wikipedia.org/wiki/Paramecium Paramecia]]. We have already determined that these three types of organisms will readily eat <i>E. coli</i> and are capable of surviving in mixtures of their culturing media and LB.
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{| cellpadding="10" cellspacing="10"
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|Tetrahymena
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||[[Image:Terta-Phase.jpg|thumb|300px|Tetrahymena: Phase contrast]]
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||[[Image:Tetra-Phase+GFP.jpg|thumb|300px|Tetrahymena: Phase contrast and GFP]]
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||[[Image:Tetra-GFP.jpg|thumb|300px|Tetrahymena: GFP only]]
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|Euplotes
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||[[Image:Euplotes-Phase.jpg|thumb|300px|Euplotes: Phase contrast]]
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||[[Image:Euplotes-Phase+GFP.jpg|thumb|300px|Euplotes: Phase contrast and GFP]]
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||[[Image:Euplotes-GFP.jpg|thumb|300px|Euplotes: GFP only]]
 +
|Paramecia
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||[[Image:Paramecia-Phase.jpg|thumb|300px|Paramecia: Phase contrast]]
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||[[Image:Paramecia-Phase+GFP.jpg|thumb|300px|Paramecia: Phase contrast and GFP]]
 +
||[[Image:Paramecia-GFP.jpg|thumb|300px|Paramecia: GFP only]]

Revision as of 02:49, 27 October 2010



Our project focused on the delivery of payloads to the cytoplasms of choanoflagellates, but its simple design makes it applicable to a host of other eukaryotes. Our design is only limited in three main aspects as to its potential targets:

  • The target organism must be able to naturally phagocytose Escheria Coli.
  • The target organism's phagocytic vesicles must contain cholesterols susceptible to our Vesicle-Buster device.
  • The target organism must be able to survive in media that is compatible with our Self-Lysis device.

We have started looking at other organisms to deliver payloads to using our payload delivery device. Having screened about a dozen single-celled, freshwater eukaryotes for phagocytosis of E. coli and ability to survive in various concentrations of LB, we are now focusing our efforts on http://en.wikipedia.org/wiki/Tetrahymena Tetrahymena, http://en.wikipedia.org/wiki/Spirotrich Euplotes and http://en.wikipedia.org/wiki/Paramecium Paramecia. We have already determined that these three types of organisms will readily eat E. coli and are capable of surviving in mixtures of their culturing media and LB.

Tetrahymena
Tetrahymena: Phase contrast
Tetrahymena: Phase contrast and GFP
Tetrahymena: GFP only
Euplotes
File:Euplotes-Phase.jpg
Euplotes: Phase contrast
File:Euplotes-Phase+GFP.jpg
Euplotes: Phase contrast and GFP
File:Euplotes-GFP.jpg
Euplotes: GFP only
Paramecia
Paramecia: Phase contrast
Paramecia: Phase contrast and GFP
Paramecia: GFP only