Team:EPF Lausanne/Project parts

From 2010.igem.org

(Difference between revisions)
(BioBricks)
Line 24: Line 24:
[[Image:Eat.png|center|500px|caption]]
[[Image:Eat.png|center|500px|caption]]
-
We performed all the cloning in ''E.coli'', and did experiments on Asaia transformation, growth and resistance to antibiotics in parallel.
+
We performed all the cloning in ''E.coli'', and did experiments on ''Asaia'' transformation, growth and resistance to antibiotics in parallel.
-
As ''E. coli'' origin does not work in Asaia, we added an origin that was compatible with this bacteria (which was recovered from a GFP-plasmid transformed into the Asaia we received from Italy). On the opposite, Asaia's origin does work in ''E. coli'', which is very useful for our sets of experiments.
+
As the ''E. coli'' origin of replication does not work in ''Asaia'', we added an origin that was compatible with this bacteria (which was recovered from a GFP-plasmid transformed into the ''Asaia'' we received from Italy). Conversely, ''Asaia's'' origin does work in ''E. coli'', which is very useful as all cloning can be performed using standards developed for ''E. coli''.
= BioBricks =
= BioBricks =
Line 33: Line 33:
First the legend:
First the legend:
-
*Ori = Origin of replication for Asaia and ''E. coli''
+
*Ori = Origin of replication for ''Asaia'' and ''E. coli''
*S = Strong Promoter
*S = Strong Promoter
*W = Weak Promoter
*W = Weak Promoter
Line 43: Line 43:
-
This are the first and basics constructions we made. Just clic on the part to get more information.
+
This are the first and basic constructs we made. Just click on the part to get more information.
<html>
<html>
Line 71: Line 71:
-
This are the BioBricks we obtain by using the one above.  
+
These are the BioBricks we obtained by combining the parts from above.  
<html>
<html>
Line 126: Line 126:
== Promoter characterization ==
== Promoter characterization ==
-
To characterize the promoter we want to use in Asaia and E. coli we cloned it in front of a CFP gene. By monitoring the CFP expression over time and comparing to a negative control that did not contain the CFP gene we could measure the activity of the promoter. We also recorded the growth of the two different cultures to see if expression would decrease the growth rate.<br />
+
To characterize the promoter we wanted to use in ''Asaia'' and ''E. coli'' we cloned it in front of a gene coding for CFP. By monitoring the CFP expression over time and comparing to a negative control that did not contain the CFP gene we could measure the activity of the promoter. We also recorded the growth of the two different cultures to see if expression would decrease the growth rate.<br />
-
Both measurements were done at the same time in E.coli DH5a over 16 hours at 37°C and the results are averaged over 6 samples.<br />
+
Both measurements were done at the same time in ''E. coli'' DH5a over 16 hours at 37°C and the results are averaged over 6 samples.<br />
Unfortunately we can't compare our measurements with a well known promoter.
Unfortunately we can't compare our measurements with a well known promoter.
-
Further characterization will focus on the measurement of the activity in Asaia.
+
Further characterization will focus on the measurement of the activity in ''Asaia''.

Revision as of 19:03, 27 October 2010

ork in E. coli, which is very useful for our sets of experiments.



Cloning

caption

We performed all the cloning in E.coli, and did experiments on Asaia transformation, growth and resistance to antibiotics in parallel.

As the E. coli origin of replication does not work in Asaia, we added an origin that was compatible with this bacteria (which was recovered from a GFP-plasmid transformed into the Asaia we received from Italy). Conversely, Asaia's origin does work in E. coli, which is very useful as all cloning can be performed using standards developed for E. coli.

BioBricks

caption

All our parts are in the pSB1C3 backbone vector (abbreviate C3).

First the legend:

  • Ori = Origin of replication for Asaia and E. coli
  • S = Strong Promoter
  • W = Weak Promoter
  • Immu = immunotoxin
  • P25 = Pfs25 protein
  • P28 = Pfs28 protein
  • Kan = Resistance to Kanamycin
  • Tet = Resistance to Tetracycline


This are the first and basic constructs we made. Just click on the part to get more information.


These are the BioBricks we obtained by combining the parts from above.


Here you get a global overview of our BioBricks construction plan.


Promoter characterization

To characterize the promoter we wanted to use in Asaia and E. coli we cloned it in front of a gene coding for CFP. By monitoring the CFP expression over time and comparing to a negative control that did not contain the CFP gene we could measure the activity of the promoter. We also recorded the growth of the two different cultures to see if expression would decrease the growth rate.
Both measurements were done at the same time in E. coli DH5a over 16 hours at 37°C and the results are averaged over 6 samples.
Unfortunately we can't compare our measurements with a well known promoter. Further characterization will focus on the measurement of the activity in Asaia.


EPFL OD prom.png
EPFL CFP prom.png

wrap bottom