Team:Evry/Notebook/w12
From 2013.igem.org
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<b>02/09/13</b></br> | <b>02/09/13</b></br> | ||
To further improve the interpretability of the plate reading, we need to transfer our construction from a BL21 to a TOP10 strain. As a start, we transformed the following constructions:</br> | To further improve the interpretability of the plate reading, we need to transfer our construction from a BL21 to a TOP10 strain. As a start, we transformed the following constructions:</br> | ||
- | <div style="padding-left:10%;">- AceB with LacI</div> | + | <div style="padding-left:10%;"><p>- AceB with LacI</p></div> |
- | <div style="padding-left:10%;">- FecA with GFP</div> | + | <div style="padding-left:10%;"><p>- FecA with GFP</p></div> |
- | <div style="padding-left:10%;">- FepA with GFP</div> | + | <div style="padding-left:10%;"><p>- FepA with GFP</p></div> |
<div style="padding-left:10%;">- FepA with LacI</div> | <div style="padding-left:10%;">- FepA with LacI</div> | ||
<div style="padding-left:10%;">- Fes with GFP</div> | <div style="padding-left:10%;">- Fes with GFP</div> | ||
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<p> | <p> | ||
The transformations succeeded and made liquid cultures for glycerol conservation.</br> | The transformations succeeded and made liquid cultures for glycerol conservation.</br> | ||
- | Also, we isolated the plasmid AceB-GFP from the pre-culture of the 03/09/13. | + | Also, we isolated the plasmid AceB-GFP from the pre-culture of the 03/09/13. As a consequence, we transformed our last plasmid in a TOP10 strain. |
</p> | </p> | ||
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<div style="padding-left:10%;">TOP10 YbiL-GFP</div> | <div style="padding-left:10%;">TOP10 YbiL-GFP</div> | ||
<div style="padding-left:10%;">TOP10 YncE-GFP</div></br> | <div style="padding-left:10%;">TOP10 YncE-GFP</div></br> | ||
+ | </br> | ||
+ | Also, we prepared the iron solutions from 10^-3 to 10^-10 M that will be used to prepare all the different media and completed the plate.</br> | ||
+ | </br> | ||
+ | TECAN GRID</br> | ||
+ | </br> | ||
+ | </p> | ||
+ | <b>05/09/13</b> | ||
+ | |||
+ | <p> | ||
+ | To anticipate the TECAN for the evening, we started a pre-culture of the following constructions we want to characterize: | ||
+ | <div style="padding-left:10%;">TOP10 (growth control)</div> | ||
+ | <div style="padding-left:10%;">TOP10 PL-LacO (GFP control)</div> | ||
+ | <div style="padding-left:10%;">TOP10 AceB-GFP</div> | ||
+ | <div style="padding-left:10%;">TOP10 Fes-GFP</div></br> | ||
+ | </br> | ||
+ | TECAN GRID</br> | ||
+ | </br> | ||
</p> | </p> | ||
Latest revision as of 14:46, 9 September 2013
Week 12: 2nd September - 8th September
Creation of a E. Coli ΔFur
02/09/13 04/09/13 We picked colonies from our four plates, that we grew overnight at 42°C, to plate each of them on one plate with kanamycin
TECAN
02/09/13 To further improve the interpretability of the plate reading, we need to transfer our construction from a BL21 to a TOP10 strain. As a start, we transformed the following constructions:
- AceB with LacI
- FecA with GFP
- FepA with GFP
We did not have anymore AceB with GFP plasmid available to realize the transformation. We pre-cultured a remaining glycerol stock at 37°C overnight:
The transformations succeeded and made liquid cultures for glycerol conservation. Also, we isolated the plasmid AceB-GFP from the pre-culture of the 03/09/13. As a consequence, we transformed our last plasmid in a TOP10 strain.
04/09/13To anticipate the TECAN for the evening, we started a pre-culture of the following constructions we want to characterize:
To anticipate the TECAN for the evening, we started a pre-culture of the following constructions we want to characterize:
Plasmid 3
We launch another PC to get Enterobactins A, B, C, D, E and F genes. Add the recquired primers in each tube:- EntA: primers 065 and 066
- EntB: primers 067 and 068
- EntC: primers 069 and 070
- EntD: primers 071 and 072
- EntE: primers 073 and 074
- EntF: primers 075 and 076
- Positive controle: primers 009 and 010
- Negative controle: primers 009 and 010
For more details about our primers, see the corresponding page.
We then prepared a master mix 1 with:
- 9 x 27,5 = 247,5 µL of distilled water
- 9 x 1 = 9 µL of dNTPs
- 9 x 10 = 90 µL of Q
5 Buffer - 9 x 0,5 = 4,5 µL of Q
5 For the negative controle, we added 1 µL of distilled water in tube 8 and 39 µL of master mix 1.
For other tubes (6 genes and positive controle), we added 8 µL of genomic DNA in the master mix 1. Then add 40 µL of master mix 1' in each tube.
BioBricking