Team:Paris Saclay/Notebook/August/2

From 2013.igem.org

(Difference between revisions)
Line 42: Line 42:
{|
{|
| style="border:1px solid black;padding:5px;background-color:#DEDEDE;" |
| style="border:1px solid black;padding:5px;background-color:#DEDEDE;" |
-
We obtain fragment at the right size. ON A LA BIOBRICK ??????????
+
We obtain fragment at the right size (Clone 12 starts 5 min after the others). ON A LA BIOBRICK ??????????
|}
|}
 +
 +
 +
===='''Objective : obtaining Bba_K1155004, Bba_K1155005, Bba_K1155006'''====
 +
 +
 +
==='''A - Aerobic/Anaerobic regulation system / B - PCB sensor system'''===
 +
 +
===='''Objective : obtaining FNR and BphR2 proteins'''====
 +
 +
===='''1 - Tranformation of BphR2, FNR and RBS-FNR in DH5α'''====
 +
 +
XiaoJing
 +
 +
Protocol : [[Team:Paris_Saclay/Protocols/Bacterial transformation|Bacterial transformation]]
{{Team:Paris_Saclay/incl_fin}}
{{Team:Paris_Saclay/incl_fin}}

Revision as of 22:14, 15 September 2013

Contents

Notebook : August 1

Lab work

A - Aerobic/Anaerobic regulation system

Objective : obtaining Bba_K1155003

1 - Extraction of Bba_K1155003 from DH5α

Damir, Nadia

Protocol : Plasmid extraction

We used colony 9, 11 and 12. ???????? Elué dans 50µL d'H2O.

2 - Electrophoresis of the extraction of Bba_K1155003

Damir, Nadia

File:Ps.jpg|350px]]
  • Well 1 : 6µL of DNA Ladder
  • Well 2 : 5µL of Bba_K1155003 from clone 9+1µl of 6X loading dye
  • Well 3 : 5µL of Bba_K1155003 from clone 11+1µl of 6X loading dye
  • Well 5 : 5µL of Bba_K1155003 from clone 12+1µl of 6X loading dye
  • Gel : 0.8%

Expected sizes :

  • Bba_K1155003 : 2734 pb

Estimated concentrations :

  • Clone 9 : 18ng/µL
  • Clone 11 :18ng/µL
  • Clone 12 : 18ng/µL

We obtain fragment at the right size (Clone 12 starts 5 min after the others). ON A LA BIOBRICK ??????????


Objective : obtaining Bba_K1155004, Bba_K1155005, Bba_K1155006

A - Aerobic/Anaerobic regulation system / B - PCB sensor system

Objective : obtaining FNR and BphR2 proteins

1 - Tranformation of BphR2, FNR and RBS-FNR in DH5α

XiaoJing

Protocol : Bacterial transformation