Team:Paris Bettencourt/Notebook/Trojan Horse/Monday 19th August.html
From 2013.igem.org
Trojan Horse
ASDF19th August
Place your twit here
CLONING the target Plasmids (Kan and lacZ)
Gel purification of LacZ using Thermo Scientific Kit
lacZ : 83 ng/ul
Gel purification of Kan using Thermo Scientific Kit
Kan : 80ng/ul
Digestion of pACYC (pT002) with EcoRI and XhoI
10 H2O
2 Buffer
4 pACYC
2 EcoRI
2 XhoI
20uL Tot
37°C
20min
Digestion of pACYC (pT002) with BglII and NcoI
10 H2O
2 Buffer
4 pACYC
2 BglII
2 NcoI
20uL Tot
37°C
20min
Digestion of Kan insert with EcorI and XhoI
10 H2O
15 Kan insert
3 Buffer
1 EcoRI
1 XhoI
30uL Tot
37°C
20min
Digestion of LacZ insert with BglII and NcoI
10 H2O
15 LacZ insert
3 Buffer
1 BglII
1 NcoI
30uL Tot
37°C
20min
Gel of digestions
100Bp+ / pACYC+EcoRI+XhoI / pACYC+EcoRI+XhoI / pACYC+BglII+NcoI /pACYC+BglII+NcoI
-->img 625<--
Colum purification of Kan insert digestions using Thermo Scientific Kit
Column purification of LacZ insert digestions using Thermo Scientific Kit
Colum purification of pACYC digestions using Thermo Scientific Kit
Heat inactivation of Kan digestion
65°C
20min
Ligation Kan insert purif + pACYC (digestion EcoRI + XhoI)
Digestion vector : 6.8 ng/ul
Digestion insert : 14
masse insert = 10*1052/3770*50 = 140 ng
Vector : 7.35 uL
Insert : 10 uL
Buffer : 2 uL
T4 DNA ligase : 0,2 uL
Let incubate at 22°C for 30 min
Ligation Kan insert heat desactivated + pACYC (digestion EcoRI + XhoI)
Digestion vector : 6.8 ng/ul
Digestion insert : 40/2 = 20
masse insert = 10*1052/3770*50 = 140 ng
Vector : 7.35 uL
Insert : 7 uL
Buffer : 2 uL
T4 DNA ligase : 0,2 uL
H2O : 4 uL
Let incubate at 22°C for 30 min
Ligation LacZ insert purif + pACYC (pigestion BglII + NcoI)
Digestion vector : 10? ng/ul
Digestion insert : 33
masse insert = 10*449/3770*50 = 59 ng
Vector : 5 uL
Insert : 1.8 uL
Buffer : 2 uL
T4 DNA ligase : 0,2 uL
H2O : 11 uL
Let incubate at 22°C for 30 min
Chemical transformation in NEB turbo
Reference protocol
Recovery 1 hour.
Plate on
Tube 1 = negative control
Tube 2 : Kan (purif) Kan / Cm
Tube 3 : Kan (heat inactivated) Kan/ Cm
Tube 4 : lac(purify, enzyme cannot be heat inactivated) Cm/ IPTG/ Xgal
Cloning the Weapon (ie sRNA into Litmus and pUC 18)
Gel of litmus PCR
-->img 624<--
Gel purification of litmus PCR using Thermo Scientific Kit
PCR from mini Gene sRNA anti Kan
35 H2O
10 Buffer 5x
1 dNTP
2 FW iT009
2 RV iT0010
0.2 minigene-plasmid amp from IDT
0.5 phusion
PCR Phusion Gradient around 53 °C
Time : 30 secondes
-->img ?<--
Gibson Assembly
Protocol from the Kit, quantities are divided by 2: final volume of reaction = 10uL
Assembly of pUC18-SRNA_KAN : 5uL MasterMix, 0.5uL H2O, 3uL pUC18 with overhang from PCR (nanodrop = 13,4), 1,5uL sRNA from PCR of minigene (nanodrop = 26,7)
Assembly of Litmus28i-GFP-SRNA_KAN : 5uL MasterMix, 3,6uL H2O, 0,5uL Litmus28i-GFP with overhang from PCR (nanodrop = 85), 0,9uL sRNA from PCR of minigene (nanodrop = 26,7)
Heat shock Transformation into provided competent cells. 60 min recovery, plate on AMP.
Regular cloning using biobricks
Digestion
Insert sRNA cut by XbaI & PstI
Vector Litmus cut by PstI & SpeI
Insert sRNA cut by EcoRI & SpeI
Vector Litmus cut by EcoRI & SpeI
Digestion of Vectors
10 H2O
2 Buffer
4 Vector
2 Enz 1
2 Enz 2
20uL Tot
37°C
20min
Digestion of Inserts
10 H2O
15 insert
3 Buffer
1 Enz 1
1 Enz 2
30uL Tot
37°C
20min
Heat inactivation before ligation
80°C for 20 minutes
Ligation
pUC= 40ng in 20 uL => 3ng/ul
litmus 340ng =>17ng /ul
insert 420 ng => 14 ng / uL
Litmus :
7uL vector
8 ul insert
2 uL Buffer
O,2 uLT4 DNA ligase
3ul Water
Vtot = 20 uL
pUC
20 uL vector
9 uL insert
4 uL Buffer
0,4 T4 DNA
7 uL water
Vtot = 40uL
Chemical transformation in NEB turbo
Tube 1 : negative control
Tube 2 lig litmus
Tube 3 lig pUC
-
plate everything on amp