The pSoup plasmid aids in replication of pGreen, 62SK, and pGs2 series plasmids. AGL-1 (pSoup) is used for Agrobacterium-mediated transformation of dicots such as Arabidopsis thaliana, tobacco, potato, and monocots like corn.
AGL1 (pSoup) ElectroCompetent Agrobacterium
$355.00 – $755.00
Intact Genomics (ig®) AGL-1 (pSoup) ElectroCompetent Agrobacterium cells are optimized for the highest transformation efficiencies, ideal for applications with cDNA or gDNA library construction. The AGL1 (pSoup) strain has resistance to rifampicin, carbenicillin, and streptomycin (see genotype). The Ti plasmid pTiBo542DT-DNA has the T-DNA region deleted and transformed with a binary vector containing the missing T-region restores the T-DNA binary system function. The pSoup plasmid aids in the replication of pGreen, 62SK, and pGs2 series plasmids. This system is used for Agrobacterium-mediated transformation of dicots such as Arabidopsis thaliana, tobacco, potato, and monocots like corn.
Competent cell type: Electrocompetent
Species: A. tumefaciens
Strain: AGL-1 (pSoup)
Transformation efficiency: ≥ 1 x 107 cfu/µg pCAMBIA1391z DNA
Blue/white screening: No
Shipping condition: Dry ice
Reagents Needed for One Reaction
AGL-1 (pSoup) ElectroComp Agrobacterium: 25 µl
DNA (pCAMBIA1391z, 500 pg/µl): 1 µl
Recovery medium: 1 ml
AGL-1 (pSoup) ElectroComp Agrobacterium: -80 ºC
pCAMBIA1391z control DNA: -20 ºC
Recovery medium: 4 ºC
C58 RecA (rifR, carbR), Ti pTiBo542DT-DNA ( strepR), pSOUP (tetR), Succinamopine
Transformation efficiency is tested by using the pCAMBIA1391z control DNA supplied with the kit and using the protocol in this manual. Transformation efficiency should be ≥1 x 107 CFU/µg pCAMBIA1391z DNA. Untransformed cells are tested for appropriate antibiotic sensitivity.
Please note, all agrobacterial strains are not well-studied for antibiotic resistance and there are many agrobacterial strains. Therefore, it is the customer’s responsibility to make sure his/her vectors are compatible with the Agrobacterial strains if he/she uses an alternate antibiotic selection than kanamycin-selection.
Use this procedure to transform AGL-1 (pSoup) ElectroComp Agrobacterium. Do not use these cells for chemically transformation.
1) Place sterile cuvettes and microcentrifuge tubes on ice.
2) Remove competent cells from the -80 °C freezer and thaw completely on wet ice (10-15 minutes).
3) Aliquot 1 µl ( 10pg -1 µg) of DNA to the chilled microcentrifuge tubes on ice.
4) When the cells are thawed, add 25 μl of cells to each DNA tube on ice and mix gently by tapping 4-5 times. For the pCAMBIA1391z control, add 1 µl of (500 pg/µl) DNA to the 25 µl of cells on ice. Mix well by tapping. Do not pipette up and down or vortex to mix, this can harm cells and decrease transformation efficiency.
5) Pipette 26 µl of the cell/DNA mixture into a chilled electroporation cuvette without introducing bubbles. Quickly flick the cuvette downward with your wrist to deposit the cells across the bottom of the well and then electroporate.
6) Immediately add 974 µl of Recovery Medium or any other medium of choice to the cuvette, pipette up and down three times to re-suspend the cells. Transfer the cells and Recovery Medium to an Eppendorf tube.
7) Incubate tubes at 30 °C for 3 hours at 200 RPM.
8) Dilute the cells as appropriate then spread 20-200 μl cells onto a pre-warmed selective plate. For the pCAMBIA1391z control, you may plate 100 μl of undiluted transformation mix onto a YT plate containing 15 μg/ml rifampicin and 50 μg/ml kanamycin. Use a sterilized spreader or autoclaved ColiRoller™ plating beads to spread evenly.
9) Incubate the plates for 2 – 3 days at 30 °C.
Mode: Exponential protocol
Voltage (V): 1,800 V
Capacitance: 25 uFD
Resistance: 200 Ohms
Cuvette: 1 mm