ig^® ER2738 Phage Display Chemically Competent Cells

Name: ig<sup>®</sup> ER2738 Phage Display Chemically Competent Cells
SKU: 10761
Availability: InStock

$155.00 – $260.00

High Efficiency ig^® ER2738 Phage Display chemically competent cells are suitable for preparation of antibody or peptide phage display libraries

Categories: Competent Cells, New & Featured Products.

Description

Intact Genomics (ig^®) ER2738 Phage Display Chemically Competent Cells are suitable for protein expression and preparation of antibody or peptide phage display libraries. ER2738 cells are also useful for protein expression, M13 phage work, general cloning, and blue/ white screening.

CUSTOM ALIQUOTS AVAILABLE

Specifications

Competent cell type: Chemically competent
Species: E. coli
Format: Tubes
Transformation efficiency: ≥1 x 10¹⁰ cfu/µg pUC19 DNA
Blue/white screening: Yes
Shipping condition: Dry ice

Reagents Needed for One Reaction

ig^® ER2738 Phage Display chemically competent cells: 50 µl
DNA (or pUC19 Control, 10 pg/µl): 1 µl
Recovery medium: 1 ml

Product Includes & Storage

ig^® ER2738 Phage Display chemically competent cells: -80 ºC
pUC19 control DNA: -20 ºC
Recovery medium: 4 ºC

Genomic Features

Intact Genomics ER2738 phage display chemically competent cells have the following features:

>1 x 10¹⁰cfu/µg efficiency with electroporation.
Amber suppressor strain (glnV)

Genotype

[F’proA+B+ lacIq Δ(lacZ)M15 zzf::Tn10 (tetr)] fhuA2 glnVΔ(lac-proAB) thi-1Δ(hsdS-mcrB)5

Quality Control

Transformation efficiency is tested by using the pUC19 control DNA supplied with the kit and the high efficiency transformation protocol listed below. Transformation efficiency should be ≥1 x 10¹⁰ CFU/µg pUC19 DNA.

Untransformed cells are tested for appropriate antibiotic sensitivity.

General Guidelines

Follow these guidelines when using ig^® ER2738 Phage Display competent E. coli.

Handle competent cells gently as they are highly sensitive to changes in temperature or mechanical lysis caused by pipetting.
Thaw competent cells on ice, and transform cells immediately following thawing. After adding DNA, mix by tapping the tube gently. Do not mix cells by pipetting or vortexing.

Example Calculation of Transformation Efficiency
Transformation Efficiency (TE) is defined as the number of colony forming units (cfu) produced by transforming 1µg of plasmid into a given volume of competent cells.

TE = Colonies/µg/Dilution

Transform 1 µl of (10 pg/µl) pUC19 control plasmid into 50 µl of cells, add 950 µl of Recovery Medium. Dilute 10 µl of this in 990 µl of Recovery Medium and plate 50 µl. Count the colonies on the plate the next day. If you count 50 colonies, the TE is calculated as follows:

Colonies = 50
µg of DNA = 0.00001
Dilution = 50/1000 x 10/1000 = 0.0005
TE = 50/.00001/.0005 = 1.0×10¹⁰1017-12 1017-24

Additional information

µl	6×50µl, 12×50µl, 24×50µl, 6×100µl, 12×100µl, 24×100µl, 6×200µl, 12×200µl, 1×96 well plate (20µl/well)

Use this procedure to transform ig^® ER2738 Phage Display chemically competent cells. We recommend verifying the transformation efficiency of the cells using the pUC19 control DNA supplied with the kit. Do not use these cells for electroporation.

Remove competent cells from the -80 °C freezer and thaw completely on wet ice (10-15 minutes).
Aliquot 1-5 µl (1 pg-100 ng) of DNA to the chilled microcentrifuge tubes on ice.
When the cells are thawed, add 50 μl of cells to each DNA tube on ice and mix gently by tapping 4-5 times. For the pUC19 control, add 1 µl of (10 pg/µl) DNA to a chilled microcentrifuge tube, prior to adding 50 µl of Mix well by tapping. Do not pipette up and down or vortex to mix, this can harm cells and decrease transformation efficiency.
Incubate the cells with DNA on ice for 30 minutes.
After 30 minute ice incubation, heat shock the cells at 42 °C for 45 seconds.
Transfer the tubes to ice for 2 minutes.
Add 950 µl of Recovery Medium or any other medium of choice to each tube.
Incubate tubes at 37 °C for 1 hour at 210 rpm.
Spread 50 μl to 200 μl from each transformation on
Pre-warmed selection plates. We recommend plating two different volumes to ensure that at least one plate will have well-spaced colonies. For the pUC19 control, plate 50 μl on an LB plate containing 100 μg/ml ampicillin. Use sterilized spreader or autoclaved ColiRoller™ plating beads to spread evenly.
Incubate the plates overnight at 37 °C.

5 Minute Transformation Protocol

The following procedure results in only ~10% of the transformation efficiency as the protocol listed above.

Remove competent cells from the -80 °C freezer and thaw in your hand.
Aliquot 1-5 µl (1 pg-100 ng) of DNA to the microcentrifuge tubes. Do not pipette up and down or vortex to mix, this can harm cells and decrease transformation efficiency.
Incubate the cells with DNA on ice for 2 minutes.
After 2 minute ice incubation, heat shock the cells at 42 °C for 45 seconds.
Transfer the tubes to ice for 2 minutes.
Add 950 µl of Recovery Medium at room temperature or any other medium of choice to each tube. Immediately spread 50 μl to 200 μl from each transformation on pre-warmed selection plates. We recommend plating two different volumes to ensure that at least one plate will have well-spaced colonies. For the pUC19 control, plate 50 μl on an LB plate containing 100 μg/ml ampicillin. Use sterilized spreader or autoclaved ColiRoller™ plating beads to spread evenly.
Incubate the plates overnight at 37 °C.