One Shot™ INVαF' Chemically Competent E. coli
One Shot&trade; INV&alpha;F' Chemically Competent <i>E. coli</i>
Invitrogen™

One Shot™ INVαF' Chemically Competent E. coli

One Shot INVαF´ Chemically Competent E. coli are designed to stably replicate high-copy number plasmids. They allow for the preparationRead more
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Catalog number C202003
Price (USD)
552.00
Each
Add to cart
Price (USD)
552.00
Each
Add to cart

One Shot INVαF´ Chemically Competent E. coli are designed to stably replicate high-copy number plasmids. They allow for the preparation of high quality plasmid DNA with less carry over contaminants as compared to other popular strains such as JM109 and can achieve a transformation efficiency of >1 x 108 cfu/μg supercoiled plasmid.

INVαF´ cells carry the F´ episome and so can be utilized to produce single-stranded DNA (ssDNA) from vectors that have an f1 origin of replication. This strain is related to DH strains and features similar genetic traits and benefits. The lacZΔM15 marker provides α-complementation of the ß-galactosidase gene from pUC or similar vectors and can be used for blue-white screening of colonies on bacterial plates containing Bluo-Gal or X-Gal. In addition to supporting blue/white screening, recA1 and endA1 mutations increase insert stability and improve the quality of plasmid DNA.

One Shot INVαF´ Chemically Competent E. coli cells offer:
• Transformation efficiencies of >1 x 108 cfu/μg
• Stability and exceptional quality of high-copy number plasmid DNAb
• Blue-white screening of recombinant clones (lacZΔM15)
• Reduction of homologous recombination of transformed plasmids (recA1)
• Increased quality of plasmid DNA preparations (endA1)
• Production and rescue of ssDNA from vectors carrying the f1 origin of replication (F´)

Note: INVαF´ cells do not require IPTG to induce expression from the lac promoter.

Convenient and efficient format
One Shot INVαF´ Chemically Competent E. coli cells are supplied in the convenient, single-reaction One Shot format. Each tube contains enough cells for one complete transformation, reducing freeze-thaw cycles and limiting money wasted on unused cells.

Genotype
endA1 recA1 hsdR17 (rK, mK+) supE44 thi-1 gyrA96 relA1 φ80lacZΔM15 Δ(lacZYA-argF)U169 λ
Genetic marker descriptions

Find the strain and format that fit your needs
A variety of DH strains are available in chemically competent and electrocompetent cell formats.
We offer other strains for ssDNA production, such as TOP10F´ or electrocompetent DH12S.
MultiShot formats are available for high throughput applications.
Explore bacterial growth media formats.

For Research Use Only. Not for use in diagnostic procedures.
Specifications
Product TypeChemically Competent Cells
Contains F' EpisomeYes
Improves Plasmid QualityYes (endA1)
Cloning Methylated DNAYes (hsd)
Transformation Efficiency LevelMedium Efficiency (1 x 108 to 1 x 109 cfu/μg)
Antibiotic Resistance BacterialNo
Cloning Unstable DNANot suitable for cloning unstable DNA
Blue/White ScreeningYes (lacZΔM15)
High-throughput CompatibilityLow
PlasmidHigh Copy Plasmid
Preparing Unmethylated DNANo
Reduces RecombinationYes (recA1)
Shipping ConditionDry Ice
T1 Phage - Resistant (tonA)No
SpeciesE. coli (K12)
FormatTube
Product LineOne Shot™
Quantity21 x 50 μL/tube
Unit SizeEach
Contents & Storage
• One Shot INVαF' Chemically Competent E. coli (21 x 50 μL)
Store Competent Cells at –80°C.

• pUC19 plasmid (50 μL at 10 pg/μL)
Store pUC19 plasmid at –20°C.

• S.O.C. Medium (6 mL)
Store S.O.C. Medium at 4°C or room temperature.

Frequently asked questions (FAQs)

What advantages do your Stbl2 cells offer over other cloning strains?

There are other strains available that may function similarly to Stbl2 cells in stabilizing inserts or vectors with repeated DNA sequences. However, one advantage of Stbl2 cells over many similar strains is that they are sensitive to Kanamycin, so you can use Stbl2 to propagate plasmids containing a Kanamycin resistance marker. 

How do you recommend that I prepare my DNA for successful electroporation of E. coli?

For best results, DNA used in electroporation must have a very low ionic strength and a high resistance. A high-salt DNA sample may be purified by either ethanol precipitation or dialysis.

The following suggested protocols are for ligation reactions of 20ul. The volumes may be adjusted to suit the amount being prepared.

Purifying DNA by Precipitation: Add 5 to 10 ug of tRNA to a 20ul ligation reaction. Adjust the solution to 2.5 M in ammonium acetate using a 7.5 M ammonium acetate stock solution. Mix well. Add two volumes of 100 % ethanol. Centrifuge at 12,000 x g for 15 min at 4C. Remove the supernatant with a micropipet. Wash the pellet with 60ul of 70% ethanol. Centrifuge at 12,000 x g for 15 min at room temperature. Remove the supernatant with a micropipet. Air dry the pellet. Resuspend the DNA in 0.5X TE buffer [5 mM Tris-HCl, 0.5 mM EDTA (pH 7.5)] to a concentration of 10 ng/ul of DNA. Use 1 ul per transformation of 20 ul of cell suspension.

Purifying DNA by Microdialysis: Float a Millipore filter, type VS 0.025 um, on a pool of 0.5X TE buffer (or 10% glycerol) in a small plastic container. Place 20ul of the DNA solution as a drop on top of the filter. Incubate at room temperature for several hours. Withdraw the DNA drop from the filter and place it in a polypropylene microcentrifuge tube. Use 1ul of this DNA for each electrotransformation reaction.

Do any Invitrogen competent cells contain DMSO in the freezing medium?

Yes, several of our competent cells products are frozen with DMSO. The presence of DMSO (dimethylsulfoxide) will generally be indicated in the MSDS files if you have a question about a particular product, but here is a list of commonly used products that are known to have DMSO in the freezing buffer:

One Shot OmniMAX 2 T1 Phage Resistant Cells, Cat. No. C8540-03

One Shot INV?F' Chemically Competent Cells, Cat. No. C2020-03 and C2020-06

One Shot MAX Efficiency DH5?-T1 Chemically Competent Cells, Cat. No. 12297-016

MAX Efficiency DH5?-T1 Phage Resistant Cells, Cat. No. 12034-013

MAX Efficiency DH5? Chemically Competent Cells, Cat. No. 18258-012

Library Efficiency DH5? Chemically Competent Cells, Cat. No. 18263-012

MAX Efficiency DH5? F'IQ Cells, Cat. No. 18288-019

MAX Efficiency Stbl2Chemically Competent Cells, Cat. No. 10268-019

Can encapsulated phagemid DNA or M13 phage be used to infect bacteria?

Single-stranded DNA viral particles like M13 require the presence of an F pilus in order to infect E. coli. This criterion is met by TOP10F', DH5? F'IQ, INV?F', Stbl4, OmniMAX2-T1 and DH12S cells. These cells are not traD mutants, which effectively allows the cells to retain the F' episome. Transforming single-stranded DNA can cause a 100- to 1,000-fold reduction in efficiency compared to viral particles.

When should DMSO, formamide, glycerol and other cosolvents be used in PCR?

Cosolvents may be used when there is a failure of amplification, either because the template contains stable hairpin-loops or the region of amplification is GC-rich. Keep in mind that all of these cosolvents have the effect of lowering enzyme activity, which will decrease amplification yield. For more information see P Landre et al (1995). The use of co-solvents to enhance amplification by the polymerase chain reaction. In: PCR Strategies, edited by MA Innis, DH Gelfand, JJ Sninsky. Academic Press, San Diego, CA, pp. 3-16.

Additionally, when amplifying very long PCR fragments (greater than 5 kb) the use of cosolvents is often recommended to help compensate for the increased melting temperature of these fragments.

Find additional tips, troubleshooting help, and resources within our PCR and cDNA Synthesis Support Center.