Invitrogen™ DNA-free™ DNA Removal Kit

Catalog No.	Quantity
AM1906	50 reactions

Catalog No. AM1906 Supplier Invitrogen™ Supplier No. AM1906

Description

Safely eliminate DNA contamination from RNA samples

DNA-free™ DNase treatment and removal reagents are designed for removal of contaminating DNA from RNA samples and for removal of DNase after treatment.

• No organic extraction or heat inactivation required
• Includes novel reagent to remove DNase
• Recombinant DNase I is certified RNase-freeThe DNA-free

• Inactivation and removal of DNase
• DNA-free reagents effectively remove DNase and divalent cations from reaction mixture
• DNase/cation removal step takes only three minutes
• No organic extraction, EDTA addition, or heat inactivation is required

TURBO™ DNA-free™ Kit is similar to the DNA-free Kit but includes TURBO DNase, an engineered hyperactive DNase that exhibits up to 350% greater catalytic efficiency than wild type DNase. The enzyme also has a 6-fold lower K_m for DNA, thus enabling effective removal of trace quantities of DNA contamination.

PCR & Real-Time PCR, Real Time PCR (qPCR), Reverse Transcription

Specifications

• Content And Storage: Store rDNase1 , 10X DNase 1 Buffer and DNase Inactivation Reagent at -20°C. Store Nuclease–free Water at room temperature.
• Shipping Condition: Dry Ice
• Enzyme: DNase
• Compatible Buffer: 10X Reaction Buffer
• Quantity: 50 reactions
• Product Type: DNA Removal Kit
• Product Line: Ambion, DNA-free

Frequently Asked Questions (FAQs)

How can I inactivate DNase I?

Add of 1 µL of 25 mM EDTA solution to the reaction mixture in 10 µL reaction with 1 unit DNase I, Amplification Grade (or 1:1 molar ratio of Mg++ ions:EDTA) to chelate the Mg++ ions in the DNase I buffer. Heat for 10 min at 65 degrees C.

Note: It is vital that the EDTA be at least at 2 mM prior to heat-inactivation to avoid Mg-dependent RNA hydrolysis.

DNA-free and Turbo-free versions of DNase I can be inactivated with included DNase Inactivation Reagent.

Are your DNase I products RNase-free?

Most of our DNase I products are guaranteed free of RNase activity. However, please note that Cat. No. 18047-019 is not tested for RNAse and is recommended primarily for protein applications. The other products are suitable for removing DNA from both RNA and protein preparations, for nick translating DNA, and for generating random fragments of DNA. For more demanding RT-PCR applications, we recommend using DNAse I, Amplification Grade.

How much rDNase I from the DNA-free Kit (Cat. No. AM1906) should I use per reaction?

There are two methods for DNase treatment depending on the amount of contaminating DNA and the nucleic acid concentration of the sample.
- Routine DNase treatment: Sample contains ≤200 µg nucleic acid per mL. Use 1 µL rDNase I (2 U) for up to 10 µg of RNA in a 50 µL reaction. These reaction conditions will remove up to 2 µg of genomic DNA from total RNA in a 50 µL reaction volume. For additional details, see ''Perform routine DNase treatment'' on page 3 of the user manual.
- Rigorous DNase treatment: Sample contains >200 µg nucleic acid per mL. Dilute the sample to 2 µg of nucleic acid per mL before adding DNase I Buffer and rDNase I. In addition, rDNase I treatment can be divided into two steps. For details, see ''Perform routine DNase treatment'' on page 3 of the user manual.

If the sample cannot be diluted, simply increase the amount of rDNase I to 2-3 µL (4-6 U). Increasing the amount of enzyme may successfully remove contaminating DNA from samples containing up to 500 µg/mL nucleic acid in a 10-100 µL reaction. However, the efficacy of treating highly concentrated nucleic acid samples depends on the absolute level of DNA contamination, and residual DNA may or may not be detectable by PCR after 35-40 cycles.

Do I need to perform DNase treatment when using the TaqMan hPSC Scorecard Panel?

We recommend that you include DNase treatment of all samples as a good practice, despite the fact that the majority of primers span across an intron and do not amplify (or in some cases, minimally amplify) contaminating genomic DNA. For more information see here.

For Research Use Only. Not for use in diagnostic procedures.