missing translation for 'onlineSavingsMsg'
Learn More

Invitrogen™ Cells-to-cDNA™ II Kit

The Ambion™ Cells-to-cDNA™ II Kit (patent pending) produces cDNA from cultured mammalian cells in less than 2 hr., no RNA isolation is required.

Brand:  Invitrogen™ AM1722

389.35 GBP valid until 2024-03-29
Use promo code "21615" to get your promotional price.



Code : 50

Additional Details : Weight : 0.15000kg

 View more versions of this product

Product Code. 10600036

  • £584.00 / Each
Estimated Shipment: 16-04-2024
to see stock.

Please to purchase this item. Need a web account? Register with us today!


For Research Use Only. All usage must comply with product instructions.
 

Description

Description

The Ambion™ Cells-to-cDNA™ II Kit (patent pending) produces cDNA from cultured mammalian cells in less than 2 hr. No RNA isolation is required. This kit contains sufficient reagents for 100 reactions and is ideal for those who want to perform reverse transcription reactions on small numbers of cells, numerous cell samples, or for scientists who are unfamiliar with RNA isolation.

• No RNA purification required
• From cells in culture to cDNA in less than 2 hr
• Detect rare messages in as few as 1 cell
• Ideal for labs not equipped for RNA isolation

Ideal for RT-PCR Applications
The Cells-to-cDNA™ II Kit (patent pending) integrates RNase inactivation and DNase I treatment into an RT-PCR compatible cell lysis buffer, eliminating RNA isolation altogether. Most cell lysis buffers contain strong denaturants that if carried over into enzymatic reactions would inhibit or inactivate most enzymes. If a lysis buffer without strong denaturants is used, endogenous RNase can quickly degrade cellular RNA. The Cells-to-cDNA™ II Kit contains a novel Cell Lysis Buffer that inactivates endogenous RNases without compromising downstream enzymatic reactions. After inactivation of RNases, the cell lysate can be directly added to a cDNA synthesis reaction. Cells-to-cDNA™ II is compatible with both one-step and two-step RT-PCR protocols.

Quantitative—Linear Results and No Detectable DNA Contamination
To illustrate the quantitative, linear response of Cells-to-cDNA™ II to variations in input cell number, a real-time quantitative RT-PCR experiment was performed using the ABI 7700 Sequence Detection System. Plotting cycle threshold (Ct) versus cell concentration for GAPDH yielded a standard curve with a correlation of 0.99. Thus, Cells-to-cDNA™ II yields linear results for 1 to 10,000 cells/ μL in a real-time RT-PCR two-step assay. It should also be noted that the minus-template PCR control for the GAPDH experiment was negative, indicating complete removal of genomic DNA.

Simple Procedure
The kit comes with everything you need to go from cultured cells to PCR-ready cDNA in less than 2 hr; no RNA isolation is required. Cells are first washed with PBS and then resuspended in the Cell Lysis Buffer. A brief heating simultaneously lyses the cells and inactivates RNases. An optional DNase digestion is then performed to degrade genomic DNA, followed by a heat inactivation step. A fraction of the cell lysate is then used in a reverse transcription reaction with the included reagents.

Accessory Products:
SuperTaq™ Thermostable Taq DNA Polymerase is recommended and available separately (Cat. No. AM2050 and AM2052). For optimal amplification of fragments greater than 1 kb, use SuperTaq™ Plus Thermostable Taq DNA Polymerase (Cat. No. AM2054 and AM2056).

Specifications

Specifications

1X PBS, Cell Lysis II Buffer, μL DNase 1, 10X RT Buffer, M-mLV Reverse Transcriptase, RNase Inhibitor, dNTP Mix, Random Decamers, Oligo(dT)18 Primers, Armored RNA™ Control, Armored RNA™ Primer Pair, and Endogenous Primer Pair should be stored at
-20°C. Nuclease-free water may be stored at any temperature.
Ambion™, Cells-to-cDNA™
M-MLV
Real Time PCR (qPCR), RT-PCR
40 reactions
7 kb or less
42°C
2 hr.
Dry Ice
cDNA
Mammalian Cells
Product Suggestions

Product Suggestions

Videos
SDS
Documents

Documents

Certificates
Special Offers

Special Offers

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