RNA Clean-Up and Concentration Kits
For rapid and efficient clean-up and concentration of total RNA, including microRNA, without phenol
For research use only and NOT intended for in vitro diagnostics.
Version Available Here.
RNA Clean-Up and Concentration Kits
For rapid and efficient clean-up and concentration of total RNA, including microRNA, without phenol
Register today to receive an exclusive 15% off* on your first order.
Features and Benefits
- Clean-up & concentrate total RNA (including miRNA) in minutes
- Clean-up & concentrate RNA from TRIzol®, TRI Reagent®, etc
- Clean-up RNA from contaminants including enzymes, primers, nucleotides
- Rapid spin-column protocol, elute in 20 µL
- 96-well format for high throughput processing & Micro-Elute spin column formats for 8 µL are available
- Purified RNA is suitable for a variety of downstream applications, including Small RNA Sequencing. Find out more information on Norgen's NGS services
- Purification is based on spin column chromatography that uses Norgen’s proprietary resin separation matrix
These kits are designed to clean-up and concentrate RNA (including miRNA) from TRIzol® and TRI Reagent®, enzymatic reactions, in vitro transcription, labelling reactions, etc. These are robust kits for all clean-up and concentration purposes for up to 35 µg of RNA in solution. The purified RNA is of the highest purity and integrity, and can be used in a number of downstream applications. These kits purify all sizes of RNA, from large mRNA and ribosomal RNA down to miRNA, siRNA and lncRNA.
RNA Clean-Up and Concentration Kit (Spin Column)
Norgen’s RNA Clean-Up and Concentration Kit provides a rapid method for the purification, cleanup and concentration of up to 35 μg of RNA isolated using different methods including phenol/guanidine-based protocols, and from various upstream enzymatic reactions such as DNase treatment and labeling. The kit elutes RNA in 20 µL. Complete 10 purifications in 20 minutes.
RNA Clean-Up and Concentration 96-Well Kit (High Throughput)
Norgen’s RNA Clean-Up and Concentration 96-Well Kit provides a rapid method for the purification, cleanup and concentration of up to 50 μg of RNA isolated using different methods including phenol/guanidine-based protocols, and from various upstream enzymatic reactions such as DNase treatment and labeling. The kit elutes RNA in 75 µL. Complete 10 purifications in 30 minutes.
RNA Clean-Up and Concentration Micro-Elute Kit (Micro-Elute)
Norgen’s RNA Clean-Up and Concentration Micro-Elution Kit provides a rapid method for the purification, cleanup and concentration of up to 10 μg of RNA isolated using different methods including phenol/guanidine-based protocols, and from various upstream enzymatic reactions such as DNase treatment, labeling and in vitro transcription. This kit is made for eluting RNA in smaller volumes of 8 µL for all types of downstream applications, for the highest concentration of RNA sample. Complete 10 purifications in 20 minutes.
Protocol
Details
Supporting Data
Kit Specifications (Spin Column)
|
|
Maximum Column Binding Capacity | 35 μg |
Size of RNA Purified | All sizes, including small RNA (<200 nt) |
Maximum Amount of Starting Material | 35 μg of RNA |
Minimum Elution Volume | 20 μL |
Time to Complete 10 Purifications | 20 minutes |
Average Recovery | ≥ 90% |
Storage Conditions and Product Stability
All solutions should be kept tightly sealed and stored at room temperature. This kit is stable for 2 years after the date of shipment.
Component | Cat. 23600 (50 preps) | Cat. 43200 (100 preps) | Cat. 25100 (192 preps) | Cat. 61000 (50 preps) |
---|---|---|---|---|
Buffer RL | 40 mL | 2 x 40 mL | 2 x 40 mL | 40 mL |
Wash Solution A | 38 mL | 2 x 38 mL | 2 x 38 mL | 38 mL |
Elution Solution A | 6 mL | 2 x 6 mL | 2 x 20 mL | 6 mL |
Column Activation Solution | - | - | - | 30 mL |
Micro Spin Columns | 50 | 100 | - | - |
Micro-Elute RNA Spin Columns | - | - | - | 50 |
96-Well Plate | - | - | 2 | - |
Adhesive Tape | - | - | 4 | - |
Collection Tubes | 50 | 100 | - | 50 |
96-Well Collection Plate | - | - | 2 | - |
Elution Tubes (1.7 mL) | 50 | 100 | - | 50 |
96-Well Elution Plate | - | - | 2 | - |
Product Insert | 1 | 1 | 1 | 1 |
Documentation
(43200) RNA Clean-Up and Concentration Kit (Spin Column)- Protocol (100 prep)
(25100) RNA Clean-Up and Concentration 96-Well Kit (High Throughput) - Protocol (96-well)
(61000) RNA Clean-Up and Concentration Micro-Elute Kit (Micro-Elute) - Protocol (50 prep)
FAQs
Spin Column, High Throughput, Micro-Elute
Poor DNA recovery could be due to one or a combination of the following factors:
- Column has become clogged.
Do not exceed the recommended amounts of starting materials. The amount of starting material may need to be decreased if the column shows clogging below the recommended levels. See FAQ related to “Clogged Columns/wells” below.
- An alternative elution solution was used.
It is recommended that the Elution Solution A supplied with this kit be used for maximum RNA recovery.
- Ethanol was not added to the lysate.
Ensure that the appropriate amount of ethanol is added to the lysate before binding to the column.
- Ethanol was not added to the Wash Solution A.
Ensure that 90 mL of 96 - 100% ethanol is added to the supplied Wash Solution A prior to use.
Column/well clogging can result from one or a combination of the following factors:
- High amounts of RNA as input.
Ensure that no more than 50 µg of RNA are used as input.
- High amounts of genomic DNA present in sample.
The lysate may be passed through a 25 gauge needle attached to a syringe 5-10 times in order to shear the genomic DNA prior to loading onto the column.
- Centrifuge temperature too low.
Ensure that the centrifuge remains at room temperature throughout the procedure. Temperatures below 15°C may cause precipitates to form that can cause the columns to clog.
- Improper mixing of lysate and ethanol.
Ensure thorough mixing of the lysate with ethanol to prevent clogging and ensure efficient binding of RNA to the column.
- Presence of impurities in the sample.
Impurities such as cell debris or proteins can cause clogging. Ensure the sample is properly lysed and cleared before loading onto the column.
Degraded RNA may be caused by the following factors:
- RNase contamination.
RNases may be introduced during the use of the kit. Ensure proper procedures are followed when working with RNA. Please refer to “Working with RNA” at the beginning of this user guide.
- Procedure not performed quickly enough.
In order to maintain the integrity of the RNA, it is important that the procedure be performed quickly.
- Improper storage of the purified RNA.
For short term storage RNA samples may be stored at –20°C for a few days. It is recommended that samples be stored at –70°C for longer term storage.
If the RNA does not perform well in downstream applications, it may be due to one or more of the following:
- RNA was not washed three times with the provided Wash Solution A.
Traces of salt from the binding step may remain in the sample if the column is not washed three times with the Wash Solution A. Salt may interfere with downstream applications, and thus must be washed from the column.
- There is ethanol carryover.
Ensure that the dry spin under the Column Wash procedure is performed, in order to remove traces of ethanol prior to elution. Ethanol is known to interfere with many downstream applications.
The contamination with DNA or genomic DNA may be due to the use of large amounts of starting material. To address this issue, it is recommended to perform RNAse-free DNase I digestion as detailed in Appendix A. This step helps ensure the removal of any residual DNA, maintaining the purity of the RNA sample.
Citations
Title | A differentially expressed set of microRNAs in cerebro-spinal-fluid (CSF) can diagnose CNS malignancies |
Citation | Oncotarget 2015. |
Authors | Drusco, A., Bottoni, A., Lagana, A., Acunzo, M., Fassan, M., Cascione, L., ... & Alder, H |
Title | Expression of miRNAs in Bull Spermatozoa Correlates with Fertility Rates |
Citation | Reproduction in Domestic Animals 2015. |
Authors | M Fagerlind, H Stalhammar, B Olsson, K Klinga-Levan |
Title | LARP1 post-transcriptionally regulates mTOR and contributes to cancer progression |
Citation | Oncogene 2014. |
Authors | M Mura, TG Hopkins, T Michael, N Abd-Latip, J Weir, E Aboagye, F Mauri, C Jameson, J Sturge, H Gabra, M Bushell, AE Willis, E Curry, SP Blagden |
Title | Bacillus pumilis Reveals a Remarkable High Resistance to Hydrogen Peroxide Provoked Oxidative Stress |
Citation | PLoS One 2014. |
Authors | T Handtke, R Schroeter, B Jurgen, K Methling, R Schluter, D Albrecht, S van Hijum, J Bongaerts, K Maurer, M Lalk, T Scheder, M Hecker, B Voigt |
Title | Analysis of Human TAAR8 and Murine Taar8b Mediated Signaling Pathways and Expression Profile |
Citation | International Journal of Molecular Sciences 2014. |
Authors | J Muhlhaus, J Dinter, D Nurnberg, M Rehders, M Depke, J Golchert, G Homuth, C Yi, S Morin, J Kohrle, K Brix, M Tschop, G Kleinau, H Biebermann |
Title | Rapid diagnostic detection of plum pox virus in Prunus plants by isothermal AmplifyRP® using reverse transcription-recombinase polymerase amplification |
Citation | Journal of Virological Methods 2014. |
Authors | S Zhang, M Ravelonandro, P Russell, N McOwen, P Briard, S Bohannon, A Vrient |
Title | Analysis of Double-Stranded RNA from Microbial Communities Identifies Double-Stranded RNA Virus-like Elements |
Citation | Cell Reports 2014. |
Authors | CJ Decker, R Parker |
Title | Impact of priming on the response of neutrophils to human neutrophil alloantigen-3a antibodies |
Citation | Transfusion 2014. |
Authors | T Berthold, S Muschter, N Schubert, J Wesche, S Ameling, A Teumer, A Reil, J Bux, T Bakchoul, A Greinacher |
Title | Common versus noble- Bacillus subtilis differentially responds to air and argon gas plasma |
Citation | Proteomics 2013. |
Authors | T Winter, J Bernhardt, J Winter, U Mader, R Schluter, KD Weltmann, M Hecker, H Kusch |
Title | The non-coding transcriptome of the hyperthermophilic archaeon Pyrococcus abyssi |
Citation | Biology 2013. |
Authors | C Toffano-Nioche, A ott, E Crozat, AN Nguyen, M Zytnicki, F Leclerc, P Forterre, P Bouloc, D Gautheret |