Introduction

Plasmid Purification Technologies

We have a wide range of specialized nucleic acid purification products for you to explore. These products are based on anion-exchange technology, and chaotropic and non-chaotropic silica-based (membranes and beads). 

Use the table below to compare and find one to match your needs.

Understanding the binding principle

The resin in our QIAGEN Plasmid, QIAfilter, HiSpeed and Endofree kits is designed to exclusively isolate nucleic acids. The resin is macroporous and silica-based with high density of diethylaminoethyl (DEAE) groups. Purification using resin is based on the interaction between negatively charged phosphates of the nucleic acid backbone and positively charged DEAE groups on the surface of the resin (see figure Binding principle of QIAGEN resin). The salt concentration and pH conditions of the buffers used in each step control binding, wash stringency and elution of the nucleic acids. 

The binding principle of QIAGEN resin. Chemical structure of positively charged DEAE groups of QIAGEN resin and negatively charged groups of the DNA backbone which interact with the resin.

Applications of anion-exchange resin

QIAGEN anion-exchange resin gives you high yields of high-quality DNA highly suitable for sensitive downstream biological applications, such as in vitro transcriptio, transfection, microinjection, sequencing, gene therapy/gene editing research, and production of RNA therapeutics and vaccines, provided that a highly-efficient removal of endotoxin was done.

Key advantages

QIAGEN resin works effectively over a wide range of pH conditions (pH 6-9) and/or salt concentrations (0.1-1.6 M). This property optimizes the separation of nucleic acids – highly negatively charged, linear polyanions – from other substances and provides the highest possible nucleic acid quality. 

In contrast, conventional anion exchangers (based on cellulose, dextran or agarose) were developed to purify proteins – generally globular and irregular in their physiochemical properties – using varying salt concentrations only. Furthermore, salt concentrations that can be used for separation with these resins range only between 0.1 M and 0.6 M due to their lower charge densities. Under these conditions, the elution range of proteins, RNA and DNA overlap extensively, making separation difficult. Purification technologies such as gel filtration cannot discriminate between molecules of similar molecular weight, while products based solely on glass powder or silica gel cannot provide the degree of purity obtained with QIAGEN resin. 

Separation of nucleic acids at neutral pH on QIAGEN anion-exchange resin 

HiSpeed Tips, provided in our HiSpeed Plasmid Kits, contain resin with a higher capacity, allowing you to get higher yields of high-copy plasmid DNA than from classic tips. HiSpeed Tips are designed to allow a higher flow rate, saving you time during the DNA binding, washing and elution steps. 

Product line   Features  Application
 QIAGEN Plasmid  anion exchange technology comparable
 to CsCl purification results
 transfection of most cells
 QIAfilter  easy lysate filtering with a syringe  transfection of most cells
 HiSpeed  easy lysate filtering and desalting  tool  transfection of most cells
 EndoFree  highly efficient endotoxin removal  transfection of very sensitive cells
 Large-Contruct Kit  efficient purification of Large-Constructs
 as BACs, PACs and cosmids
 transfection of most cells

QIAGEN silica membrane technologies

Principle of silica membrane-based nucleic acid purification

We have developed a wide range of chaotropic and non-chaotropic, silica-based technologies that selectively bind DNA and separate nucleic acids within specific size parameters. Various optimized binding buffers are used to obtain maximum discrimination between nucleic acids during the adsorption and washing steps. Silica membranes are particularly well-suited for use in spin columns or multi-well units designed for high-throughput procedures.

Procedure for nucleic acid purification using silica membrane

Purification using our silica membrane technologies is based on a simple bind-wash-elute procedure. For chaotropic binding, nucleic acids are adsorbed to the silica membrane in the presence of chaotropic salts, which remove water from hydrated molecules in solution. Polysaccharides and proteins do not adsorb and are removed. For non-chaotropic binding, a non-chaotropic binding buffer is added to the lysate, ensuring highly selective binding conditions similar to anion-exchange chromatography.
After a wash step, pure nucleic acids are eluted in small volumes under low- or no-salt conditions, ready for immediate use without further concentration. 

Advantages of silica membrane-based DNA purification

Purification of nucleic acids with silica membranes is fast, convenient and economical. There are no time-consuming phenol-chloroform extractions, or alcohol or PEG precipitations, and you can avoid the handling inconveniences of loose silica resins or slurries and the problem of silica carryover, which can interfere with downstream applications. The quality of silica membranes used in our products ensures consistent yields of high-purity nucleic acids.

Principle of non-chaotropic plasmid DNA isolation

If you’re looking for extremely fast and easy large-scale preparation of transfection-grade plasmid DNA with the same performance and quality as anion-exchange technology, try the QIAGEN Plasmid Plus, QIAGEN Plasmid Plus 96 or QIAprep 96 Plus Kits. You can carry out the procedure in 20 (Midi and Maxi), 40 (Mega) or 50 minutes (Giga) using a vacuum and centrifuge. Optimized high-yield protocols and extra buffer volumes are provided with the kit, giving you yields from 250 μg (Midi) to 10 mg (Giga)
The design and binding chemistry of the QIAGEN Plasmid Plus spin columns offer a simple bind-wash-elute procedure based on a proprietary non-chaotropic chemistry. The resulting highly concentrated DNA is ready for immediate use in subsequent applications. For preparing transfection-grade plasmid DNA in a 96-well format, you can use the QIAGEN Plasmid Plus 96, QIAprep 96 Plus Kits and BioRobot Kits. Samples can be conveniently processed using the QIAvac 96 and/or centrifuge. Due to the proprietary binding chemistry, you can get up to 50 μg of transfection-grade plasmid DNA per well from up to 5 mL of an E. coli culture. The innovative binding buffer included in the kits ensures very specific binding conditions, providing DNA quality comparable to anion-exchange preps. 

Applications of non-chaotropic silica technology

QIAGEN Plasmid Plus, QIAGEN Plasmid Plus 96, QIAprep 96 Plus Kits provide transfection-grade plasmid DNA, highly suited for all applications such as: 

  • Transfection into most cell lines (including sensitive cell lines such as Huh-7)
  • Enzymatic modification
  • Restriction digestion
  • Cloning
  • In vitro transcription
  • In vitro translation 
  • Preparation of short hairpin vectors (sh-vectors)
  • Sequencing 
Advantages of non-chaotropic silica DNA extraction technology

QIAGEN Plasmid Plus, QIAGEN Plasmid Plus 96, QIAprep 96 Plus and BioRobot Kits provide transfection-grade plasmid with very low endotoxin levels (see figures Low endotoxin levels, highly efficient transfection into a sensitive cell line and Successful transfection into sensitive cell lines), high yields, fast procedures, as well as convenient and flexible processing options.

Low endotoxin levels: Purification per pellet-wet weight (g/L) for midi prep using Buffer ETR is shown. QIAGEN Plasmid Plus technology generally results in low endotoxin levels. The use of Buffer ETR further decreases the low levels of endotoxins obtained using QIAGEN Plasmid Plus technology.
Highly efficient transfection into a sensitive cell line: pCMVß DNA was prepared using the indicated preparation method. Huh-7 cells (4 x 104) were transfected using 200 ng plasmid DNA and 0.75 µL Attractene Transfection Reagent. ß-gal activity and protein content were measured after 48 hours. Plasmid DNA prepared with QIAGEN Plasmid Plus 96 Miniprep and BioRobot Kits resulted in highly efficient transfection into sensitive cell lines.

Successful transfection into sensitive cell lines: Plasmid pCMVβ DNA was prepared using the indicated preparation method with standard and high-yield (HY) protocols for QIAGEN Plasmid Plus Kits or the recommended protocol from the supplier indicated. Huh-7 cells were transfected using 200 ng plasmid DNA and 0.5 µL Attractene Transfection Reagent or 300 ng plasmid DNA and 0.75 µL Attractene Transfection Reagent.

Products using QIAGEN non-chaotropic silica membrane technology
 Product line  Applications
 QIAGEN Plasmid Plus Kits  Small- to large-scale plasmid purification
 QIAGEN Plasmid Plus 96 Miniprep and BioRobot Kits  Plasmid minipreps in 96-well format
 QIAGEN Plasmid Plus 96
 Plasmid minipreps in 96-well format
 QIAprep 96 Plus  Plasmid minipreps in 96-well format

Principle of chaotropic Plasmid DNA Prep

The QIAprep 2.0 Spin Columns in our QIAprep Spin Miniprep Kits and our eco-friendlier alternative, the QIAwave Plasmid Miniprep Kit, as well as the QIAprep 96 plates in our QIAprep 96 Turbo Kits contain a silica membrane. This membrane binds up to 20 µg DNA in the presence of a high chaotropic salt concentration and allows elution in a small volume of low salt buffer. QIAprep membrane technology eliminates time-consuming phenol-chloroform extraction and alcohol precipitation, as well as the problems and inconveniences associated with loose resins and slurries. High-purity plasmid DNA eluted from QIAprep membrane technology is immediately ready to use – there is no need to precipitate, concentrate or desalt.

Procedure for plasmid purification using QIAprep kits

Plasmid purification using QIAprep Spin Miniprep Kits and QIAwave Plasmid Miniprep Kit follows a simple bind-wash-elute procedure. First, bacterial cultures are lysed, and the lysates are cleared by centrifugation or filtration. The cleared lysates are then applied to the QIAprep 2.0 spin columns or a QIAprep 96 plate where plasmid DNA adsorbs to the silica membrane. Impurities are washed away, and pure DNA is eluted in a small volume of elution buffer or water. 
In addition to plasmid purification from Escherichia coli, QIAprep Kits can be used to purify plasmid DNA from Saccharomyces cerevisiae, Bacillus subtilis and Agrobacterium tumefaciens. Contact QIAGEN Technical Services or your local distributor for protocols for these applications. 
You can also automate the QIAprep Spin Miniprep Kit and the QIAwave Plasmid Miniprep Kit protocols on the QIAcube Connect

High-Purity DNA Applications in Research

The QIAprep Spin Miniprep Kits and QIAwave Plasmid Miniprep Kit provide reproducible yields of high-purity DNA suitable for use in most applications, including: 

  • PCR
  • Restriction digestion
  • Ligation and transformation
  • Sequencing
  • Screening

Advantages of chaotropic silica membrane plasmid DNA isolation

The QIAprep Spin Miniprep Kits, QIAwave Plasmid Miniprep Kit and QIAprep 96 Turbo Kits provide yields of up to 20 μg molecular biology-grade plasmid DNA suitable for many downstream applications such as PCR, sequencing, restriction digestion, ligation and transformation. 

Products using QIAGEN chaotropic silica membrane technology
 Product line  Applications
 QIAprep Miniprep Kit  Plasmid minipreps
 QIAwave Plasmid Miniprep Kit  Small- to large-scale plasmid purification
 Eco-frienldlier plasmid minipreps
 QIAprep 96 Turbo Kits  Plasmid minipreps in 96-well format