This protocol is a cost effective alternative for efficient parallel clarification and plasmid DNA purification from E. coli cultures. The AcroPrep Advance process starts with an optimized lysate clarification filter plate followed by purification on a high binding capacity DNA binding filter plate.
We describe the complete process of AcroPrep Advance Filter Plates for 96 plasmid preparations, starting from prokaryotic culture and ending with high purity DNA. Based on multi-well filtration for bacterial lysate clearance and DNA purification, this method creates a streamlined process for plasmid preparation. Filter plates containing silica-based media can easily be processed by vacuum filtration or centrifuge to yield appreciable quantities of plasmid DNA. Quantitative analyses determine the purified plasmid DNA is consistently of high quality with average OD260/280 ratios of 1.97. Overall, plasmid yields offer more pure DNA for downstream applications, such as sequencing and cloning. This streamlined method of using AcroPrep Advance Filter Plates allows for manual, semi-automated or fully-automated processing.
1. Lysate Clearance
2. DNA Binding
3. DNA Elution
4. Quantitative and Qualitative Analyses
5. Representative Results
E. coli lysate clarified using traditional centrifugation and Pall AcroPrep Advance lysate clarification Filter Plates showed appreciable reduction of debris from starting material. (Figure 4).
Plasmid DNA at three concentrations was spiked into TE buffer and passed through the AcroPrep Advance lysate clarification filter plate. A comparison of plasmid DNA concentration, pre- and post-filtration, shows ~100% recovery (Figure 5) at all three concentrations.
To demonstrate the recovery of DNA from clarified E. coli lysate, plasmid DNA was spiked into crude lysate and then clarified by filtration. The same plasmid DNA was added to cell lysate following filtration. Electrophoresis was performed on aliquots from each sample (Figure 6). A single, clear band of similar intensity from each sample demonstrates little if any DNA loss during the filtration-based clarification step.
Cultures of E. coli containing pCAT plasmid DNA were purified from E. coli lysates using Pall’s 350 μL and 1 mL DNA binding Filter Plates, as well as two other brands of 350 μL DNA binding plates. All purifications were performed as specified in the manufacturer’s recommended protocol. The highest DNA concentration and total yield are seen from Pall’s 1 mL AcroPrep Advance DNA purification filter plate (Figure 7 and Table 2).
Although Competitor W also shows high DNA concentration (155 ng/μL), total DNA yield is the lowest (4.7 μg/well) due to the low recovery volume, ~30 μL. Competitor M gave the lowest concentration of DNA at 108 ng/μL with a total yield of 5.6 μg/well.
Agarose gel analysis of purified pCAT DNA from the three different DNA binding plates is shown in Figure 8. Each collected sample volume was adjusted to 65 μL to correct for differences in recovery volume prior to electrophoresis. All samples show supercoiled plasmid DNA, but DNA yield from each of the Filter Plates varies.
Figure 9 shows the prepared DNA is all in supercoiled form and has similar concentration.
Figure 1. Assembly of Vacuum Manifold for Lysate Clarification.
Figure 2. Assembly of Vacuum Manifold for DNA Binding.
Figure 3. Assembly of Vacuum Manifold for Vacuum Elution.
Figure 4. Filtration simplifies sample clarification. Triplicate samples of 300 μL of crude lysate clarified by vacuum filtration (350 μL AcroPrep Advance lysate clarification filter plate) or traditional centrifugation. OD320 measured before and after clarification.
Figure 5. Full recovery of pDNA after passage through AcroPrep Advance lysate clarification filter plate. 300 μL TE buffer spiked with pCAT at 25, 50 and 100 μg/mL. DNA concentration and recovery calculated from OD260 before and after filtration, N = 2.
Figure 6. Recovery of pCAT DNA after clarification. Equal amounts of pUC19 spiked into lysate before or after clarification, then diluted 1 to 10 in TE buffer. Loaded 2 μL/lane on 1.2% Agarose gel.
Figure 7. Higher plasmid DNA yield per well with pall Acroprep Advance DNA binding filter plate than competitor plates. pCAT plasmid DNA yield (OD260) using indicated DNA purification plates with 1 mL (Pall and Competitor M) or 1.5 mL (Competitor W) overnight culture of DH5α. Purification using plate manufacturer’s recommended protocol. Error bars indicate standard error (n > 6).
Figure 8. Agarose gel analysis of pCAT DNA purified on indicated DNA binding plate. 1.2% agarose gel electrophoresis of the purified pDNA. Pooled samples from three separate purifications, eluate adjusted to 65 μL after purification, diluted 1:10. Loaded 2 μL per lane.
Figure 9. Quality and recovery of pure dna similar when centrifuge or vacuum methods are used for final eluate collection agarose gel electrophoresis of the purified pDNA. The manufacturer’s recommended protocol for AcroPrep Advance Filter Plates was followed for pDNA purification. Elution was performed by centrifuge at 1,000 x g for 5 minutes or vacuum with 15 in. Hg (0.5 bar) for 2 minutes.
We describe a facile, streamlined protocol of AcroPrep Advance Filter Plates that affords several advantages. This method provides maximum plasmid DNA yields when processed in manual, semi-automated, or fully-automated AcroPrep Advance formats. An integrated prefilter on the lysate clearance plate provides consistent filtration of samples, even those containing high levels of particulates. The well geometry of the plate results in faster, more uniform filtration rates across the plate with minimal hold-up volume; and the outlet tip geometry provides direct flow of samples into receiver plate without concerns of cross contamination. Importantly, the high binding capacity membrane in DNA binding plate of AcroPrep Advance Filter Plates is optimized for maximum recovery of high quality plasmid DNA.
The authors have nothing to disclose.
Material Name | Type | Company | Catalogue Number | Comment |
---|---|---|---|---|
AcroPrep Advance Filter plate | PALL | PN 8175 (1 mL) or PN 8075 (350 μl) |
3 μm glass fiber 0.2 μm Supor® membrane for clarification | |
AcroPrep Advance Filter Plate | PALL | PN 8132 | for DNA Binding | |
Vacuum manifold | PALL | PN 5017 | ||
Vacuum pressure pump | PALL | PN 13157 |