The E.Z.N.A.® family of products is an innovative system that radically simplifies the extraction and purification of nucleic acids from a variety of sources. The key to this system is the HiBind® matrix that specifically, but reversibly, binds DNA or RNA under optimized conditions allowing proteins and other contaminants to be removed. The E.Z.N.A.® Plasmid DNA Mini Kits combine the power of HiBind® technology with the time-tested consistency of alkaline-SDS lysis of bacterial cells to deliver high-quality DNA in less than 30 minutes. HiBind® DNA Mini Columns facilitate the binding, washing, and elution steps thus enabling multiple samples to be processed simultaneously.
The E.Z.N.A.® Plasmid DNA Mini Kit is available with two different types of columns. V-spin columns have an attached cap, while Q-spin columns are capless. The columns are otherwise identical in use and application. Both columns can be used with the vacuum or centrifugation protocol.
For Research Use Only. Not for use in diagnostic procedures.
FEATURES | SPECIFICATIONS |
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Downstream Application | Cloning, sequencing, transformation, PCR, restriction digestion, ligation, in vitro transcription etc. |
Starting material | 1-5 mL LB culture |
Plasmid type | High-copy, low-copy, cosmid DNA |
Processing mode | Manual (centrifugation or vacuum) |
Throughput | 1-24 |
DNA binding technology | Silica Mini Spin Column |
Lysate clearance method | Centrifugation |
Processing time | <30 minutes |
Yield | 15-25 µg for high copy-number; 0.1-5 µg for low copy-number |
ITEM | AVAILABLE SEPARATELY |
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HiBind® DNA Mini Columns | View Product |
2 mL Collection Tubes | View Product |
Solution I | View Product |
Solution II | View Product |
Solution III | View Product |
HBC Buffer | View Product |
DNA Wash Buffer | View Product |
RNase A | View Product |
Elution Buffer | View Product |
Concentration Comparison
Figure 1. pGEM plasmid was purified from 4 mL DH5α cultures harboring the plasmid and eluted in 50 µL volume using kits from Omega Bio-tek and Company Q according to manufacturer’s recommended protocols. Plasmid DNA concentration was determined by optical density measurements using Thermo Scientific’s NanoDrop™ 2000c system.
Super-Coiled DNA
Figure 2. 5 µL of purified pGEM plasmid was analyzed on a 1% Agarose gel. Plasmid was isolated from 1 mL DH5α cultures harboring the plasmid using Omega Bio-tek’s E.Z.N.A.® Plasmid DNA Mini Kit I.
Yield and Quality
Table 1. pGEM plasmid was purified from 1 mL DH5α cultures harboring the plasmid and eluted in 50 µL volume. Plasmid DNA concentration was determined by optical density measurements using Thermo Scientific’s NanoDrop™ 2000c system.
Endotoxin Level
Table 2. Plasmid DNA purified with E.Z.N.A. Plasmid DNA Mini Kit I was used in a 5 µL Sanger sequencing reaction. DNA was analyzed on an Applied Biosystems 3730XL.
Table 3. Endotoxins in plasmid DNA preps. Plasmid DNA was isolated from 0.8 mL LB cultures following each manufacturer’s recommended protocols. Endotoxin levels were determined with Thermo Scientific’s Pierce LAL Chromogenic Endotoxin Quantitation Kit.
FAQs
What is the final concentration of RNase in Solution I?
100 µg/mL
Can I isolate plasmid larger than 20 kb?
The kits work efficiently for plasmid sizes up to 20 kb. You will see reduced yields for plasmids >20 kb. The recommendations for recovery of plasmids >10 kb – heat the elution buffer to 7 ˚C, incubate the elution buffer on the column for 5 min and do a second elution with the eluate from the first round. We have seen success with recovery of 25 kb plasmids.
Are there any special storage conditions for the components of the plasmid kits?
Solution I (once RNase A is added) should be stored at 2-8 ˚C. All other materials should be stored at room temperature.
Can your plasmid kit work for yeast too?
Yes, following some protocol modifications. You will need to source sorbitol buffer and lyticase.
Please prepare fresh sorbitol buffer (1 M sorbitol; 100 mM sodium EDTA; 14 mM β-mercaptoethanol)
- Harvest cells (maximum 2 x 107) by centrifuging for 10 minutes at 5000 x g (approximately 7500 rpm). Discard the supernatant.
- Resuspend the pellet in 600 µL sorbitol buffer and 200 units of lyticase. Incubate at 30 ˚C for 30 minutes.
- Pellet the spheroblasts by centrifuging for 10 minutes at 300 x g.
- Continue from step 4 (page 10) of the E.Z.N.A.® Plasmid Mini Kit I manual.
Can the E.Z.N.A. Plasmid Mini Kit I clean-up already eluted plasmid?
Purified plasmid can be re-bound to the HiBind DNA column using HBC Buffer (5 volumes of HBC to 1 elution), followed by 2 rounds of wash with DNA Wash Buffer. The last step is to dry the column and elute the DNA. Note: some DNA will be lost due to the column’s inherent properties.
Product Information
Safety Data Sheets
Components | Hazard Standards | Languages | Link | hf:tax:dlp_document_language | hf:tax:dlp_document_hazard-standard |
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DNA Wash Buffer | GHS | Spanish | spanish | ghs | |
DNA Wash Buffer | GHS | English | english | ghs | |
DNA Wash Buffer | WHMS | French | french | whms | |
DNA Wash Buffer | WHMS | English | english | whms | |
DNA Wash Buffer | REACH | Swedish | swedish | reach | |
DNA Wash Buffer | REACH | Spanish | spanish | reach | |
DNA Wash Buffer | REACH | Norwegian | norwegian | reach | |
DNA Wash Buffer | REACH | Italian | italian | reach | |
DNA Wash Buffer | REACH | German | german | reach | |
DNA Wash Buffer | REACH | French | french | reach | |
DNA Wash Buffer | REACH | Finnish | finnish | reach | |
DNA Wash Buffer | REACH | Danish | danish | reach | |
DNA Wash Buffer | REACH | English | english | reach | |
Elution Buffer | REACH | Greek | greek | reach | |
Elution Buffer | REACH | Portuguese | portuguese | reach | |
Elution Buffer | REACH | Hungarian | hungarian | reach | |
Elution Buffer | REACH | Dutch | dutch | reach | |
Elution Buffer | WHMS | French | french | whms | |
Elution Buffer | WHMS | English | english | whms | |
Elution Buffer | REACH | Swedish | swedish | reach | |
Elution Buffer | REACH | Spanish | spanish | reach | |
Elution Buffer | REACH | Italian | italian | reach | |
Elution Buffer | GHS | English | english | ghs | |
Elution Buffer | GHS | Spanish | spanish | ghs | |
Elution Buffer | REACH | English | english | reach | |
Elution Buffer | REACH | Danish | danish | reach | |
Elution Buffer | REACH | French | french | reach | |
Elution Buffer | REACH | Norwegian | norwegian | reach | |
Elution Buffer | REACH | German | german | reach | |
Elution Buffer | REACH | Finnish | finnish | reach | |
HBC Buffer | GHS | English | english | ghs | |
HBC Buffer | WHMS | French | french | whms | |
HBC Buffer | WHMS | English | english | whms | |
HBC Buffer | REACH | Swedish | swedish | reach | |
HBC Buffer | REACH | Spanish | spanish | reach | |
HBC Buffer | REACH | Norwegian | norwegian | reach | |
HBC Buffer | REACH | German | german | reach | |
HBC Buffer | GHS | Spanish | spanish | ghs | |
HBC Buffer | REACH | English | english | reach | |
HBC Buffer | REACH | Danish | danish | reach | |
HBC Buffer | REACH | French | french | reach | |
HBC Buffer | REACH | Italian | italian | reach | |
HBC Buffer | REACH | Finnish | finnish | reach | |
RNase A | GHS | Spanish | spanish | ghs | |
RNase A | WHMS | French | french | whms | |
RNase A | WHMS | English | english | whms | |
RNase A | REACH | Swedish | swedish | reach | |
RNase A | REACH | Spanish | spanish | reach | |
RNase A | REACH | Norwegian | norwegian | reach | |
RNase A | REACH | German | german | reach | |
RNase A | GHS | English | english | ghs | |
RNase A | REACH | English | english | reach | |
RNase A | REACH | Danish | danish | reach | |
RNase A | REACH | French | french | reach | |
RNase A | REACH | Italian | italian | reach | |
RNase A | REACH | Finnish | finnish | reach | |
Solution I | GHS | Spanish | spanish | ghs | |
Solution I | WHMS | French | french | whms | |
Solution I | WHMS | English | english | whms | |
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Solution I | REACH | Spanish | spanish | reach | |
Solution I | REACH | Norwegian | norwegian | reach | |
Solution I | REACH | German | german | reach | |
Solution I | GHS | English | english | ghs | |
Solution I | REACH | English | english | reach | |
Solution I | REACH | Danish | danish | reach | |
Solution I | REACH | French | french | reach | |
Solution I | REACH | Italian | italian | reach | |
Solution I | REACH | Finnish | finnish | reach | |
Solution II | REACH | Finnish | finnish | reach | |
Solution II | REACH | Norwegian | norwegian | reach | |
Solution II | REACH | Swedish | swedish | reach | |
Solution II | REACH | Italian | italian | reach | |
Solution II | REACH | Danish | danish | reach | |
Solution II | REACH | Spanish | spanish | reach | |
Solution II | GHS | Spanish | spanish | ghs | |
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Solution II | WHMS | English | english | whms | |
Solution II | WHMS | French | french | whms | |
Solution II | REACH | English | english | reach | |
Solution II | GHS | English | english | ghs | |
Solution II | REACH | German | german | reach | |
Solution III | REACH | English | english | reach | |
Solution III | REACH | Danish | danish | reach | |
Solution III | REACH | Finnish | finnish | reach | |
Solution III | REACH | French | french | reach | |
Solution III | REACH | German | german | reach | |
Solution III | REACH | Italian | italian | reach | |
Solution III | REACH | Norwegian | norwegian | reach | |
Solution III | REACH | Spanish | spanish | reach | |
Solution III | REACH | Swedish | swedish | reach | |
Solution III | WHMS | English | english | whms | |
Solution III | WHMS | French | french | whms | |
Solution III | GHS | English | english | ghs | |
Solution III | GHS | Spanish | spanish | ghs |