Blood DNA Isolation Kits
For the rapid preparation of high quality DNA from whole blood
For research use only and NOT intended for in vitro diagnostics.
Blood DNA Isolation Kits
For the rapid preparation of high quality DNA from whole blood
Register today to receive an exclusive 15% off* on your first order.
Features and Benefits
- High yield and high purity DNA ready for any application
- Available in a variety of formats to properly suit your needs
- Compatible with blood collected on a variety of commercially available tubes
These kits allow for the isolation of DNA from the blood of various species, including humans and will recover genomic DNA, mitochondrial DNA, viral DNA and bacterial DNA. The purified DNA is of excellent quality and yield and completely compatible with any downstream application including PCR, qPCR and genotyping.
Blood DNA Isolation Mini Kit
Norgen’s Blood DNA Isolation Mini Kit is designed for the rapid preparation of DNA from up to 200 µL of whole blood using a rapid spin column protocol. Preparation time for a single sample is less than 30 minutes and each kit contains sufficient materials for 50 preparations.
Blood DNA Isolation Midi Kit
Norgen’s Blood DNA Isolation Kit is designed for the rapid spin column preparation of DNA from 0.3 to 2 mL volumes of whole blood. Preparation time for a single sample is less than 30 minutes, and each kit contains sufficient materials for 20 preparations.
Blood DNA Isolation Maxi Kit
This kit is designed for the rapid preparation of DNA from 3 mL up to 10 mL of whole blood. Preparation time for a single sample is less than 30 minutes.
Blood DNA Isolation 96-Well Kit (High Throughput)
This kit provides a rapid method for the high-throughput isolation of DNA from up to 200 µL of whole blood. Fast and easy processing using either a vacuum manifold or centrifugation.
Blood DNA Isolation Kit (Magnetic Bead System)
Norgen's Blood DNA Isolation Kit (Magnetic Bead System) is designed for the rapid preparation of genomic DNA from up to 200 µL of whole blood from various species, including human. Purification is based on magnetic beads as the separation matrix. Norgen’s magnetic beads bind DNA under optimized salt concentrations and releases the bound DNA under low salt and slightly alkali conditions. The genomic DNA is preferentially purified from other cellular proteinaceous components. Typical yields of genomic DNA will vary depending on the cell density of the blood sample. The purified genomic DNA is fully digestible with all restriction enzymes tested, and is completely compatible with downstream applications including real-time PCR, NGS and microarray analysis.
Blood DNA Isolation 96-Well Kit (High Throughput Magnetic Bead System)
96-well format for high throughput applications. Purification with the 96-well plates can be integrated with a robotic automation system.
Details
Supporting Data
Figure 1. The difference of Ct values obtained from a Taqman® qPCR reaction performed on DNA isolated from blood collected on Citrate, EDTA, and Heparin anticoagulants. 3 and 9 μL of each solution were used in a 20 μL qPCR reaction involving GAPDH primers.
Figure 2. Resolution of DNA isolated from buffy coats using Norgen's Blood Genomic DNA Isolation Mini Kit. 15 μL of 200 μL elutions were run on 1X TAE 1.0% agarose gel. Marker= Norgen's UltraRanger DNA Ladder.
Figure 3. The difference in Ct values between DNA isolated using Norgen's Blood Genomic DNA Isolation Mini Kit (Norgen), Competitor A's DNA Blood Mini Kit (A), Competitor B's Blood Kit (B), and Competitor B's Dx Blood (B Dx), in a Taqman qPCR reaction. Different template volumes (1, 3, 6 & 9 μL) of each elution were used in a 20 μL qPCR reaction involving GAPDH primers.
Figure 4. The difference in yield isolated from different volumes of blood using Norgen's vs Qiagen's kit. 50 μL of each sample was diluted in 450 μL of nuclease-free water, and DNA concentrations were measured using the UltraSpec 2100 Pro (Fisher Scientific). Two elutions were performed for all samples.
Figure 5. High Yields of DNA Isolated from Whole Blood. DNA was isolated from two different 10mL whole blood samples using Norgen's Blood DNA Isolation Maxi Kit. Following isolation, 10 µL from each 1 mL elution was loaded on 1% TAE agarose gel. Lanes 1 and 3 correspond to the first elution, while Lanes 2 and 4 correspond to the second elution. Norgen's Blood DNA Isolation Maxi Kit demonstrated a high yield of intact DNA.
Figure 6. Purified DNA Can be Amplified in a Real-time PCR (TaqMan) Reaction. DNA was isolated from 10 mL of whole human blood using Norgen's Blood DNA Isolation Maxi Kit. Different input amounts (1, 3 & 6 µL) of the DNA from each of the 1mL elutions was used in a real-time PCR reaction (total reaction volume of 20 µL) with GAPDH TaqMan probe and primers. The real-time PCR was successful in amplifying the GAPDH gene, indicating that the DNA is of a high quality and can be used in sensitive downstream applications. The black line is a no-template control.
Figure 7. High Yields of DNA Isolated from 20 µL to 200 µL of Whole Blood. DNA was isolated from 20, 50, 100 and 200 µL of whole blood using Norgen's Blood DNA Isolation Mini Kit and a leading competitor's kit. Following isolation, 15 µL from each 200 µL elution was loaded on 1% TAE agarose gel. Norgen's Blood DNA Isolation Mini Kit demonstrated a better DNA yield than the leading competitor's kit. Lane M: Norgen’s UltraRanger 1kb DNA Ladder.
Figure 8. Purified DNA Can be Amplified in a Real-time PCR (TaqMan) Reaction. DNA was isolated from 20, 50, 100 and 200 µL of whole human blood using Norgen's Blood DNA Isolation Mini Kit (Blue) and a leading competitor's kit (Red). 9 µL of the DNA from each 200 µL elution was used in a real-time PCR reaction (total reaction volume of 20 µL) with GAPDH TaqMan probe and primers. The real-time PCR was successful in amplifying the GAPDH gene, indicating that the DNA is of a high quality and can be used in sensitive downstream applications. Furthermore, Norgen-isolated DNA was amplified with a lower Ct value, indicating the higher yield and purity of DNA isolated using Norgen's kit. The black line is a no-template control.
Figure 9. Purified DNA Can be Amplified in a Real-time PCR (TaqMan) Reaction. DNA was isolated from 20, 50, 100 and 200 µL of whole human blood using Norgen's Blood DNA Isolation Mini Kit (Blue) and a leading competitor's kit (Red). Nine µL of the DNA from each 200 µL of elution was used in a real-time PCR reaction (total reaction volume of 20 µL) with GAPDH TaqMan probe and primers. The real-time PCR was successful in amplifying the GAPDH gene, with a linear decrease in Ct value with the increase in blood input volume, indicating that the DNA is of a high quality and can be used in sensitive downstream applications. Furthermore, Norgen-isolated DNA was amplified with a lower Ct value from all DNA isolated from the different blood input volumes, indicating the higher yield and purity of DNA isolated using Norgen's kit.
Figure 10. High Yields of DNA Isolated from 2 mL of Whole Blood. DNA was isolated from 2 mL of whole blood using Norgen's Blood DNA Isolation Midi Kit. Following isolation, 20 µL from 300 µL first and second elutions was loaded on 1% TAE agarose gel. Norgen's Blood DNA Isolation Midi Kit demonstrated a high DNA yield and integrity. Lane L: Norgen's HighRanger 1kb DNA Ladder.
Figure 11. Purified DNA Can be Amplified in a Real-time PCR (TaqMan) Reaction. DNA was isolated from 2 mL of whole human blood using Norgen's Blood DNA Isolation Midi Kit. Different input amounts (1, 3 & 6 µL) of the DNA from each of the 300 µL elutions was used in a real-time PCR reaction (total reaction volume of 20 µL) with GAPDH TaqMan probe and primers. The real-time PCR was successful in amplifying the GAPDH gene, indicating that the DNA is of a high quality and can be used in sensitive downstream applications. The black line is a no-template control.
Figure 12. Purified DNA Can be Amplified in a Real-time PCR (TaqMan) Reaction. DNA was isolated from 2 mL of whole human blood using Norgen's Blood DNA Isolation Midi Kit. Different input amounts (1, 3 & 6 µL) of the DNA from each of the 300 µL elutions was used in a real-time PCR reaction (total reaction volume of 20 µL) with GAPDH TaqMan probe and primers. The real-time PCR was successful in amplifying the GAPDH gene with a linear decrease in Ct value with the increased DNA template volume, indicating that the DNA is of a high quality and can be used in sensitive downstream applications.
Figure 13. High Yields of DNA Isolated from 200 µL of Whole Blood. DNA was isolated from 200 µL of whole blood using Norgen's Blood DNA Isolation 96-Well Kit. Following isolation of 12 samples, 15 µL from each 200 µL elution was loaded on 1% TAE agarose gel. Norgen's Blood DNA Isolation 96-Well Kit demonstrated a good and consistent DNA yield and integrity. Lane M: Norgen's HighRanger 1kb DNA Ladder.
Figure 14. Purified DNA Can be Amplified in a Real-time PCR (TaqMan) Reaction. DNA was isolated from 200 µL of whole human blood using Norgen's Blood DNA Isolation 96-Well Kit. Five µL of the DNA from each 200 µL elution was used in a real-time PCR reaction (total reaction volume of 20 µL) with GAPDH TaqMan probe and primers. The real-time PCR was successful in amplifying the GAPDH gene from all the isolated 12 samples (blue). This indicates that the isolated DNA from all samples is of a high quality and can be used in sensitive downstream applications. The black line is a no-template control.
Figure 15. DNA Isolated from Blood Preserved in 3 Different Anticoagulants. DNA was isolated from 200 µL of human whole blood samples preserved in three different anticoagulants (Heparin: H, EDTA: E and Na Citrate: C) using Norgen's Blood DNA Isolation Kit (Magnetic Bead System) and Norgen's Blood DNA Isolation Mini Kit (column format, Cat. 46300). For evaluation, 10 µL from each 200 µL of elution were run on 1X TAE 1.2% agarose gel. Norgen's Blood DNA Isolation Kit (Magnetic Bead System) showed an intact and comparable DNA profile to the column method from all three different anticoagulant mixed blood samples. Marker = Norgen's HighRanger DNA Ladder.
Figure 16. High Yield of Blood DNA. DNA was isolated from 200 µL of human whole blood samples preserved in three different anticoagulants (Heparin, EDTA and Na Citrate) using Norgen's Blood DNA Isolation Kit (Magnetic Bead System) and Norgen's Blood DNA Isolation Mini Kit (column format, Cat. 46300). The total DNA yield from all the elutions was compared, and it was found that the Magnetic Bead System isolated a similar DNA yield to the column method from all the different anticoagulants tested.
Figure 17. Detection of GAPDH from blood samples preserved in three different anticoagulants (Heparin: red, EDTA: green and Na Citrate: blue). DNA was isolated from 200 µL human whole blood samples preserved in three different anticoagulants using Norgen's Blood DNA Isolation Kit (Magnetic Bead System) and Norgen's Blood DNA Isolation Mini Kit (column format, Cat. 46300). The high quality of the purified DNA was confirmed by Real-time PCR using 2 µL (circle), 4 µL (triangle) and 8 µL (cross) (total PCR reaction volume was 20 µL). No PCR inhibition was observed up to 8 µL of PCR template, indicating the excellent quality of blood DNA isolated using Norgen’s Blood DNA Isolation Kit (Magnetic Bead System) similar to the column method (Cat. 46300).
Figure 18. DNA Isolated from Blood Preserved in EDTA Anticoagulants. DNA was isolated from 200 µL of human whole blood samples using Norgen's Blood DNA Isolation 96-Well Kit (Magnetic Bead System). For evaluation, 10 µL from each 200 µL of elution were run on 1X TAE 1.2% agarose gel. Norgen's Blood DNA Isolation 96-Well Kit (Magnetic Bead System) showed an intact DNA profile. Marker = Norgen's HighRanger DNA Ladder (Cat. 11900).
Figure 19. Detection of GAPDH From Blood Samples Preserved in EDTA Anticoagulants. DNA was isolated from 200 µL human whole blood samples using Norgen's Blood DNA Isolation 96-Well Kit (Magnetic Bead System). The high quality of the purified DNA was confirmed by Real-time PCR using 2 µL of purified DNA in a total PCR reaction volume of 20 µL. No PCR inhibition was observed, indicating the excellent quality of blood DNA isolated using Norgen’s Blood DNA Isolation 96-Well Kit (Magnetic Bead System).
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Kit Specifications
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| Minimum Blood Input | 20 µL |
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Maximum Blood Input
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200 µL
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Column Binding Capacity
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> 50 µg
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Average Yield (200 µL of blood)
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4-12 µg*
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Time to Complete 10 Purifications
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30 minutes
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*Yield will vary depending on the type of blood processed
Storage Conditions and Product Stability
All solutions should be kept tightly sealed and stored at room temperature. This kit is stable for 1 year after the date of shipment. The kit contains a ready-to-use Proteinase K, which is dissolved in a specially prepared storage buffer. The buffered Proteinase K is stable for up to 1 year after the date of shipment when stored at room temperature.
| Component | Cat. 46300 (50 preps) | Cat. 46380 (100 preps) | Cat. 51400 (20 preps) | Cat. 31200 (12 preps) | Cat. 46350 (192 preps) | Cat. 59800 (50 preps) | Cat. 62600 (192 preps) |
|---|---|---|---|---|---|---|---|
| Lysis Buffer B | 20 mL | 2 x 20 mL | 2 x 40 mL | 2 x 110 mL | 2 x 40 mL | 20 mL | 1 x 40 mL 1 x 20 mL |
| Solution WN | 18 mL | 2 x 18 mL | 55 mL | 55 mL | 55 mL | 18 mL | 55 mL |
| Wash Solution A | 18 mL | 2 x 18 mL | 2 x 38 mL | 2 x 38 mL | 2 x 38 mL | - | - |
| Elution Buffer B | 30 mL | 2 x 30 mL | 30 mL | 30 mL | 2 x 30 mL | 15 mL | 1 x 30 mL 1 x 15 mL |
| Proteinase K in Storage Buffer | 1.2 mL | 2 x 1.2 mL | 4.4 mL | 8 mL | 4.5 mL | 1.2 mL | 4 mL |
| Magnetic Bead Suspension | - | - | - | - | - | 2 x 1.1 mL | 8.5 mL |
| Maxi Spin Columns | - | - | - | 12 | - | - | - |
| Mini Spin Columns | 50 | 100 | - | - | - | - | - |
| Midi Spin Columns | - | - | 20 | - | - | - | - |
| 96-Well Plate | - | - | - | - | 2 | - | 2 |
| Adhesive Tape | - | - | - | - | 4 | - | 2 |
| Collection Tubes | 50 | 100 | 20 | 12 | - | - | - |
| 96-Well Collection Plate | - | - | - | - | 2 | - | - |
| Elution Tubes | 50 | 100 | 20 | 12 | - | 50 | - |
| 96-Well Elution Plate | - | - | - | - | 2 | - | 2 |
| Product Insert | 1 | 1 | 1 | 1 | 1 | 1 | 1 |
Documentation
(46300) Blood DNA Isolation Mini Kit - Protocol (50 prep)
(46380) Blood DNA Isolation Mini Kit - Protocol (100 prep)
(46350) Blood DNA Isolation 96-Well Kit (High Throughput) - Protocol (2 x 96-well)
(51400) Blood DNA Isolation Midi Kit - Protocol (20 prep)
(59800) Blood DNA Isolation Kit (Magnetic Bead System) - Protocol (50 prep)
(62600) Blood DNA Isolation 96-Well Kit (High Throughput Magnetic Bead System) - Protocol (2 x 96-well)
Genomic DNA Isolation from 1 µL – 100 µL of Whole Blood using Norgen’s Blood Genomic DNA Isolation Micro Kit
Effect of Elution Volume on DNA Recovery and Quality using Norgen’s Blood Genomic DNA Isolation Micro Kit
Single Elution vs. Re-Elution: Implications on Concentration and Purity using the Blood Genomic DNA Isolation Micro Kit
46380 - Blood DNA Isolation Mini Kit (100 Prep) - SDS
51400 - Blood DNA Isolation Midi Kit - SDS
31200 - Blood DNA Isolation Maxi Kit - SDS
46350 - Blood DNA Isolation 96-Well Kit - SDS
59800 - Blood DNA Isolation Kit (Magnetic Bead - 50 Prep) - SDS
62600 - Blood DNA Isolation Kit (Magnetic Bead - 2x96 Well Plates) - SDS
Citations
| Title | Epigenetic modifications in the ferroptosis pathway in cord blood cells from newborns of smoking mothers and their influence on fetal growth |
| Citation | Reproductive Toxicology 2024. |
| Authors | Eva Barrio a, Diego Lerma-Puertas a b, José Javier Jaulín-Pueyo a c, José Ignacio Labarta a c, Ana Gascón-Catalán |
| Title | GENE EXPRESSION AND SINGLE NUCLEOTIDE POLYMORPHISM (rs1140713) OF MICRORNA-126 |
| Citation | Iraqi Journal of Agricultural Sciences 2024. |
| Authors | W. L. Abdullah, R. M. Abed |
| Title | JAK2, STAT3 Gene Polymorphisms in Turkish Patients with Behçet's Disease |
| Citation | Gazi Medical Journal 2024. |
| Authors | Darya Farhoomand Aksoy1, Rahime Aksoy2, Sevim Gönen3, Ümit Ölmez1 |
| Title | Bisulfite probing reveals DNA structural intricacies |
| Citation | Nucleic Acids Research 2023. |
| Authors | Andrew T M Bagshaw, Neil J Gemmell |
| Title | Detection of Mycobacterium tuberculosis in Peripheral Blood Mononuclear Cells from Patients with Pulmonary Tuberculosis |
| Citation | Jundishapur Journal Of Microbiology 2023. |
| Authors | Farimah Yarmohammadi, Ali Farhadi, Narges Hassanaghaei, Gholamreza Rafiei Dehbidi, Farzaneh Zarghampoor, Ehsan Farzanfar, Sepide Namdari and Abbas Behzad Behbahani |
| Title | Investigating Genetic and Environmental Substrates of the Relationship between Positive Mental Health and Biological Aging—A Study Protocol |
| Citation | Brain Sciences 2023. |
| Authors | Fransesca Marcon, Miriam Salemi, Cristina D'Ippolito, Angelo Picardi, Virgilia Toccaceli, Lorenza Nistico, Sabrina Alviti, Ester Sinischali, Francesca Salani, Giorgia Maria Varalda, Emanuela Medda and Corrado Fagnani |
| Title | Plasma cell-free RNA profiling of Vietnamese Alzheimer's patients reveals a linkage with chronic inflammation and apoptosis: a pilot study |
| Citation | Frontiers 2023. |
| Authors | Thien Hoang Minh Cao, Anh Phuc Hoang Le, Tai Tien Tran, Vy Kim Huynh, Bao Hoai Pham, Thao Mai Le, Quang Lam Nguyen, Thang Cong Tran. Trang Mai Tong, The Ha Ngoc Than, Tran Tran To Nguyen & Huong Thi Thanh Ha |
| Title | A new nucleotide variant G1358A potentially change growth differentiation factor 9 profile that may affect the reproduction performance of Friesian Holstein cattle |
| Citation | Asian Pacific Journal of Reproduction 2016. |
| Authors | Afifi Inayah1 , Sri Rahayu1 , Nashi Widodo1*, Widya Ayu Prasdini |
| Title | Association of JAZF1 and TSPAN8/LGR5 variants in relation to type 2 diabetes mellitus in a Saudi population |
| Citation | Diabetology and Metabolic Syndrome 2015. |
| Authors | Khalid Khalaf Alharbi1, Imran Ali Khan1*, Rabbani Syed1, Fawiziah Khalaf Alharbi2, Abdul Khader Mohammed3,4, Benjamin Vinodson3 and Nasser M. Al-Daghri3,4 |
| Title | Screening for genetic mutations in LDLR gene with familial hypercholesterolemia patients in the Saudi population |
| Citation | Acta Biochimica Polonica 2015. |
| Authors | Alharbi, K. K., Kashour, T. S., Al-Hussaini, W., Nbaheen, M. S., Hasanato, R. M., Mohamed, S., ... & Khan, I. A. |
