Stool DNA Isolation Kits
For the rapid and simple purification of bacterial and host DNA from stool and fecal samples.
For research use only and NOT intended for in vitro diagnostics.
CE-IVDR marked diagnostic version available here
Stool DNA Isolation Kits
For the rapid and simple purification of bacterial and host DNA from stool and fecal samples.
Register today to receive an exclusive 15% off* on your first order.
Features and Benefits
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Simultaneous Isolation:
Host and microbial DNA using a universal protocol.
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Compatibility:
Works with fresh, frozen, or preserved stool samples. Check out Norgen's Stool Nucleic Acid Collection and Transport Tubes
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High-Quality DNA:
Get HMW DNA up to 50 kb and above. Suitable for PCR, qPCR, sequencing, and microarray applications.
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Eliminates PCR Inhibitors:
Removes humic acids and other inhibitors.
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Lysis Efficiency:
Combines chemical and physical homogenization for efficient sample lysis.
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Available in multiple formats to suit your choice of workflow
(See below table).
Available formats | |||||
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SKU | Format | Size | Preps | Input Volume | Special Features |
27600 | Spin Column | Mini | 50 | 200 mg or 400 µL | User friendly |
65600 | High Throughput | Mini | 192 | 200 mg or 400 µL | 96 well plate format |
55700 | Magnetic Bead System | Mini | 50 | 200 mg or 200 µL | Yields more HMW DNA |
63100 | High Throughput Magnetic Bead System | Mini | 192 | 200 mg or 200 µL | Automation friendly |
Free Download
Extracting Biological Insights from Stool
Tips and tricks for isolating high yield and quality DNA, RNA, miRNA and EV's from fecal samples
Download for FreeDetails
Supporting Data
Kit Specifications
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Maximum Stool Input
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200 mg (fresh/frozen stool) or 400 μL (preserved stool)
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Type of Stool Processed
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Frozen, fresh or preserved stool
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Format | Spin Column |
Maximum Column Binding Capacity
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50 μg
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Maximum Column Loading Volume |
650 μL
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Elution Volume | 50 μL |
Time to Complete 10 Purifications |
30 minutes
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Applications |
PCR, qPCR, Southern Blot Analysis, |
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. 27600 (50 preps) | Cat. 65600 (192 preps) | Cat. 55700 (50 preps) | Cat. 63100 (192 preps) |
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Lysis Buffer L | 60 mL | 2 x 105 mL | 60 mL | 3 x 60 mL 1 x 30 mL |
Lysis Additive A | 6 mL | 25 mL | 6 mL | 25 mL |
Binding Buffer I | 7 mL | 25 mL | 7 mL | 25 mL |
Binding Buffer C | 30 mL | 110 mL | - | - |
Wash Solution A | 18 mL | 2 x 38 mL | - | - |
Magnetic Bead Suspension | - | - | 1.1 mL | 4 x 1.1 mL |
Solution WN | - | - | 18 mL | 55 mL |
Elution Buffer B | 8 mL | 30 mL | 8 mL | 30 mL |
Bead Tubes | 50 | 200 | 50 | 196 |
Mini Spin Columns | 50 | - | - | - |
96-Well Plate | - | 2 | - | 2 |
Adhesive Tape | - | 4 | - | 2 |
Collection Tubes | 50 | - | - | - |
96-Well Collection Plate | - | 2 | - | - |
Elution Tubes (1.7 mL) | 50 | - | 50 | - |
96-Well Elution Plate | - | 2 | - | 2 |
Product Insert | 1 | 1 | 1 | 1 |
Automation
Stool DNA Automated Isolation Tutorial
Supplementary Protocol
Supplementary Protocol - Automated Procedure for Stool DNA Isolation Kit (Magnetic Bead System)
Documentation
(65600) Stool DNA Isolation 96-Well Kit (High Throughput) - Protocol (2x96-Well)
(55700) Stool DNA Isolation Kit (Magnetic Bead System) - Protocol (50 prep)
(63100) Stool DNA Isolation 96-Well Kit (High Throughput Magnetic Bead System) - Protocol (2 x 96-well)
Detection of Viral, Bacterial and Human Genomic DNA from Preserved Stool Samples
The Isolation of High Quality Stool DNA and its Application to Quantitative Adenovirus Detection using TaqMan® Real-Time PCR
Comparison of Stool DNA Isolation Methods for Bacterial and Mammalian DNA Detection
Determination of the DNA Molecular Weight (MW) from different Norgen Columns and Isolation Methods
Immediate Viral Inactivation Using Norgen’s Stool Nucleic Acid Preservative
Gut Microbiome Diversity: Comparison of Stool DNA Preservation Methods
Comparative Microbiome Profiles from Fecal Preservation Methods
Automation of Stool DNA Isolation on the Hamilton Vantage Using Norgen’s Magnetic Bead Stool Isolation Kit
FAQs
Spin Column
Poor DNA recovery could be due to one or more of the following:
- Homogenization was incomplete.
Depending on the type of stool, further vortexing with the flat bed vortex or bead beater equipment may be required. However, it is not recommended to increase the vortex time to longer than 5 minutes at maximum speed. Also, ensure that the maximum input of 200 mg of stool is not exceeded, as this may also cause incomplete homogenization. - An alternative elution buffer was used.
It is recommended that the Elution Buffer B supplied with this kit be used for maximum DNA recovery. - Lysis Additive A was not added to the lysate.
Ensure that the provided Lysis Additive A is added to separate humic acid and increase DNA yield. Also, an incubation can be performed at 65°C for 10 minutes after addition of the Lysis Additive A and prior to vortexing to maximize DNA recovery. - Ethanol was not added to the lysate.
Ensure that an equal amount of ethanol is added to the lysate before binding to the column. - Ethanol was not added to the Wash Solution A.
Ensure that 42 mL of 96 - 100% ethanol is added to the supplied Wash Solution A prior to use.
If the DNA does not perform well in downstream applications, It may be due to one or more of the following:
- Eluted DNA sample is brown.
Ensure that the Lysis Additive A is added. Also ensure Binding Solution I is added to the lysate and that it is incubated on ice for 10 minutes prior to spinning down the lysate. Avoid any contact with the pellet or surface residue when collecting the supernatant after the 5 minute spin during sample preparation. - Lysis Additive A was not added to the lysate.
Ensure that the provided Lysis Additive A is added to the lysate. - DNA was not washed with the provided Binding Buffer C and 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 provided Binding Buffer C and Wash Solution A. Salt may interfere with downstream applications, and thus must be washed from the column. - 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. - Binding Buffer I was not added to the lysate.
Ensure that the Binding Buffer I is added to the lysate and that it is incubated on ice for 10 minutes prior to spinning down the lysate. - PCR reaction conditions need to be optimized.
Take steps to optimize the PCR conditions being used, including varying the amount of template, changing the source of Taq polymerase, looking into the primer design and adjusting the annealing conditions.
Yes, the Stool DNA Isolation Kit is capable of simultaneous extraction of both host DNA and microbial DNA (universal protocol). Please contact our technical support team at support@norgenbiotek.com and ask for reference publications.
Our Stool DNA Isolation Kit has been able to extract all host DNA including mtDNA from difficult samples like stool samples. Please contact our technical support team at support@norgenbiotek.com and ask for reference publications.
Magnetic Bead System
If the magnetic beads were accidently pipetted up with the supernatant, the pipette tip was placed too close to the magnetic beads while pipetting. Simply return the magnetic beads and the supernatant back into the sample well. Mix well, and place the plate back onto the magnetic separation plate for the specified time. Carefully remove the supernatant without touching the magnetic beads
A low genomic DNA yield may be caused by the following:
- Incomplete lysis of cells.
Ensure that Lysis Additive A is added. Also incubation at 65°C may result in increased yields. - Amount of magnetic beads added was not sufficient.
Ensure that the magnetic bead suspension is mixed well prior to use to avoid any inconsistency in DNA isolation. - DNA concentration in the stool sample being used is low.
Some stool samples contain very little target DNA. This varies from individual to individual based on numerous variables. Incubation at 65°C may result in increased yields.
If the DNA does not perform well in downstream applications, It may be due to one or more of the following:
- DNA was not washed with 70% Ethanol.
Traces of salt from the binding step may remain in the sample if the magnetic beads are not washed with 70% Ethanol. Salt may interfere with downstream applications, and thus must be washed from the magnetic beads. - Ethanol carryover.
Ensure that the drying step after the 70% ethanol wash steps is performed, in order to remove traces of ethanol prior to elution. Ethanol is known to interfere with many downstream applications
If RNA is present in eluted DNA, it's because RNA is coeluted with the DNA. Carry out a digestion with RNase A on the elution if the RNA present will interfere with downstream applications. Refer to manufacturer’s instructions regarding amount of enzyme to use, optimal incubation time and temperature.
Citations
Title | The gastrointestinal antibiotic resistome in pediatric leukemia and lymphoma patients |
Citation | Frontiers in Cellular and Infection Microbiology 2023. |
Authors | Tamara MacDonald, Katherine A. Dunn, Jane MacDonald, Morgan G.I. Langille, Johan E. Van Limbergen, Joseph P. Bielawski and Ketan Kulkarni |
Title | Molecular detection and characterization of Giardia spp., Cryptosporidium spp., and Blastocystis in captive wild animals rescued from central Colombia |
Citation | International Journal for Parasitology: Parasites and Wildlife International Journal for Parasitology: Parasites and Wildlife 2023. |
Authors | Lissa Cruz-Saavedra, Vivian Alejandra Arévalo, Diego Garcia-Corredor, Paula Andrea Jiménez, Laura Vega, Martín Pulido-Medellín, Melissa Ortiz-Pineda, Juan David Ramírez |
Title | Investigation of Blastocystis hominis Frequency in Patients with Diabetes by Microscopy and Conventional PCR Methods |
Citation | Iran J Parasitol 2023. |
Authors | Maksut Sahin, Zeynep Tas Cengiz, Ahmed Galip Halidi, and Selahattin Aydemir |
Title | Investigating the impact of pedoclimatic conditions on the oenological performance of two red cultivars grown throughout southern Italy |
Citation | Functional Plant Ecology 2023. |
Authors | Massimo Iorizzo, Angelo Sicilia, Elisabetta Nicolosi, Martino Forino, Luigi Picariello, Angela Roberta Lo Piero, Andrea Vitale, Eugenia Monaco, Filippo Ferlito, Mariantonietta Succi, Patrizio Tremonte, Angelita Gambuti, Clizia Villano, Antonello Bonfante, Riccardo Aversano, and Raffaele Coppola |
Title | In vitro study of potential prebiotic properties of monovarietal extra virgin olive oils |
Citation | International Journal of Food Sciences and Nutrition 2023. |
Authors | Chiara Salvesi,M. Magdalena Coman,Francisco A. Tomás-Barberán,Dennis Fiorini & Stefania Silvi |
Title | First report of Eimeria myoxi in the garden dormouse (Eliomys quercinus Linnaeus, 1766) from Doñana Natural Area (Andalusia, SW Spain) |
Citation | Parasitology International 2023. |
Authors | Seila Couso-Pérez a b, Xosé Pardavila c, Francisco Carro c, Elvira Ares-Mazás a, Hipólito Gómez-Couso |
Title | Effect of Lactobacillaceae Probiotics on Colonic Microbiota and Metabolite Production in Cystic Fibrosis: A Comparative In Vitro Study |
Citation | Nutrients 2023. |
Authors | Asensio-Grau, Andrea, Joaquim Calvo-Lerma, Miguel Ferriz-Jordán, Jorge García-Hernández, Ana Heredia, and Ana Andrés |
Title | Effect of beta-glucan supplementation on cystic fibrosis colonic microbiota: an in vitro study |
Citation | pediatric research 2023. |
Authors | Andrea Asensio-Grau, Ana Heredia, Jorge García-Hernández, Raúl Cabrera-Rubio, Etna Masip, Carmen Ribes-Koninckx, Maria Carmen Collado, Ana Andrés & Joaquim Calvo-Lerma |
Title | DNA metabarcoding to assess prey overlap between tuna and seabirds in the Eastern tropical Atlantic: Implications for an ecosystem-based management |
Citation | Marine Environmental Research 2023. |
Authors | Ana Rita Carreiro a b c, Jaime A. Ramos a, Vanessa A. Mata b c, Nathalie M. Almeida d, Isabel Rodrigues d, Ivo dos Santos a, Diana M. Matos a, Pedro M. Araújo a b c, Teresa Militão e f, Jacob González-Sólis e f, Vitor H. Paiva a, Ricardo Jorge Lopes b c g |
Title | Diet Quality and Liver Health in People Living with HIV in the MASH Cohort: A Multi-Omic Analysis of the Fecal Microbiome and Metabolome |
Citation | Metabolites 2023. |
Authors | Haley R. Martin, Sabrina Sales Martinez, Vitalii Stebliankin, Javier A. Tamargo, Adriana Campa, Giri Narasimhan, Jacqueline Hernandez, Jose A. Bastida Rodriguez, Colby Teeman, Angelique Johnson, Kenneth E. Sherman and Marianna K. Baum |