Cells and Tissue DNA Isolation Kits
For the isolation of genomic DNA from various types of animal tissues or cell samples
For research use only and NOT intended for in vitro diagnostics.
Cells and Tissue DNA Isolation Kits
For the isolation of genomic DNA from various types of animal tissues or cell samples
Overview
- Fast, reproducible and easy processing of samples
- High yield and high quality genomic DNA with no RNA or protein contamination
- DNA ready for any application including PCR, qPCR, genotyping and more
Norgen’s Cells and Tissue DNA Isolation Kits are designed for the rapid preparation of genomic DNA from cultured cells as well as various tissue samples and urine. The purified genomic DNA is fully digestible with all restriction enzymes tested, and is completely compatible with PCR and Southern Blot analysis.
Cells and Tissue DNA Isolation Kit (Spin Column)
Purification is based on spin column chromatography as the separation matrix. Norgen’s columns bind DNA under optimized salt concentrations and release the bound DNA under low salt and slightly alkali conditions. The protocol can be completed in approximately 30 minutes for cells and within 90 minutes for tissues. Each kit contains sufficient materials for 50 preparations.
Cells and Tissue DNA Isolation Micro Kit (Micro)
Optimized for small inputs of cells and tissues, such as Laser-Captured Microdissection (LCM). Purification is based on spin column chromatography as the separation matrix. Norgen’s columns bind DNA under optimized salt concentrations and release the bound DNA under low salt and slightly alkali conditions. Preparation time for a single sample is approximately 60 minutes, and each kit contains sufficient materials for 50 preparations.
Cells and Tissue DNA Isolation Kit (Magnetic Bead System)
Purification is based on the use of magnetic beads that bind DNA under optimized binding conditions. Norgen’s Cells and Tissue DNA Isolation Kit (Magnetic Bead System) allows for the isolation of genomic DNA from various types of animal tissues or cell samples. Preparation for 10 purifications is approximately 40 minutes of hands-on time.
Cells and Tissue DNA Isolation 96-Well Kit (High Throughput Magnetic Bead System)
Purification is based on the use of magnetic beads that bind DNA under optimized binding conditions. Norgen’s Cells and Tissue DNA Isolation 96-Well Kit (Magnetic Bead System) allows for the isolation of genomic DNA from various types of animal tissues or cell samples. The Cells and Tissue DNA Isolation 96-Well Kit (Magnetic Bead System) also can be integrated with a robotic automation system.
Details
Supporting Data
Kit Specifications
|
|
Maximum Input |
20 mg of animal tissue |
Column Binding Capacity | > 50 μg |
Average Yield | 8 μg (from 1 x 106 HeLa Cells) 10 μg (from 10 mg kidney) |
Elution Volume | 50 - 200 μL |
Analyte Purified | Genomic DNA, mitochondrial DNA, viral DNA |
Format | Spin Column |
Time to Complete 10 Purifications | 30 min (cells) and 90 min (tissue) |
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. 53100 (50 preps) | Cat. 57300 (50 preps) | Cat. 59100 (50 preps) | Cat. 62500 (192 preps) |
---|---|---|---|---|
Lysis Buffer B | 20 mL | 20 mL | 20 mL | 1 x 40 mL 1 x 20 mL |
Solution WN | 18 mL | 18 mL | 18 mL | 55 mL |
Wash Solution A | 18 mL | 18 mL | - | - |
Elution Buffer B | 30 mL | 8 mL | 15 mL | 1 x 30 mL 1 x 15 mL |
Proteinase K | 1.2 mL | 1.2 mL | 1.2 mL | - |
Proteinase K in Sotrage Buffer | - | - | - | 4 mL |
Magnetic Bead Suspension | - | - | 2 x 1.1 mL | 8.5 mL |
96-Well Plate | - | - | - | 2 |
Spin Columns | 50 | - | - | - |
Micro Spin Columns | - | 50 | - | - |
Collection Tubes | 50 | 50 | - | - |
Elution Tubes (1.7 mL) | 50 | 50 | 50 | - |
96-Well Elution Plate | - | - | - | 2 |
Adhesive Tape | - | - | - | 2 |
Product Insert | 1 | 1 | 1 | 1 |
Documentation
(57300) Cells and Tissue DNA Isolation Micro Kit - Protocol (50 preps)
(59100) Cells and Tissue DNA Isolation Kit (Magnetic Bead System) - Protocol (50 prep)
(62500) Cells and Tissue DNA Isolation 96-Well Kit (High Throughput Magnetic Bead System) - Protocol (2 x 96-well)
Comparing Different DNA and RNA Quantification Methods for Biological Samples with Low Nucleic Acid Abundance
Determination of the DNA Molecular Weight (MW) from different Norgen Columns and Isolation Methods
FAQs
Spin Column
Column clogging can result from the following:
- The sample is too large.
Do not exceed the recommended amount of starting materials. The amount of starting material may need to be decreased if the column shows clogging below the recommended levels. Clogging can also be alleviated by increasing the g-force and/or centrifuging for a longer period of time until the lysate passes through the column.
Lysate can be more gelatinous prior to loading onto the column due to the following factors:
- The lysate solution mixture is not homogeneous.
To ensure a homogeneous solution, vortex for 10-15 seconds before applying the lysate to the spin column. - Maximum number of cells or amount of tissue exceeds kit specifications.
Refer to specifications to determine if the amount of starting material falls within kit specifications.
A low genomic DNA yield may be caused by:
- Improper storage of samples.
Tissue samples and cell pellets may be frozen and stored at -20°C or -80°C. Repeated freezing and thawing of stored samples should be avoided, as this may lead to decreased yields of DNA. - Incomplete lysis of cells.
Ensure efficient homogenization of tissue samples and extend the incubation time of Proteinase K digestion or reduce the amount of tissue or cells used for lysis.
Shearing of genomic DNA can be due to the following reasons:
- The genomic DNA was handled improperly.
Pipetting steps should be handled as gently as possible. Reduce vortexing times during mixing steps (no more than 10-15 seconds). - Improper storage of sample.
Repeated freezing and thawing of stored samples should be avoided as this may lead to decreased DNA size. - The sample is old.
Sheared DNA may be obtained from old tissue or cell samples. Fresh samples are recommended for best genomic DNA yield.
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 the provided solutions.
Ensure the column was washed once with Wash Solution WN and twice with Wash Solution A. - 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.
Yes, Product number 28229 is the correct replacement part for the kits tagged in "Products". It comes with 5 tubes of 1 ml each.
Yes, it is possible to isolate bacterial DNA present in tissue samples using 53100 kit. Just add 6 mg of Lysozyme (15 µL from 400 mg/mL stock solution) along with Proteinase K to the lysate during the incubation step.
Yes, it is possible to isolate DNA from bone tissue using this kit after decalcification of the tissue. Please feel free to contact our Tech support team at support@norgenbiotek.com for help with decalcification protocol.
Yes, it is possible to isolate DNA from insect samples using this kit. For large specimens, consider dissecting the insect to remove exoskeleton. For smaller specimens, grind the sample with liquid nitrogen using pestle and mortar. Please contact our Tech support team at support@norgenbiotek.com and ask for reference publications.
Micro
Column clogging can result from the following:
- The sample is too large.
Do not exceed the recommended amount of starting materials. The amount of starting material may need to be decreased if the column shows clogging below the recommended levels. Clogging can also be alleviated by increasing the g-force and/or centrifuging for a longer period of time until the lysate passes through the column.
Lysate can be more gelatinous prior to loading onto the column due to the following factors:
- The lysate solution mixture is not homogeneous.
To ensure a homogeneous solution, vortex for 10-15 seconds before applying the lysate to the spin column. - Maximum number of cells or amount of tissue exceeds kit specifications.
Refer to specifications to determine if the amount of starting material falls within kit specifications.
A low genomic DNA yield may be caused by:
- Improper storage of samples.
Tissue samples and cell pellets may be frozen and stored at -20°C or -80°C. Repeated freezing and thawing of stored samples should be avoided, as this may lead to decreased yields of DNA. - Incomplete lysis of cells.
Ensure efficient homogenization of tissue samples and extend the incubation time of Proteinase K digestion or reduce the amount of tissue or cells used for lysis.
Shearing of genomic DNA can be due to the following reasons:
- The genomic DNA was handled improperly.
Pipetting steps should be handled as gently as possible. Reduce vortexing times during mixing steps (no more than 10-15 seconds). - Improper storage of sample.
Repeated freezing and thawing of stored samples should be avoided as this may lead to decreased DNA size. - The sample is old.
Sheared DNA may be obtained from old tissue or cell samples. Fresh samples are recommended for best genomic DNA yield.
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 the provided solutions.
Ensure the column was washed once with Wash Solution WN and twice with Wash Solution A. - 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.
Yes, Product number 28229 is the correct replacement part for the kits tagged in "Products". It comes with 5 tubes of 1 ml each.
Yes, it is possible to isolate bacterial DNA present in tissue samples using 53100 kit. Just add 6 mg of Lysozyme (15 µL from 400 mg/mL stock solution) along with Proteinase K to the lysate during the incubation step.
Yes, it is possible to isolate DNA from bone tissue using this kit after decalcification of the tissue. Please feel free to contact our Tech support team at support@norgenbiotek.com for help with decalcification protocol.
Yes, it is possible to isolate DNA from insect samples using this kit. For large specimens, consider dissecting the insect to remove exoskeleton. For smaller specimens, grind the sample with liquid nitrogen using pestle and mortar. Please contact our Tech 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 can be due to the following reasons:
- Incomplete lysis of cells.
Ensure that the correct lysis protocol was applied to the sample. Ensure Proteinase K was added properly. Extend the incubation time of Proteinase K digestion or reduce the amount of tissue or cells used for lysis. - 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 cell or tissue sample being used is low.
Some samples contain very little target DNA. This varies from individual to individual based on numerous variables. Extending the incubation time of Proteinase K digestion or adding an incubation step at 65ºC may result in increased yields.
Lysate can be more gelatinous prior to adding the Magnetic beads and Ethanol due to the following factors:
- The lysate solution mixture is not homogeneous.
To ensure a homogeneous solution, vortex for 10-15 seconds before adding the magnetic beads to the lysate. - Maximum number of cells or amount of tissue exceeds kit specifications.
Refer to specifications to determine if the amount of starting material falls within kit specifications.
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.
RNA can get co-eluted 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.
High Throughput 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 can be due to the following reasons:
- Incomplete lysis of cells.
Ensure that the correct lysis protocol was applied to the sample. Ensure Proteinase K was added properly. Extend the incubation time of Proteinase K digestion or reduce the amount of tissue or cells used for lysis. - 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 cell or tissue sample being used is low.
Some samples contain very little target DNA. This varies from individual to individual based on numerous variables. Extending the incubation time of Proteinase K digestion or adding an incubation step at 65ºC may result in increased yields.
Lysate can be more gelatinous prior to adding the Magnetic beads and Ethanol due to the following factors:
- The lysate solution mixture is not homogeneous.
To ensure a homogeneous solution, vortex for 10-15 seconds before adding the magnetic beads to the lysate. - Maximum number of cells or amount of tissue exceeds kit specifications.
Refer to specifications to determine if the amount of starting material falls within kit specifications.
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.
RNA can get co-eluted 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
Spin Column (53100)
Title | First report of Leucinodes africensis and Leucinodes laisalis on Solanum aethiopicum and Solanum melongena in farmer's fields in southern Ghana |
Journal | Bulletin of Entomological Research. 2024. |
Authors | Ken Okwae Fening, Stanley Osafo Okyere, Ethelyn Echep Forchibe, Babatoundé Ferdinand Rodolphe Layodé, Tegbe Enyonam Richmond, Lakpo Koku B. A. Agboyi, Kwame Afreh-Nuamah1, Francis Onono Wamonje |
Title | Generation of an induced pluripotent stem cell line from a compound heterozygous patient in TK2 gene |
Journal | Stem Cell Research. 2022. |
Authors | Carmen Hernández-Ainsa, Andrés Nascimento, Cristina Jou, Rafael Artuch, Julio Montoya, Eduardo Ruiz-Pesini, Sonia Emperador |
Title | A scientific treatment approach for acute mast cell leukemia: using a strategy based on next-generation sequencing data |
Journal | Blood Research. 2016. |
Authors | Youk J, Koh Y, Kim JW, Kim DY, Park H, Jung WJ, Ahn KS, Yun H, Park I, Sun CH, Lee S, Yoon SS |