Free Consulation Complete Stool Workflow Stool Nucleic Acid Collection and Preservation Metagenomics and Metatranscriptomics Featured Publication: Human Stool Preservation Impacts Taxonomic Profiles in 16S Metagenomics Studies. Explore the findings Menu Preservation Isolation Downstream Application Featured Publications Technical Documentation Related Video Get Quote Preservation Isolation Downstream Application Featured Publications Technical Documentation Related Video Preservation Isolation Downstream Application Featured Publications Technical Documentation Related Video Stool Nucleic Acid Collection and Preservation Tube Select each molecule to learn more about Norgen's unique tube and how it preserves each analyte ×Please click on this component to see information about it. Now you are ready to use the interactive tube, click on any component to get started! RNA× Fungi× DNA× Bacteria× Viruses× Metabolites× RNA Fungi DNA Bacteria Viruses Metabolites Stool Nucleic Acid Collection and Preservation Tube Norgen’s Stool Nucleic Acid Collection and Preservation tubes provide an easy and rapid method of collecting and preserving DNA and RNA from stool samples, while also maintaining the microbiome profile in the stool samples as close to fresh as possible. The tubes preserve DNA for 2 years and RNA for 7 days in stool samples without any cold-chain transportation or storage required. Purified high-quality DNA and RNA are compatible with any downstream applications, including PCR/qPCR/rt-qPCR, metagenomics, metatranscriptomics, gene expression analyses, and NGS. For Diagnostic Use For Research Use × RNA In each living cell genetic information from DNA is transcribed into RNA which is then translated into proteins that take part in cellular functions. Every cell that is functionally active therefore contains an abundance of RNA, which can be used for transcriptomic analyses to identify which functional pathways are active within the cell. Since stool consists of a plethora of host cells, there is an abundance of intracellular and extracellular RNA. However, due to the activity of RNases, this RNA might be degraded into small fragments which are difficult to capture. Norgen’s Stool Nucleic Acid Collection and Preservation tubes inactivate RNases thus preventing further breakdown of RNA in stool samples. Links Stool Total RNA Purification Kit × Fungi Fungi are eukaryotic organisms such as yeast that grow naturally in various parts of the human body such as the mouth and gut. Typically, only a very small species are capable of colonizing within the gut and greatly vary from individual to individual. External factors such as diet or environment significantly influence the mycobiome and set it in a disbalance. Fungal species in the microbiome show great variability in composition and are a very promising up-and-coming field. Explore the gut mycobiome using Norgen’s Stool Nucleic Acid Collection and Preservation Tubes. Links Stool DNA Isolation Kit (Magnetic Bead System) Stool DNA Isolation Kit Stool DNA Isolation Kit Dx × DNA Stool has a plethora of host cells originating from different parts of the gastrointestinal tract. It is therefore abundant in host DNA which may be intracellular or extracellular. Host DNA from stool can be used to perform genomic analyses in order to learn more about the molecular functioning of the gut. Due to DNases present within stool, a majority of host DNA may be present as small fragments which are difficult to capture. Norgen’s Stool Nucleic Acid Collection and Preservation tubes inactivate these DNases thus preventing further breakdown of DNA in stool samples. Links Stool DNA Isolation Kit (Magnetic Bead System) Stool DNA Isolation Kit Stool DNA Isolation Kit Dx Microbiome DNA Isolation Kit × Bacteria Bacteria are microscopic single-celled organisms that are found both within and outside of organisms. In fact, the human body contains more bacteria than human cells. Some bacteria are beneficial for our bodies such as helping digestion and assisting our immune system. Other bacteria can be very harmful and lead to infections and disease. Norgen’s Stool Nucleic Acid Collection and Preservation Tubes allow us to stabilize the microbial profile in order to study what bacteria are present within the gut. Links Stool DNA Isolation Kit (Magnetic Bead System) Stool DNA Isolation Kit Stool DNA Isolation Kit Dx × Viruses Viruses are submicroscopic infectious agents consisting of a segment of nucleic acid (either DNA or RNA) enveloped by a protein coat. They can only replicate inside living cells of an organism where they hijack host cells’ machinery to make copies of themselves. Viruses infect all life forms, from animals and plants to microorganisms such as bacteria. Links Stool DNA Isolation Kit (Magnetic Bead System) Stool DNA Isolation Kit Stool DNA Isolation Kit Dx × Metabolites Metabolites are intermediate or end products of metabolic reactions catalyzed by enzymes within a cell. They are small molecules that have various functions including energy production, signaling, defense, cofactor activity, and interaction with other organisms. Metabolites present in stool can provide important clues about microbial and host functions that are active in an individual. This information can be critical in understanding the interactions between host and microbial functional pathways that may lead to disease. Features & Benefits The preservative provides sample homogeneity, eliminating sample variability Preserve and safely transport DNA & RNA at ambient temperature No cold shipping/storage needed - hassle-free and cost-effective Isolate high-quality nucleic acids for any application including 16s NGS Robust preservation over a range of temperatures Customizable with various accessories for an easy and safe collection Eliminates odor and renders samples safe and non-infectious Supporting Data Figure 1 / 7 Previous Figure 1. Norgen's Best-In-Class Preservation. Summary of community shifts in response to stabilizing solutions over a 14-day storage period. Bray-Curtis distance towards the reference for each patient grouped by stabilizing solution. Median and 5th-to-95th percentile ranges are shown for both interaliquot and interpatient variability (adapted from Plauzolles et al, 2022). Norgen is the most similar to frozen stool samples, over 11 other sample collection and storage methods. Figure 2. Integrity of Total Stool DNA and RNA Isolated from Preserved Stool Samples. DNA and RNA were isolated from 200 µL of preserved stool from 4 different donors (lanes A to D) stored at room temperature at the indicated time points (DNA at 27 months and RNA at 7 days) using Norgen's Stool Nucleic Acid Isolation Kit (Cat# 45600). Next, 10 µL from the 75 µL eluted nucleic acid was loaded onto a gel for visual analysis. High integrity stool DNA was isolated from preserved stool samples that were stored at room temperature for 27 months, and high integrity RNA was isolated from stool samples stored for 7 days at ambient temperature. Lane M is Norgen's HighRanger 1 kb DNA Ladder (Cat. 11900). Figure 3. Monitoring the DNA stability of Adenovirus (Ad5subE1) Spiked into Preserved Stool Samples using TaqMan Real-Time PCR Assay. Preserved stool samples were spiked with 6 x 109 pfu/mL of Adenovirus, and 200 µL samples were removed at the indicated time points. The stool DNA was then isolated using Norgen's Stool DNA Isolation Kit (Cat# 27600). Next, 2 µL of DNA template from each 50 µL of elution was used in a 20 µL PCR reaction to detect the Adenovirus DNA. The stool preservative was shown to stabilize Adenovirus DNA up to 21 weeks at ambient temperature, indicating that Norgen's Stool Nucleic Acid Collection and Preservation Tubes provide a safe and convenient sample transportation system. Figure 4. Hierarchical Clustering of Stool Samples at Phylum Level Under Different Storage Conditions. The microbial composition from the stool samples preserved in Norgens Stool Nucleic Acid Collection and Preservation Tubes (Cat. 45630, 45660) did not differ significantly to that of controls (fresh stool from Day 0 at RT) over a 2 day period while non-preserved stool samples showed a distance in the dendrogram from the original stool profile. Figure 5. Difference In Top 5 Abundant Microorganisms at Phylum Level Compared to Fresh Stool (Day 0). Abundance of Firmicuties, Bacteroidetes and proteobacteria from the preserved stool sample was higher than non-preserved (NP) to the fresh stool after 2 days storage at RT, indicating that the originality of microorganism profile from the preserved are much closer to the fresh stool sample (Day 0). Figure 6. Relative Abundance of Bacterial Genera Between Preserved And Non-preserved Stool Sample Stored at RT For 2 Days. Preserved stool sample using Norgens Stool Nucleic Acid Collection and Preservation Tubes (Cat. 45630, 45660) showed closed relativeness to the fresh stool sample (Day 0). Figure 7. Correlation between duplicate bacterial metagenomic reads using (A) Fresh stool (day 0) and preserved stool at RT for 2 days and (B) Fresh stool (day 0) and non-preserved stool at RT for 2 days. A greater R2 was observed for Fresh stool (day 0) and preserved stool, suggestive of higher consistency between fresh stool sample and preserved stool sample Next Click for expanded view Isolate High Quality RNA and DNA from Stool Samples Use the interactive workflow to find the product right for you Stool DNA Stool DNA Isolation Kits Isolate both host and microbial DNA from stool DNA & RNA Stool Nucleic Acid Isolation Kit Isolate both DNA and RNA from stool RNA Stool RNA Purification Kit Purify total RNA from stool Stool DNA Isolation Kits Isolate both host and microbial DNA from stool Stool DNA Isolation Kit (Cat. 27600) Maximun Input Vol: 200 mg (fresh/frozen stool) or 400 μL (preserved stool) Stool DNA 96-Well Kit (Cat. 65600) Maximum Input Vol: 200 μg (fresh/frozen stool) or 400 μL (preserved stool) Stool DNA Isolation Kit Dx (Cat. Dx27600) Maximum Input Vol: 200 mg (fresh/frozen stool) or 400 μL (preserved stool) CE-IVD marked Stool DNA/RNA Kit Isolate both DNA and RNA from stool Stool Nucleic Acid Isolation Kit (Cat. 45600) Maximum Input Vol: 200 mg Stool RNA Purification Kit Purify total RNA from stool Stool Total RNA Purification Kit (Cat. 49500) Maximum Input Vol: 200 mg (fresh/frozen stool) or 400 μL (preserved stool) Stool Microbiome DNA Stool DNA Isolation Kits Isolate both host and microbial DNA from stool Stool DNA Isolation Kit (Cat. 27600) Maximum Input Vol: 200 mg (fresh/frozen stool) or 400 μL (preserved stool) Stool DNA 96-Well Kit (Cat. 65600) Maximum Input Vol: 200 μg (fresh/frozen stool) or 400 μL (preserved stool) Stool DNA Isolation Kit Dx (Cat. Dx27600) Maximun Input Vol: 200 mg (fresh/frozen stool) or 400 μL (preserved stool) DNA & RNA Stool Nucleic Acid Isolation Kit Isolate both DNA and RNA from stool Stool Nucleic Acid Isolation Kit (Cat. 45600) Maximum Input Vol: 200 mg RNA Stool RNA Purification Kit Isolate total RNA from stoo Stool Total RNA Purification Kit (Cat. 49500) Maximum Input Vol: 200 mg (fresh/frozen stool) or 400 μL (preserved stool) Stool Total DNA Purification Kits Explore More Stool Total Nucleic Acid Purification Kits Explore More Stool Total RNA Purification Kits Explore More Discover Norgen's NGS Services and Capture the Most From Your Samples Metagenomics Sequencing Designed to Discover Comprehensive Service for 16S rRNA DNA extraction service included Illumina® MiSeq Sequencing Platform Easy to Challenging Sample Types including Environmental Analyze Entire Bacterial Communities with Comprehensive Bioinformatics Analysis Identify Phylogenetic or Taxonomic Classifications Fast Turn Around Time | 3 - 4 weeks In our accredited state-of-the-art laboratory, we offer comprehensive Next-Generation Sequencing (NGS) services to provide full workflow solutions, from DNA isolation and sequencing to advanced bioinformatic analyses for ready-to-publish data. Our experienced staff have extensive expertise working with a variety of environmental and human sample types, including stool, saliva, soil, water and more. We are here to help! Discover Now Book a Consultation Featured Publications Featured Title Human Stool Preservation Impacts Taxonomic Profiles in 16S Metagenomics Studies Journal Front. Cell. Infect. Microbiol. February 2022. Authors Anne Plauzolles, Eya Toumi, Marion Bonnet, Guillaume Pénaranda, Ghislain Bidaut, Laurent Chiche, Jérôme Allardet-Servent, Frédérique Retornaz, Benoit Goutorbe and Philippe Halfon Title Characterization of gut microbiome and metabolome in Helicobacter pylori patients in an underprivileged community in the United States Journal World J Gastroenterol. Sept, 2021. Authors White B, Sterrett JD, Grigoryan Z, Lally L, Heinze JD, Alikhan H, Lowry CA, Perez LJ, DeSipio J, Phadtare S. Title Cross-sectional comparisons of gut microbiome and short-chain fatty acid levels among children with varied weight classifications Journal ORIGINAL RESEARCH. November, 2020. Authors Peter Gyarmati, Yajing Song, James Dotimas, Grace Yoshiba, Amy Christison Title The Inhibitory Role of miR-486-5p on CSC Phenotype Has Diagnostic and Prognostic Potential in Colorectal Cancer Journal Cancers. 2020. Authors Andrea Pisano, Carmen Griñan-Lison, Cristiano Farace, Giovanni Fiorito, Grazia Fenu, Gema Jiménez, Fabrizio Scognamillo, Jesùs Peña-Martin, Alessio Naccarati, Johannes Pröll, Sabine Atzmüller, Barbara Pardini, Federico Attene, Gabriele Ibba, Maria Giuliana Solinas, David Bernhard, Juan Antonio Marchal, Roberto Madeddu Title Air pollution exposure is associated with the gut microbiome as revealed by shotgun metagenomic sequencing Journal Environment International. 2020. Authors Farnaz Fouladi, Maximilian J. Bailey, William B. Pattersonb, Michael Sioda, Ivory C. Blakley, Anthony A. Fodor, Roshonda B. Jones, Zhanghua Chen, Jeniffer S. Kim, Frederick Lurmann, Cameron Martino, Rob Knight, Frank D. Gilliland, Tanya L.Alderete Title Human faecal collection methods demonstrate a bias in microbiome composition by cell wall structure Journal Scientific Reports. November 2019. Authors Emma-Jane Watson, Jennifer Giles, Paul Blatchford, Benjamin L. Scherer Title Altered Fecal Small RNA Profiles in Colorectal Cancer Reflect Gut Microbiome Composition in Stool Samples Journal mSystems. September, 2019. Authors Sonia Tarallo, Giulio Ferrero. Gaetano Gallo., Antonio Francavilla, Giuseppe Clerico, Alberto Realis Luc, Paolo Manghi, Andrew Maltez Thomas, Paolo Vineis, Nicola Segata, Barbara Pardini, Alessio Naccarati, Francesca Cordero Title Gut Microbiota Analysis in Postoperative Lynch Syndrome Patients Journal Front. Microbiol. July 2019. Authors Giorgia Mori, Beatrice Silvia Orena, Ilenia Cultrera, Giulia Barbieri1, Alessandra M. Albertini, Guglielmina Nadia Ranzani, Ileana Carnevali, Maria Grazia Tibiletti, Maria Rosalia Pasca Title Gut Resistome After Oral Antibiotics in Preschool Children in Burkina Faso: A Randomized, Controlled Trial Journal Clinical Infectious Diseases. May 2019. Authors Catherine E Oldenburg, Armin Hinterwirth, Ali Sié, Boubacar Coulibaly, Lucienne Ouermi, Clarisse Dah, Charlemagne Tapsoba, Susie L Cummings, Lina Zhong, Cindi Chen, Samarpita Sarkar, Till Bärnighausen, Thomas M Lietman, Jeremy D Keenan, Thuy Doan Documents Poster Title Impact of Preservation Method and 16S rRNA Hypervariable Region on Gut Microbiota Profiling Journal Methods And Protocols. February 2019. Authors Zigui Chen, Pak Chun Hui, Mamie Hui, Yun Kit Yeoh, Po Yee Wong, Martin C. W. Chan , Martin C. S. Wong, Siew C. Ng, Francis K. L. Chan, Paul K. S. Chan Technical Documentation Immediate Viral Inactivation Using Norgen’s Stool Nucleic Acid Preservative Study of the Comparative Microbiome Profile from Different Fecal Preservation Methods Gut Microbiome Diversity: Comparison of Stool DNA Preservation Methods Comparison of Stool DNA Isolation Methods for Bacterial andMammalian DNA Detection 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 Realtime PCR Comparative Study of DNA Isolated from Stool Using Norgen’s Stool Nucleic Acid Isolation Kit and Norgen’s Stool DNA Kit Determination of the DNA Molecular Weight (MW) from different Norgen Columns and Isolation Methods Comparative Study of DNA Isolated from Stool Using Norgen’s Stool Nucleic Acid Isolation Kit and Norgen’s Stool DNA Isolation Mini kit Comparative Microbiome Profiles from Fecal Preservation Methods Purification and Detection of Bacterial RNA from Preserved Stool Samples Preservation of RNA in Soil, Plant and Stool Samples Using Norgen's RNA Preserve Viability Of Microorganisms in Saliva & Stool Collection and Transportation Preservatives Stool Nucleic Acid Isolation Kit Effect of Stool Transportation Conditions On Microbiota Diversity Rapid and qPCR ready DNA isolation from environmental and human bodily fluid samples using Magnetic bead system Related Videos Stool DNA Automated Isolation Tutorial Contact the Experts Get in touch with Norgen's on site product specialists for more information or a direct quote for the product you are interested in. 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Stool Nucleic Acid Collection and Preservation Tube Select each molecule to learn more about Norgen's unique tube and how it preserves each analyte ×Please click on this component to see information about it. Now you are ready to use the interactive tube, click on any component to get started! RNA× Fungi× DNA× Bacteria× Viruses× Metabolites× RNA Fungi DNA Bacteria Viruses Metabolites Stool Nucleic Acid Collection and Preservation Tube Norgen’s Stool Nucleic Acid Collection and Preservation tubes provide an easy and rapid method of collecting and preserving DNA and RNA from stool samples, while also maintaining the microbiome profile in the stool samples as close to fresh as possible. The tubes preserve DNA for 2 years and RNA for 7 days in stool samples without any cold-chain transportation or storage required. Purified high-quality DNA and RNA are compatible with any downstream applications, including PCR/qPCR/rt-qPCR, metagenomics, metatranscriptomics, gene expression analyses, and NGS. For Diagnostic Use For Research Use × RNA In each living cell genetic information from DNA is transcribed into RNA which is then translated into proteins that take part in cellular functions. Every cell that is functionally active therefore contains an abundance of RNA, which can be used for transcriptomic analyses to identify which functional pathways are active within the cell. Since stool consists of a plethora of host cells, there is an abundance of intracellular and extracellular RNA. However, due to the activity of RNases, this RNA might be degraded into small fragments which are difficult to capture. Norgen’s Stool Nucleic Acid Collection and Preservation tubes inactivate RNases thus preventing further breakdown of RNA in stool samples. Links Stool Total RNA Purification Kit × Fungi Fungi are eukaryotic organisms such as yeast that grow naturally in various parts of the human body such as the mouth and gut. Typically, only a very small species are capable of colonizing within the gut and greatly vary from individual to individual. External factors such as diet or environment significantly influence the mycobiome and set it in a disbalance. Fungal species in the microbiome show great variability in composition and are a very promising up-and-coming field. Explore the gut mycobiome using Norgen’s Stool Nucleic Acid Collection and Preservation Tubes. Links Stool DNA Isolation Kit (Magnetic Bead System) Stool DNA Isolation Kit Stool DNA Isolation Kit Dx × DNA Stool has a plethora of host cells originating from different parts of the gastrointestinal tract. It is therefore abundant in host DNA which may be intracellular or extracellular. Host DNA from stool can be used to perform genomic analyses in order to learn more about the molecular functioning of the gut. Due to DNases present within stool, a majority of host DNA may be present as small fragments which are difficult to capture. Norgen’s Stool Nucleic Acid Collection and Preservation tubes inactivate these DNases thus preventing further breakdown of DNA in stool samples. Links Stool DNA Isolation Kit (Magnetic Bead System) Stool DNA Isolation Kit Stool DNA Isolation Kit Dx Microbiome DNA Isolation Kit × Bacteria Bacteria are microscopic single-celled organisms that are found both within and outside of organisms. In fact, the human body contains more bacteria than human cells. Some bacteria are beneficial for our bodies such as helping digestion and assisting our immune system. Other bacteria can be very harmful and lead to infections and disease. Norgen’s Stool Nucleic Acid Collection and Preservation Tubes allow us to stabilize the microbial profile in order to study what bacteria are present within the gut. Links Stool DNA Isolation Kit (Magnetic Bead System) Stool DNA Isolation Kit Stool DNA Isolation Kit Dx × Viruses Viruses are submicroscopic infectious agents consisting of a segment of nucleic acid (either DNA or RNA) enveloped by a protein coat. They can only replicate inside living cells of an organism where they hijack host cells’ machinery to make copies of themselves. Viruses infect all life forms, from animals and plants to microorganisms such as bacteria. Links Stool DNA Isolation Kit (Magnetic Bead System) Stool DNA Isolation Kit Stool DNA Isolation Kit Dx × Metabolites Metabolites are intermediate or end products of metabolic reactions catalyzed by enzymes within a cell. They are small molecules that have various functions including energy production, signaling, defense, cofactor activity, and interaction with other organisms. Metabolites present in stool can provide important clues about microbial and host functions that are active in an individual. This information can be critical in understanding the interactions between host and microbial functional pathways that may lead to disease. Features & Benefits The preservative provides sample homogeneity, eliminating sample variability Preserve and safely transport DNA & RNA at ambient temperature No cold shipping/storage needed - hassle-free and cost-effective Isolate high-quality nucleic acids for any application including 16s NGS Robust preservation over a range of temperatures Customizable with various accessories for an easy and safe collection Eliminates odor and renders samples safe and non-infectious
Supporting Data Figure 1 / 7 Previous Figure 1. Norgen's Best-In-Class Preservation. Summary of community shifts in response to stabilizing solutions over a 14-day storage period. Bray-Curtis distance towards the reference for each patient grouped by stabilizing solution. Median and 5th-to-95th percentile ranges are shown for both interaliquot and interpatient variability (adapted from Plauzolles et al, 2022). Norgen is the most similar to frozen stool samples, over 11 other sample collection and storage methods. Figure 2. Integrity of Total Stool DNA and RNA Isolated from Preserved Stool Samples. DNA and RNA were isolated from 200 µL of preserved stool from 4 different donors (lanes A to D) stored at room temperature at the indicated time points (DNA at 27 months and RNA at 7 days) using Norgen's Stool Nucleic Acid Isolation Kit (Cat# 45600). Next, 10 µL from the 75 µL eluted nucleic acid was loaded onto a gel for visual analysis. High integrity stool DNA was isolated from preserved stool samples that were stored at room temperature for 27 months, and high integrity RNA was isolated from stool samples stored for 7 days at ambient temperature. Lane M is Norgen's HighRanger 1 kb DNA Ladder (Cat. 11900). Figure 3. Monitoring the DNA stability of Adenovirus (Ad5subE1) Spiked into Preserved Stool Samples using TaqMan Real-Time PCR Assay. Preserved stool samples were spiked with 6 x 109 pfu/mL of Adenovirus, and 200 µL samples were removed at the indicated time points. The stool DNA was then isolated using Norgen's Stool DNA Isolation Kit (Cat# 27600). Next, 2 µL of DNA template from each 50 µL of elution was used in a 20 µL PCR reaction to detect the Adenovirus DNA. The stool preservative was shown to stabilize Adenovirus DNA up to 21 weeks at ambient temperature, indicating that Norgen's Stool Nucleic Acid Collection and Preservation Tubes provide a safe and convenient sample transportation system. Figure 4. Hierarchical Clustering of Stool Samples at Phylum Level Under Different Storage Conditions. The microbial composition from the stool samples preserved in Norgens Stool Nucleic Acid Collection and Preservation Tubes (Cat. 45630, 45660) did not differ significantly to that of controls (fresh stool from Day 0 at RT) over a 2 day period while non-preserved stool samples showed a distance in the dendrogram from the original stool profile. Figure 5. Difference In Top 5 Abundant Microorganisms at Phylum Level Compared to Fresh Stool (Day 0). Abundance of Firmicuties, Bacteroidetes and proteobacteria from the preserved stool sample was higher than non-preserved (NP) to the fresh stool after 2 days storage at RT, indicating that the originality of microorganism profile from the preserved are much closer to the fresh stool sample (Day 0). Figure 6. Relative Abundance of Bacterial Genera Between Preserved And Non-preserved Stool Sample Stored at RT For 2 Days. Preserved stool sample using Norgens Stool Nucleic Acid Collection and Preservation Tubes (Cat. 45630, 45660) showed closed relativeness to the fresh stool sample (Day 0). Figure 7. Correlation between duplicate bacterial metagenomic reads using (A) Fresh stool (day 0) and preserved stool at RT for 2 days and (B) Fresh stool (day 0) and non-preserved stool at RT for 2 days. A greater R2 was observed for Fresh stool (day 0) and preserved stool, suggestive of higher consistency between fresh stool sample and preserved stool sample Next Click for expanded view
Isolate High Quality RNA and DNA from Stool Samples Use the interactive workflow to find the product right for you Stool DNA Stool DNA Isolation Kits Isolate both host and microbial DNA from stool DNA & RNA Stool Nucleic Acid Isolation Kit Isolate both DNA and RNA from stool RNA Stool RNA Purification Kit Purify total RNA from stool Stool DNA Isolation Kits Isolate both host and microbial DNA from stool Stool DNA Isolation Kit (Cat. 27600) Maximun Input Vol: 200 mg (fresh/frozen stool) or 400 μL (preserved stool) Stool DNA 96-Well Kit (Cat. 65600) Maximum Input Vol: 200 μg (fresh/frozen stool) or 400 μL (preserved stool) Stool DNA Isolation Kit Dx (Cat. Dx27600) Maximum Input Vol: 200 mg (fresh/frozen stool) or 400 μL (preserved stool) CE-IVD marked Stool DNA/RNA Kit Isolate both DNA and RNA from stool Stool Nucleic Acid Isolation Kit (Cat. 45600) Maximum Input Vol: 200 mg Stool RNA Purification Kit Purify total RNA from stool Stool Total RNA Purification Kit (Cat. 49500) Maximum Input Vol: 200 mg (fresh/frozen stool) or 400 μL (preserved stool) Stool Microbiome DNA Stool DNA Isolation Kits Isolate both host and microbial DNA from stool Stool DNA Isolation Kit (Cat. 27600) Maximum Input Vol: 200 mg (fresh/frozen stool) or 400 μL (preserved stool) Stool DNA 96-Well Kit (Cat. 65600) Maximum Input Vol: 200 μg (fresh/frozen stool) or 400 μL (preserved stool) Stool DNA Isolation Kit Dx (Cat. Dx27600) Maximun Input Vol: 200 mg (fresh/frozen stool) or 400 μL (preserved stool) DNA & RNA Stool Nucleic Acid Isolation Kit Isolate both DNA and RNA from stool Stool Nucleic Acid Isolation Kit (Cat. 45600) Maximum Input Vol: 200 mg RNA Stool RNA Purification Kit Isolate total RNA from stoo Stool Total RNA Purification Kit (Cat. 49500) Maximum Input Vol: 200 mg (fresh/frozen stool) or 400 μL (preserved stool) Stool Total DNA Purification Kits Explore More Stool Total Nucleic Acid Purification Kits Explore More Stool Total RNA Purification Kits Explore More
Featured Publications Featured Title Human Stool Preservation Impacts Taxonomic Profiles in 16S Metagenomics Studies Journal Front. Cell. Infect. Microbiol. February 2022. Authors Anne Plauzolles, Eya Toumi, Marion Bonnet, Guillaume Pénaranda, Ghislain Bidaut, Laurent Chiche, Jérôme Allardet-Servent, Frédérique Retornaz, Benoit Goutorbe and Philippe Halfon Title Characterization of gut microbiome and metabolome in Helicobacter pylori patients in an underprivileged community in the United States Journal World J Gastroenterol. Sept, 2021. Authors White B, Sterrett JD, Grigoryan Z, Lally L, Heinze JD, Alikhan H, Lowry CA, Perez LJ, DeSipio J, Phadtare S. Title Cross-sectional comparisons of gut microbiome and short-chain fatty acid levels among children with varied weight classifications Journal ORIGINAL RESEARCH. November, 2020. Authors Peter Gyarmati, Yajing Song, James Dotimas, Grace Yoshiba, Amy Christison Title The Inhibitory Role of miR-486-5p on CSC Phenotype Has Diagnostic and Prognostic Potential in Colorectal Cancer Journal Cancers. 2020. Authors Andrea Pisano, Carmen Griñan-Lison, Cristiano Farace, Giovanni Fiorito, Grazia Fenu, Gema Jiménez, Fabrizio Scognamillo, Jesùs Peña-Martin, Alessio Naccarati, Johannes Pröll, Sabine Atzmüller, Barbara Pardini, Federico Attene, Gabriele Ibba, Maria Giuliana Solinas, David Bernhard, Juan Antonio Marchal, Roberto Madeddu Title Air pollution exposure is associated with the gut microbiome as revealed by shotgun metagenomic sequencing Journal Environment International. 2020. Authors Farnaz Fouladi, Maximilian J. Bailey, William B. Pattersonb, Michael Sioda, Ivory C. Blakley, Anthony A. Fodor, Roshonda B. Jones, Zhanghua Chen, Jeniffer S. Kim, Frederick Lurmann, Cameron Martino, Rob Knight, Frank D. Gilliland, Tanya L.Alderete Title Human faecal collection methods demonstrate a bias in microbiome composition by cell wall structure Journal Scientific Reports. November 2019. Authors Emma-Jane Watson, Jennifer Giles, Paul Blatchford, Benjamin L. Scherer Title Altered Fecal Small RNA Profiles in Colorectal Cancer Reflect Gut Microbiome Composition in Stool Samples Journal mSystems. September, 2019. Authors Sonia Tarallo, Giulio Ferrero. Gaetano Gallo., Antonio Francavilla, Giuseppe Clerico, Alberto Realis Luc, Paolo Manghi, Andrew Maltez Thomas, Paolo Vineis, Nicola Segata, Barbara Pardini, Alessio Naccarati, Francesca Cordero Title Gut Microbiota Analysis in Postoperative Lynch Syndrome Patients Journal Front. Microbiol. July 2019. Authors Giorgia Mori, Beatrice Silvia Orena, Ilenia Cultrera, Giulia Barbieri1, Alessandra M. Albertini, Guglielmina Nadia Ranzani, Ileana Carnevali, Maria Grazia Tibiletti, Maria Rosalia Pasca Title Gut Resistome After Oral Antibiotics in Preschool Children in Burkina Faso: A Randomized, Controlled Trial Journal Clinical Infectious Diseases. May 2019. Authors Catherine E Oldenburg, Armin Hinterwirth, Ali Sié, Boubacar Coulibaly, Lucienne Ouermi, Clarisse Dah, Charlemagne Tapsoba, Susie L Cummings, Lina Zhong, Cindi Chen, Samarpita Sarkar, Till Bärnighausen, Thomas M Lietman, Jeremy D Keenan, Thuy Doan Documents Poster Title Impact of Preservation Method and 16S rRNA Hypervariable Region on Gut Microbiota Profiling Journal Methods And Protocols. February 2019. Authors Zigui Chen, Pak Chun Hui, Mamie Hui, Yun Kit Yeoh, Po Yee Wong, Martin C. W. Chan , Martin C. S. Wong, Siew C. Ng, Francis K. L. Chan, Paul K. S. Chan
Contact the Experts Get in touch with Norgen's on site product specialists for more information or a direct quote for the product you are interested in. Get Quote