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For isolation of high-quality genomic DNA for use in most downstream genomics applications
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For the isolation of microbial DNA from stool and gut samples
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For the isolation of bacterial DNA from cultured blood, fecal and cervical swabs
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For the isolation of DNA from stool, gut material and biosolids
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For the isolation of genomic DNA from all filtered water sample types collected with Sterivex filter units
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For high-throughput isolation of DNA from microbial culture
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For the isolation of genomic DNA from plant and seed samples
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For the bead-based isolation of high-quality DNA from microbial cultures
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For isolation of high quality DNA from microbial cultures
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For the isolation of inhibitor-free DNA from a variety of cultured foods
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For the bead-based isolation of DNA from tough soil microbes
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For the isolation of genomic DNA from filtered water samples, including turbid water
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For the isolation of microbial DNA from large quantities of soil with low microbial load
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Many studies have shown that tumor emergence and growth are associated with changes in DNA methylation patterns, such as the case of prostate cancer development. Therefore, one of the most important application areas for epigenetic research is in the diagnosis and treatment of cancer — using DNA methylation patterns to detect cancer at very early stages, to classify tumors, and to predict and monitor response to drug treatments. QIAGEN’s dedicated solutions for epigenetics facilitate cancer research and help to overcome bottlenecks that have existed in screening, identification, and quantification of CpG sites in methylation analysis.
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The QIAseq Targeted DNA Panels have been developed to detect low-frequency variants with high confidence by overcoming the issues of PCR and sequencing error. This solution is based on the use of unique molecular indices (UMIs) to deliver a digital sequencing approach. Since each unique DNA molecule is barcoded before any amplification takes place, unique DNA molecules can be distinguished from PCR duplicates or errors − opening the door for you to confidently detect low-frequency DNA variants with new levels of statistical accuracy.
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For the isolation of microbial genomic DNA from all soil types
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For rapid isolation of genomic DNA from solid tissue samples
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For the automated isolation of nucleic acids from filtered air and water samples
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For automated high-throughput isolation of total DNA from blood, cells, and tissues
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For the automated, hands-free isolation of nucleic acids from stool and gut material
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For the isolation of DNA from up to 384 soil samples in less than one day
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For the removal of genomic DNA contamination in RNA preparations
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For the extraction of protein and nucleic acids from fungal cell cultures
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For the extraction of protein and nucleic acids from bacterial cell cultures
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For the isolation of high-quality, pure DNA from biofilm samples
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For isolation of high-molecular-weight genomic DNA
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For secondary DNA clean-up and removal of inhibitors from heparin
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For isolation of ultraclean genomic DNA from small amounts of blood, swabs, cells or tissue
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For isolation of DNA from stool
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For isolation of bacterial microbiome DNA from mixed samples
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For isolation of genomic, mitochondrial, bacterial, parasite or viral DNA
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For high-throughput isolation of DNA from blood and cell-free body fluids
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For efficient isolation of high-purity mitochondria preparations
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Isolation and quantification of genomic DNA from different sample sources and plasmid DNA. How to make and transform competent cells, how to culture and handle plasmid-containing cells, and commonly used techniques for analysis of genomic DNA.
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For the automated, hands-free isolation of DNA from soil
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For isolation and purification of genomic DNA from tissue samples stabilized using the PAXgene Tissue System
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For the isolation of microbial genomic DNA from all soil types
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For the automated isolation of blood DNA using a KingFisher Flex or Duo
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For isolation of high-quality RNA (including miRNA) for use in downstream expression analysis experiments
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For isolation of high-quality RNA (including miRNA) for use in PCR arrays and assays
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