NGS- und PCR-Cleanup .
Magnetic Beads sind sehr effizient bei der Aufreinigung von PCR-Produkten und der Größenselektion von Amplikons bei der Sequenzierung.
Unsere MagSi-NGSPREP Plus Beads können direkt in bereits etablierten NGS-Protokollen genutzt werden, z.B. anstelle von Ampure XP Beads.
Hard Facts .
- Hervorragende Aufreinigung von PCR-Produkten
- Effiziente Entfernung von Enzymen, Primern, Oligonukleotiden, Polymerasen und anderen Verunreinigungen
- Hohe Reinheit und Recovery, konsistente Sequenzierergebnisse
- Einfach skalierbar und HTS-kompatibel
- SPRI-basierte Size-Selection
- Optimiert für Biomek® Workstations und Hamilton® Microlab STARline
- Kompatibel mit vielen anderen automatisierten Liquid-Handling-Systemen (z.B. PerkinElmer®, Caliper Life Sciences®, etc.)
Anwendungen .
Die library preparation ist einer der wichtigsten Schritte in der Probenvorbereitung für NGS Reaktionen. MagSi NGS Beads ermöglichen eine einfache Größenselektion durch die Variation des Bead : Probe-Verhältnisses.
Die MagSi-NGSPREP Plus Beads sind auch geeignet für eine Größenselelektion Ihrer PCR-Produkte (SPRI).
Durch Variation des Beads:Sample-Verhältnisses können Sie gezielt erwünschte Fragmentgrößen selektieren bzw. unerwünschte Fragmentgrößen entfernen.
Mit den MagSi-NGSPREP Plus Beads entfernen Sie Enzyme, Primer, Oligonukleotide, sowie Polymerasen und Salze einfach und schnell aus Ihrem PCR-Produkt.
Mit einem angepassten Protokoll können die MagSi-NGSPREP Plus Beads auch zur Anreicherung von RNA verwendet werden, um die Sensitiviät und Spezifität der Reversen Transription und qPCR-Analyse zu verbessern.
Simon, B., Pichon, M., Valette, M., Burfin, G., Richard, M., Lina, B., & Josset, L. (2019). Whole Genome Sequencing of A(H3N2) Influenza Viruses Reveals Variants Associated with Severity during the 2016–2017 Season. Viruses, 11(2), 108. https://doi.org/10.3390/v11020108
NGSPrep Plus Beads .
Downloads .
Publikationen
Simon, B., Pichon, M., Valette, M., Burfin, G., Richard, M., Lina, B., & Josset, L. (2019). Whole Genome Sequencing of A(H3N2) Influenza Viruses Reveals Variants Associated with Severity during the 2016–2017 Season. Viruses, 11(2), 108. https://doi.org/10.3390/v11020108
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Kaupper, T. et al (2021). When the going gets tough: Emergence of a complex methane-driven interaction network during recovery from desiccation-rewetting. Soil Biology and Biochemistry 153. https://doi.org/10.1016/j.soilbio.2020.108109
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Wallen-Russell, C.; Gijsberts-Veens, A.; Wallen-Russell, S. (2021). Could Modifying the Skin Microbiome, Diet, and Lifestyle Help with the Adverse Skin Effects after Stopping Long-Term Topical Steroid Use? Allergies 2(1). https://doi.org/10.3390/allergies2010001
Huesa, J. et al (2021). Structure-based analyses of Salmonella RcsB variants unravel new features of the Rcs regulon. Nucleic Acids Research 49(4). https://doi.org/10.1093/nar/gkab060
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Pannekens, M. et al (2020). Densely Populated Water Droplets in Heavy-Oil Seeps. Applied and Environmental Microbiology 86(11). https://doi.org/10.1128/AEM.00164-20
Goldmann, K. et al (2020). Early Stage Root-Associated Fungi Show a High Temporal Turnover, but Are Independent of Beech Progeny. Microorganisms 8(2). https://doi.org/10.3390/microorganisms8020210
Schmitt, F.C.F. et al (2020). Pulmonary microbiome patterns correlate with the course of disease in patients with sepsis-induced ARDS following major abdominal surgery. Journal of Hospital Infection 105(3). https://doi.org/10.1016/j.jhin.2020.04.028
Wischer, D. et al (2020). Novel Antimicrobial Cellulose Fleece Inhibits Growth of Human-Derived Biofilm-Forming Staphylococci During the SIRIUS19 Simulated Space Mission. Frontiers in Microbiology 11. https://doi.org/10.3389/fmicb.2020.01626
Ahle, C.M. et al (2020). Staphylococcus saccharolyticus: An Overlooked Human Skin Colonizer. Microorganisms 8(8). https://doi.org/10.3390/microorganisms8081105
Kressler, C. et al (2021). Targeted De-Methylation of the FOXP3-TSDR Is Sufficient to Induce Physiological FOXP3 Expression but Not a Functional Treg Phenotype. Frontiers in Immunology 11. https://doi.org/10.3389/fimmu.2020.609891
Ricci, C. et al (2019). PD-1 (PDCD1) promoter methylation in Merkel cell carcinoma: prognostic relevance and relationship with clinico-pathological parameters. Modern Pathology 32. https://doi.org/10.1038/s41379-019-0261-5
Moser, D. A. et al (2020). Targeted bisulfite sequencing: A novel tool for the assessment of DNA methylation with high sensitivity and increased coverage. Psychoneuroendocrinology 120. https://doi.org/10.1016/j.psyneuen.2020.104784
Liang, S. et al (2020). Transcriptional mutagenesis dramatically alters genome-wide p53 transactivation landscape. Scientific reports (10(1). https://doi.org/10.1038/s41598-020-70412-4
Gerovac, M. et al (2020). Global discovery of bacterial RNA-binding proteins by RNase-sensitive gradient profiles reports a new FinO domain protein. RNA 26(10). https://doi.org/10.1261/rna.076992.120
Fussmann, D. et al (2020). Authigenic formation of Ca–Mg carbonates in the shallow alkaline Lake Neusiedl, Austria. Biogeosciences 17. https://doi.org/10.5194/bg-17-2085-2020
Fuchs, M. et al (2020). An RNA-centric global view of Clostridioides difficile reveals broad activity of Hfq in a clinically important Gram-positive bacterium. bioRxiv. https://doi.org/10.1101/2020.08.10.244764
Renzi, A. et al (2019). Prevalence of p53 dysregulations in feline oral squamous cell carcinoma and non-neoplastic oral mucosa. PLoS One 14(4). https://doi.org/10.1371/journal.pone.0215621
Lüneberg, K. et al (2019). Land Use Change and Water Quality Use for Irrigation Alters Drylands Soil Fungal Community in the Mezquital Valley, Mexico. Frontiers in microbiology 10. https://doi.org/10.3389/fmicb.2019.01220