Search results for "ffpe challenges"

For purification of genomic DNA from formalin-fixed paraffin-embedded tissues

The Maxwell® CSC DNA FFPE Kit is used in combination with the Maxwell® CSC Instrument to provide an easy method for efficient, automated purification of genomic DNA (gDNA) from human FFPE breast, lung or colon tissue samples.   The Maxwell® CSC DNA FFPE (formalin fixed, paraffin embedded) kit is intended for use, in combination with the Maxwell® CSC Instrument and the Maxwell® CSC DNA FFPE purification method, as an…

Automated DNA Extraction from FFPE Tissues

Automated RNA Purification from FFPE Tissue Samples for Downstream In Vitro Diagnostic Assays

Purify High-Quality, Intact Nucleic Acids from FFPE Tissue WithoutHarsh Solvents or Overnight Digestions.

For ultrafast, highly efficient bisulfite conversion from gDNA, FFPE, blood, cell or tissue samples in spin-column and 96-well format

For ultrafast, highly efficient bisulfite conversion from gDNA, FFPE, blood, cell or tissue samples in spin-column and 96-well format

Human tonsil normal FFPE tissue block

Superior RNA extraction from FFPE (paraffin) tissue sections with 3 to 30-fold increase in yield, and 2-fold increase in DV200 (RNA longer than 200 nucleotides) compared to other methods.

Superior DNA extraction from FFPE samples, due to the enhanced removal of formaldehyde-induced damage, providing DNA with higher yield and quality and greater amplifiability.

Use the High Pure FFPE RNA Micro Kit to isolate total RNA from formalin-fixed, paraffin-embedded (FFPE) tissue samples for direct use in RT-PCR. The isolated RNA is suitable for relative quantification of mRNA in RT-PCR using real-time PCR systems such as the LightCycler® Carousel-Based System and the LightCycler® 480 System. Isolate total RNA from 1 to 10 µm sections of formalin-fixed, paraffin-embedded tissue (e.g., colon, b…

Automatable, magnetic bead-based nucleic acid isolation kits for cell-free DNA and genomic DNA extraction

Thermo Scientific Tox Explorer Collection solves complex analytical challenges and increases laboratory productivity

Dominating the high-throughput sequencing data analysis challenge We have overcome the challenge to analyze high-throughput sequencing data faster than it is produced by implementing a SIMD-accelerated assembly algorithm in our next generation sequencing solution, CLC Genomics Workbench – a cross-platform desktop application with a graphical user-interface. CLC Genomics Workbench, for analyzing and visualizing next generation…

Exchange all your capillaries for one single unit and save enormous amounts of time and money: the SVM viscometers provide the highest flexibility by covering the entire viscosity, density, and temperature range with a single measurement cell and deliver results in seconds. With SVM you can certify jet fuel, diesel, biodiesel blends, and marine fuels; classify crude oils and determine the VI of your lubricant. Whatever challen…

To meet all your business challenges, Oracle for Life Sciences delivers a powerful combination of technology and comprehensive, preintegrated business applications, including key functionality built specifically for pharmaceutical, biotech and medical device enterprises. Oracle offers a unified data model that gathers and synchronizes real-time information across your organization, including multiple research programs, regulat…

The supercomputer is designed to solve some of the world’s most pressing medical challenges

Expert webinars to explore the latest research and challenges in cell and gene therapy development

New solution to lab connectivity challenges allows for true data mobility throughout the scientific enterprise

New icIEF technology provides a unique and powerful analysis method to address key analytical challenges

Nate Starbard, Thermo Fisher Scientific, discusses how to overcome common filtration challenges in the lab