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Three Invitrogen Molecular Probes fluorogenic reagents—CellROX Deep Red, CellROX Green and CellROX Orange —have been developed for the detection and quantitation of reactive oxygen species (ROS) in live cells.

For accurate detection and quantification of gene expression targets, view our recommended TaqMan and SYBR Green master mixes for gene expression analysis., Analyze single nucleotide polymorphisms (SNPs), copy number variation (CNV), and other genetic variations accurately and efficiently.

These Quant-iT products provide the maximum amount of dye in packaging that is amenable to highly automated quantitation environments. These are the best choice for quantitating more than 2,000 samples at atime.

In addition to our qPCR master mixes, we offer a host of other reagents and kits to empower your research. Our comprehensive portfolio of specialty products will help you meet the needs of any application.

As veterans and innovators in real-time PCR (qPCR), we have a wealth of information, both technical and educational, to empower your qPCR research. We’ve featured some of the most frequented resources for both master mixes and general qPCR below.

Real-time PCR (qPCR) offers sensitivity, specificity, and wide dynamic range for detecting target nucleic acids, making it a useful and powerful technology for research applications that cover the spectrum of biology from basic research to translational medicine.

The Quant-iT Kits, 1,000 assay size, provide the ultimate in convenience for DNA, RNA or protein quantitation in microplates. These are a great choice for quantitating 20–2,000 samples at a time. See our line of automation-ready Thermo Scientific microplate readers For quantitation of more than...

Gibco brand media provide the broadest selection of specialty products that are optimized for mesenchymal stem cell populations, many of which are free of animal derived components. These media are designed to minimize adaptation time, maximize cell performance, and meet regulatory requirements.

Comprehensive solutions for cancer genomic biomarker discovery and verification across key immuno-oncology research areas Immuno-oncology research, aimed at discovering new cancer biomarkers that can become novel therapeutic targets, has experienced significant breakthroughs in cancer research...

Comprehensive solutions to support CAR T-cell therapy research from T-cell engineering to sequencing Adoptive cell transfer is a rapidly emerging area of immuno-oncology research. This approach involves collecting, manipulating, activating, and transferring a subject’s immune cells to treat cancer.

Immuno-oncology is the study of the immune system within a cancer environment[1]. Significant strides to reduce tumor burden have been made in this field with the development of antibodies, biologics, and adoptive T cell therapies.

The discovery and development of effective cancer immunotherapy requires a better understanding of the tumor and its surrounding environment. Different stages of cancer progression depend on the tumor, the organ in which it resides, and the immune response.

Comprehensive solutions to support cancer vaccine research from genomic biomarker tools to protein expression services Cancer vaccines represent an important immuno-oncology research area aimed at enabling the immune system to recognize cancer as a threat (Figure 1).

In the rapidly growing field of immuno-oncology an individual’s immune system is being employed as a new treatment modality to combat cancer. Success in discovery and development of immuno-oncology therapies relies on a knowledge of the underlying cellular mechanisms of the immune system and the...

Browse our comprehensive and convenient portfolio of over 2,000 ELISA products, ranging from ready-to- use coated and uncoated ELISA kits—optimized for convenient and sensitive quantitation of a wide range of targets—to quality reagents and buffers for building your own plate-based immunoassays, as...