Search Thermo Fisher Scientific
Search Thermo Fisher Scientific
RNA biomarkers can be effective indicators of biological processes, pathological processes, or potential responses to treatment. While RNA biomarkers are often identified using profiling methods such as RNA-seq or microarray, biomarker verification requires robust, cost-effective techniques that enable reproducible measurement of differential expression. QuantiGene Gene Expression Assays are ideal for verification of gene expression biomarkers.
Figure 1. Testing of formalin-fixed, paraffin-embedded (FFPE)–derived candidates by Quantigene 2.0 Plex (QGP). QGP data presented as a cluster dendrogram clustered on rows (samples) and columns (gene expression). Heat map colored by Z-score [low expression (blue), through white, to high expression (red)]. Activated B-cell samples are identified by dark blue and germinal center B-cell by yellow boxes on the sample dendrogram.
Analyze 80 cytokine, chemokine, and growth factor RNA targets simultaneously for efficient immune response profiling, biomarker discovery, and validation.
The hybridization and signal-amplification gene expression technology QuantiGene Plex is especially well suited for FFPE because it avoids the issues that are generated by FFPE RNA cross-linkage. It does this by hybridizing RNA directly, avoiding the need for RNA extraction and also by using signal rather than enzymatic amplification methods.
The multiple small oligo probes used for QuantiGene hybridization can generate a signal even if a particular region of the target RNA is degraded or fails to hybridize.
The QuantiGene Plex 384-well assay is designed to increase sample throughput and decrease hands-on time while allowing for fast time to results for screening projects. Below is example data that was generated using the 384-well format using the recommended equipment listed.
Cytokine production in cultured HeLa cells was stimulated using a Cell Stimulation Cocktail and monitored for various time points up to 24 hours. In this experiment, a full 80-plex panel was used for screening purposes focused on cytokine, and chemokine biomarkers.
Figure 2. Normalized gene expression of various targets in HeLa cells at different time points post stimulation with a Cell Stimulation cocktail. Y-axis: Average normalized expression; x-axis: mRNA targets; z-axis: time points of stimulation. Only a subset of gene targets tested is being displayed. HeLa cells were cultured in a 384-well format and stimulated with a Cell Stimulation cocktail for various times up to 24h (1h, 2h, 4h, 24h). Unstimulated cells served as baseline control. At the indicated time points, cells were lysed according to the QuantiGene sample prep protocol for cell lysates using liquid handling (Thermo Fisher Platemate). After all samples from all time points were prepared, the QuantiGene Plex 384-well assay was performed. Chart illustrates the normalized gene expression results.
Figure 3. QuantiGene Plex mRNA cluster analysis. Genes with the best 7 P values were analyzed using an unsupervised cluster analysis. Note: Sample 17 was not a melanoma sample (lymph node with pigmented histiocytes).
For Research Use Only. Not for use in diagnostic procedures.