OUR SERVICES

Measure gene expression in individual cells or nuclei.

A powerful tool to quantify gene expression patterns at cellular resolution. This rich dataset can be used to identify gene networks, gene regulatory elements, and developmental trajectories in cell populations. Whether you are interested in fundamental questions in biology, looking to enhance plant performance, or smarter ways to drive trait expression, this technique can provide the answer.
Raleigh Biosciences has developed a complete platform to isolate cells or nuclei, quantify gene expression, and provide actionable data that will advance your research.
Raleigh Biosciences has developed protocols to measure and predict gene expression in spatial context of the tissue by combining the 10X Genomics platform with multiplex fluorescent In situ hybridization (FISH). The combination of these two techniques offers high-throughput capabilities with minimal cost per sample.

Raleigh Biosciences specializes in using single cell transcriptomics and AI-driven models to rapidly identify and predict cell type-specific expression patterns unlocking hidden insights into gene expression and genome features. This allows for the development of cutting-edge solutions for optimizing gene expression and genome editing.

Identify tissue-specific gene promoters.

Raleigh Biosciences is utilizing patented 3D bioprinting technology to edit cells from crops in a scalable manner, facilitating the testing and validation of an unprecedented number of gene expression drivers in high throughput.
The use of 3D bioprinting as a platform reduces the cost and time associated with bringing new agriculture products to market.

Rapidly screen large numbers of traits.