SimpleCell™ 3′

Gene Expression

SimpleCell™ 3′ Gene Expression data sheet

SimpleCell™ 3′ Gene Expression

Free your discoveries

SimpleCell™ 3′ Gene Expression has a simple, single-day cells-to-sequencer workflow. The assay takes place entirely within typical laboratory plasticware and requires only standard lab equipment. The fixation-free pause point soon after cell preparation enables asynchronous sample processing without chemical artifacts.

SimpleCell™ requires no expensive hardware, complex indexing schemes or emulsions.

Free your discoveries

SimpleCell™ 3′ Gene Expression has a simple, single-day cells-to-sequencer workflow. The assay takes place entirely within typical laboratory plasticware and requires only standard lab equipment. The fixation-free pause point soon after cell preparation enables asynchronous sample processing without chemical artifacts.

SimpleCell™ requires no expensive hardware, complex indexing schemes or emulsions.

Ordering information

Ordering
information

Part number

Description

Additional information

1000393

SimpleCell™ 3′ Gene Expression 8 Samples

Includes two boxes of reagents for preparing 8 libraries. Purchase index adapters and required plastics separately or as part of the Accessory Starter Kit 8 Samples.

1000394

SimpleCell™ 3′ Gene Expression 16 Samples

Includes two boxes of reagents for preparing 16 libraries. Purchase index adapters and required plastics separately or as part of the Accessory Starter Kit 16 Samples.

1000396

Accessory Starter Kit 8 Samples

Includes two boxes of accessory components required for the full assay. Box 1 contains index adapters I1 to I8, and box 2 contains v-bottom and flat-bottom plastic plates.

1000406

Accessory Starter Kit 16 Samples

Includes three boxes of accessory components required for the full assay. Box 1 contains index adapters I1 to I8, box 2 contains index adapters I9 to I16, and box 3 contains v-bottom and flat-bottom plastic plates.

Part number

1000393

Description

SimpleCell™ 3′ Gene Expression 8 Samples

Additional information

Includes two boxes of reagents for preparing 8 libraries. Purchase index adapters and required plastics separately or as part of the Accessory Starter Kit 8 Samples.

Part number

1000394

Description

SimpleCell™ 3′ Gene Expression 16 Samples

Additional information

Includes two boxes of reagents for preparing 16 libraries. Purchase index adapters and required plastics separately or as part of the Accessory Starter Kit 16 Samples.

Part number

1000396

Description

Accessory Starter Kit 8 Samples

Additional information

Includes two boxes of accessory components required for the full assay. Box 1 contains index adapters I1 to I8, and box 2 contains v-bottom and flat-bottom plastic plates.

Part number

1000406

Description

Accessory Starter Kit 16 Samples

Additional information

Includes three boxes of accessory components required for the full assay. Box 1 contains index adapters I1 to I8, box 2 contains index adapters I9 to I16, and box 3 contains v-bottom and flat-bottom plastic plates.

Liberate your lab

Achieve powerful biological insights with a simple and scalable workflow.

Comparison of PBMCs between technologies

An early-access user was interested in improving efficiency and simplifying workflows using the CS Genetics SimpleCell™ Assay. Viably frozen PBMCs were processed with the SimpleCell™ 3′ Gene Expression Assay and with an alternative 3′ Gene Expression technology. Data from the two technologies were analysed separately and revealed the same cell type populations with relatively similar abundance. The data were then split by donor and integrated computationally. There was an excellent overlap between the data sets from the two technologies regardless of donor.    

96 frozen whole blood samples

An early-access user was interested in a simplified high throughput single cell assay that works with frozen whole-blood samples to enable population scale single cell analysis. The CS Genetics SimpleCell™ Assay was used to process 96 frozen whole-blood samples in two days with the aid of a 96-channel semi-automated pipettor, thus showcasing the scalability of the technology. Gene expression quantification enabled high-resolution annotation of cell types within the samples. 

 

iPSCs differentiation

An early-access user differentiated Human iPSCs to cortical neurons using an iNeuron protocol. Samples were collected in triplicate at 5 time points with a total of 15 processed for single cell RNA sequencing. Analysis of these combined datasets revealed distinct developmental states of the iPSCs during differentiation. Unsupervised pseudotime ordering revealed 4 key developmental stages, beginning with a formative stem-cell stage at D0, followed by a progenitor stage at D4. These were followed by more developmentally heterogenous stages up to D14, with cells existing in several pseudotime states (also potentially representing different developing neural types) while by D30 most cells reside in a mature state.

CAR-T cell screening comparison to an alternative single cell technology

Single cell sequencing can be used to find phenotypes of cells beyond what is possible with flow cytometry but, unfortunately, the cost with single cell technologies currently on the market can be prohibitively expensive for large scale applications like CAR-T donor screening. The CS Genetics SimpleCell™ Assay offers an easy, scalable and cost-effective solution for these applications with comparable performance to current technologies.  An early-access user compared SimpleCell™ with another single cell technology and demonstrated that both datasets revealed comparable biological insights.

Quantification of a therapeutically-relevant gene-seq enrichment analysis (GSEA) signature demonstrated excellent correlation between the two technologies. The CS Genetics SimpleCell™ Assay showed similar quality, phenotypes and patterns in the transcriptional profiles.  

At CS Genetics we believe that single cell genomics doesn’t need to be complex. Tomorrow’s discoveries require access to products and technology that are effortless to adopt and simple to use, with near-limitless scalability.

At CS Genetics we believe that single cell genomics doesn’t need to be complex. Tomorrow’s discoveries require access to products and technology that are effortless to adopt and simple to use, with near-limitless scalability.