Pooled Screening

In a pooled functional genomic screen, a vast number of perturbations is introduced in a single cell population using a lentiviral library resulting in a mixed pool of cells. Subsequently, this population is challenged with e.g. drug treatments or proliferation and analyzed using Next-Generation Sequencing (NGS) for deconvolution.

This allows to test a large number of gene-edited cell at once in a high-throughput and cost-efficient manner, which is why it is often used for primary whole genome screens.

By identifying common patterns in cellular responses to perturbations, researchers may gain valuable insights into the genetic factors influencing the disease phenotype. Generally pooled screens focus on detecting broad effects rather than elucidating individual gene functions. However recently there are more advanced read-out technologies on the rise like single-cell or in-situ sequencing that allow for more detailed analysis in a pooled screening format.

Advantages:

Less expensive
Large number of genes can be integrated at once
Suitable for longer in vivo studies
No specialized/automated equipment needed

Read-out methods:

NGS At Different Time Points or After Different Selective Pressures
NGS Combined with Certain Biological Characteristics by FACS Sorting Using Reporter Gene Or Surface Biomarker
scRNA Sequencing linking gRNA Expression with Transcriptomic Profile
In-Situ Sequencing linking gRNA Expression with Imaging Phenotype

For research use only. Not for use in diagnostic procedures.

Gene editing and modulation reagents

Regardless if you are looking for CRISPR, CRISPRi/a or RNAi, we can help enhance your chances of success with our pooled lentiviral libraries. Start your CRISPR experiment with our lentiviral Cas9 nucleases or directly with stably expressing Cas9 cell lines.

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Bulk RNA sequencing

Offering a high-throughput, comprehensive identification of guide depletion and enrichment, this process may enable you to uncover the most subtle shifts in your cellular model.

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Single-cell Sequencing

This technique may assist you in dissecting the heterogeneous responses within your cell population, potentially revealing unique cell behavior and gene expression patterns.

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Analysis

Once your gene-editing experiment is complete, you’re faced with readouts and large amounts of data that need to be analyzed. Our next generation informatics solutions may help you to contextually analyze all that data, so you have more physiologically relevant results to make more informed decisions.

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Services

To alleviate bandwidth and expertise gaps, Revvity’s preclinical services team can deliver functional genomic screening projects, including CRISPR knockout, CRISPR activation, CRISPR inhibition, Pin-Point™ Base Editing platform, and RNAi screening. Our services are designed to enhance decision-making and help to increase the likelihood of clinical trial success by delivering comprehensive datasets to guide your strategy.

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