CRISPR dCas9-p300 RFP Activator Expression Plasmid

This gene activation system is based on a fusion of inactive Cas9 (dCas9) to the catalytic histone acetyltransferase (HAT) core domain of the human E1A-associated protein p300. The dCas9-p300 activator expression plasmids use the CMV promoter for strong transient expression of dCas9-P300 and RFP linked by a 2A peptide (CMV-dCas9-p300-2A-RFP) allowing for easy visualization of successful transfection. The dCas9-P300-RFP expression plasmid is one part of a two part CRISPR system with individual dCas9-P300 and gRNA expression vectors.

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Functional Genomics/Target Validation

• Epigenetic Modification
• Transcriptional Activation
• Manufacture of dCas9-P300 expressing lentiviral particles

The Sigma CRISPR dCas9p300 plasmid co-expresses p300-HAT and RFP, to easily monitor delivery and expression in your target cell type. gRNAs can successfully direct nuclease-deficient Cas9 (dCas9) fused to p300 HAT catalytic domain to increase levels of histone acetylation and endogenous gene expression. The dCas9-p300 histone acetylation approach represents a distinct mechanism of action relative to dCas9-VP64 or other similar gene activation motifs.

CRISPR/Cas systems are employed by bacteria and archaea as a defense against invading viruses and plasmids. Recently, the type II CRISPR/Cas system from the bacterium Streptococcus pyogenes has been engineered to function in eukaryotic systems using two molecular components: a single Cas9 protein and a non-coding guide RNA (gRNA). Mutations to the catalystic domains, RuvC and HnH, render it inactive as a nuclease yet still allow for the protein to be programmed with a single gRNA, directing p300 epigenetic modification cargo to any desired genomic location.