Date published: 2026-7-9

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UPase Lentiviral Activation Particles (h): sc-411050-LAC

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Datasheets
  • Target species: human
  • 200 µl of transduction-ready, high-titer CRISPR/dCas9 Lentiviral Activation Particles
  • UPase Lentiviral Activation Particles (h) is a synergistic activation mediator (SAM) transcription activation system designed to specifically and efficiently upregulate gene expression via lentiviral transduction of cells
  • UPase Lentiviral Activation Particles (h) contain the following SAM Activation elements: a deactivated Cas9 (dCas9) nuclease (D10A and N863A) fused to the transactivation domain VP64, an MS2-p65-HSF1 fusion protein and a target-specific 20 nt guide RNA. They also contain the blasticidin, hygromycin and puromycin resistance genes
  • Upon transduction, the SAM complex binds to a site-specific region approximately 200-250 nt upstream of the transcriptional start site and provides robust recruitment of transcription factors for highly efficient gene activation
  • gRNAs encoded by UPase Lentiviral Activation Plasmid (h) and UPase Lentiviral Activation Plasmid (h2) target distinct regulatory regions of the UPP1 promoter. One or both designs may be available
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    Ordering Information

    Product NameCatalog #UNITPriceQtyFAVORITES

    UPase Lentiviral Activation Particles (h)

    sc-411050-LAC
    200 µl
    $455.00

    Human UPP1 encodes uridine phosphorylase (UPase), a key enzyme of pyrimidine nucleoside metabolism that catalyzes reversible phosphorolysis of uridine and deoxyuridine to generate uracil and ribose-1-phosphate. By regulating nucleoside salvage and nucleotide pool homeostasis, UPase influences DNA/RNA synthesis capacity, cellular proliferation, and metabolic adaptation to nutrient availability. UPP1 activity interfaces with broader pyrimidine catabolism and salvage pathways that support biosynthetic flux and redox balance in diverse cell types. Dysregulated expression of UPP1 has been observed in contexts of altered nucleotide metabolism and tumor-associated metabolic remodeling, making it a useful node for studying pathway rewiring and stress responses.

    UPase Lentiviral Activation Particles (h) address this need by packaging the complete synergistic activation mediator (SAM) transcriptional activation system into transduction-ready, high-titer lentiviral particles, enabling efficient UPP1 upregulation across a broader range of human cell types.

    UPase Lentiviral Activation Particles (h) deliver all functional components of the synergistic activation mediator (SAM) system via lentiviral transduction. The system comprises three particle preparations co-transduced into target cells: one encoding catalytically inactive dCas9 (D10A and N863A mutations) fused to the VP64 transactivation domain with a blasticidin resistance gene; one encoding the MS2-p65-HSF1 fusion protein with a hygromycin resistance gene; and one encoding a target-specific 20 nt sgRNA fused to two MS2 RNA aptamers with a puromycin resistance gene. Following lentiviral transduction and genomic integration of the expression cassettes, the SAM components are stably expressed and assemble at the target locus within the proximal promoter region upstream of the UPP1 transcriptional start site, where VP64, p65, and HSF1 act cooperatively to recruit endogenous transcriptional machinery and drive sustained upregulation of endogenous UPase expression. The use of nuclease-inactive dCas9 avoids the introduction of double-strand DNA breaks and preserves the native UPP1 genomic locus and regulatory architecture.

    The lentiviral format offers several practical advantages: stable genomic integration supports heritable activation across cell divisions; high-titer particle preparations eliminate the need for in-house viral production; and compatibility with primary, non-dividing, and transfection-resistant cell types expands experimental accessibility. Successful transduction can be confirmed and enriched through triple antibiotic selection using puromycin, hygromycin, and blasticidin.

    For Research Use Only. Not Intended for Diagnostic or Therapeutic Use.