CRISPR (Cas9) Point Mutation iPSC Service

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SKU :
ASC-6013-3
Catalog # :
ASC-6013-3
Format :
Service
Size :
N/A
  • Description
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iPSC Point Mutation Service Details

Point Mutation Cell Lines mimic mutations seen in clinical specimens and are important in vitro disease models to understand the role of genes in diseases (central nervous system (CNS) diseases and autoimmune diseases) as well as for drug discovery and immunotherapy development. We use optimized CRISPR protocols to generate iPSCs with single nucleotide mutations (e.g.,  insertion, deletion, single base change). At ASC, we can even correct point mutations found in a mutant allele.

Service Advantages:

  • Optimized CRISPR protocols for a high success rate
  • Homozygous/ heterozygous point mutation clones
  • Footprint-free, feeder-free transfection, and iPSC culture protocols
  • Isogenic control lines for reliable experiments
  • Fully customizable

Standard Packaging

Standard Deliverables:

  • Two (2) clones for targeted point mutation, with two (2) vials of each clone at 1 x 10^6 cells/vial.
  • Project Milestones Reports, as well as a Final Report containing details of targeting design, experimental, and genotyping results.

Standard Workflow & Timeline:

  • Cell line evaluation
  • gRNA design, CRISPR vector, and donor DNA construction, and reagent validation
  • Transfection of targeting vectors and optimization
  • Screening for single cell clones and clone confirmation
  • Cell expansion and cryopreservation

iPSC Genome Editing Service Workflow - Point Mutation

Timeline:
6-8 weeks (w/ ASC's control line)
3-4 months (w/ your iPSCs)

Required Starting Material & Information

Applications:

  • Physiologically relevant disease models for hard-to-model diseases (Ex. ALS, muscular dystrophy, Parkinson's disease, Alzheimer's)
  • Differentiate to study mutations in different tissue lineages with an isogenic panel of cell line models
  • Ideal for target drug discovery, drug and toxicity screening

Applied StemCell can also provide expanded characterization and differentiation to somatic lineages such as NK cells, T cells, astrocytesretinal pigment epithelium (RPE), cardiomyocytes, hepatocytes, and more.

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