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Smo Knockout NIH 3T3 Cell Line

Cat. No. ARG44119
Product Type:

In Stock Cell Lines

Species:

Mus musculus (Mouse)

Tissue Source:

Embryo

Growth Properties:

Adherent

In stock
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Short Description 🔒

The Smo Knockout NIH 3T3 Cell Line is a CRISPR/Cas9-edited knockout cell line targeting the Smoothened (Smo) gene in immortalized mouse embryonic fibroblasts. Disruption of Smo, the key signal transducer of the Hedgehog pathway, eliminates Sonic Hedgehog (Shh)-induced activation of Gli transcription factors. This loss-of-function model serves as an essential tool for dissecting Hedgehog signaling and Smo-dependent cellular processes. Ideal for Hedgehog pathway validation, drug screening (Smo antagonists), and cancer research, this cell line supports assays such as Gli-luciferase reporters, qPCR, and proliferation tests.

Product Details
Cell Engineering
Immortalization
Culture Conditions
Quality Control
Disclaimer

Product Details

Product Type:
In Stock Cell Lines
Species:
Mus musculus (Mouse)
Tissue Source:
Embryo
Growth Mode:
Adherent
Age:
Embryo
Sex of Donor:
Male
Derived From Site:
Embryo
Size/Quantity:
1 million
Shipping info:
Cryopreserved in vials and shipped on dry ice
Storage:
Liquid nitrogen (LN2)

Cell Engineering Information

Host Cell:
NIH 3T3
Gene Name:
Smo
Gene Identifier:
NCBI Gene ID 319757

Immortalization Information

No immortalization information available.

Culture Conditions

Temperature:
37°C
Atmosphere:
5% CO₂

Quality Control

Mycoplasma testing:
Negative for mycoplasma through PCR analysis
Sterility testing:
The bacterial, yeast, and fungi are not detected in these cells by daily monitor.

Disclaimer

Intended Use:
This product is intended for laboratory in vitro use only. It is not intended for diagnostic, therapeutic, or clinical applications.
Disclaimer:
Ascent Research endeavors to provide accurate and up-to-date product information. However, no warranties or representations are made regarding its completeness or reliability.
Usage:
By accepting this product, the customer acknowledges and agrees to assume all risks associated with its receipt, handling, storage, disposal, and use. This product is provided "AS IS".

Description 🔒

The Smo Knockout NIH 3T3 Cell Line is a CRISPR/Cas9-edited knockout cell line designed to disrupt the Smo gene, which encodes Smoothened, the GPCR mediator of Hedgehog signaling. This cell line offers a defined loss-of-function background for dissecting Smo-dependent processes in mesenchymal fibroblasts. By eliminating functional Smo, researchers can interrogate pathway-specific responses with high reproducibility.

NIH 3T3 is an immortalized fibroblast line derived from Swiss mouse embryos, characterized by contact inhibition, stable growth, and high transfection efficiency. Its mesenchymal origin makes it a preferred model for studying signal transduction and developmental pathways. These features ensure robust performance in proliferation assays, pharmacological testing, and transfection-based manipulations, providing an optimal host for Smo knockout studies.

Smoothened (Smo) acts as the central transducer of the Hedgehog cascade. Under basal conditions, Patched1 (Ptch1) suppresses Smo; binding of Sonic Hedgehog (Shh) to Ptch1 lifts this inhibition, allowing Smo to localize to the primary cilium. Once there, Smo triggers Gli transcription factor activation by sequestering the negative regulator Sufu. This promotes transcription of target genes including Cyclin D1, Myc, and Bcl2. Smo activity is regulated by cholesterol and agonists like SAG, and is modulated by interacting proteins such as ??-arrestin 2, G??i, Kif7, GRK2, and CK1??. CRISPR-mediated disruption of Smo in this cell line abolishes Shh-induced Gli activation, creating a definitive loss-of-function model.

In the NIH 3T3 background, Smo knockout abolishes responsiveness to Shh, impairing Gli-driven transcription and proliferation. This renders the line an essential tool for evaluating Hedgehog pathway dependency and drug specificity. The model also enables exploration of non-canonical Smo functions and Ptch1-mediated effects independent of Smo, broadening investigations into Hedgehog network complexity.

Applications include Western blotting and RT-qPCR for Gli1/Ptch1 to confirm pathway inactivation, Gli-luciferase reporter assays, and immunofluorescence for ciliary localization. Cell proliferation (MTS) and vismodegib sensitivity assays assess functional outcomes. The line supports research in basal cell carcinoma, medulloblastoma, cancer biology, and drug discovery. For further details, please contact Ascent Research.