SKU: AFG-CBL-192

AffiVECTOR® pMX-GFP Retroviral Vector

Vendor AffiGEN
Regular price €794,00 EUR
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AffiVECTOR® pMX-GFP Retroviral Vector

The AffiVECTOR® pMX-GFP Retroviral Vector is a powerful tool for introducing foreign DNA into target cells with high efficiency. With its advanced technology and unique design, this vector allows for stable and long-term expression of target genes, making it ideal for a variety of research applications. Upgrade your vector systems now with AffiVECTOR® pMX-GFP.

AffiVECTOR® pMX-GFP Retroviral Vector: Technical Applications

1. Gene Expression Studies

Reporter Gene: The AffiVECTOR® pMX-GFP Retroviral Vector contains the GFP (Green Fluorescent Protein) gene, serving as a reporter for gene expression. GFP's fluorescence allows for straightforward visualization and quantification of transduction efficiency and gene expression in various cell types.

Promoter Activity: Researchers can study promoter activity by cloning different promoter sequences upstream of the GFP gene. The resulting fluorescence intensity of GFP provides a quantitative measure of promoter strength and activity.

2. Retroviral Transduction

Stable Integration: Retroviral vectors, including the pMX-GFP, integrate into the host genome, ensuring stable and long-term expression of the GFP gene. This feature is critical for experiments that require continuous gene expression.

Dividing Cells: Retroviral vectors are particularly effective in transducing dividing cells. This makes them suitable for studies involving rapidly proliferating cell types, such as cancer cells and embryonic stem cells.

3. Cell Line Development

Selection Marker: The GFP gene functions as a selection marker for successfully transduced cells. Techniques like fluorescent microscopy or flow cytometry can isolate GFP-positive cells, enabling the establishment of cell lines with high transduction efficiency.

Functional Studies: Stable cell lines expressing GFP can be used for functional studies on gene expression, protein interactions, and cellular responses, facilitating in-depth molecular and cellular research.

4. In Vivo Applications

Animal Models: The AffiVECTOR® pMX-GFP vector can be used to create transgenic animal models. GFP expression allows researchers to track and visualize gene expression patterns in vivo, aiding in the study of developmental biology and disease progression.

Tissue-specific Expression: By utilizing tissue-specific promoters, researchers can achieve targeted expression of GFP in specific tissues or cell types, which is crucial for studying tissue-specific gene functions and pathologies.

5. Drug Screening and Development

Assay Development: Stable cell lines expressing GFP can be employed in high-throughput screening assays to evaluate the effects of various compounds on gene expression, cell viability, and other cellular processes. The fluorescence readout provides a straightforward and quantitative measure of the assay outcomes.

Therapeutic Gene Validation: The vector can be used to validate the therapeutic potential of gene candidates by observing their effects on GFP-expressing cells. This helps in identifying promising therapeutic targets and understanding their mechanisms of action.

6. CRISPR/Cas9 Genome Editing

Marker for Edited Cells: The GFP gene can act as a marker to identify and sort successfully edited cells following CRISPR/Cas9-mediated genome editing. This enables efficient selection and analysis of edited cell populations.

Functional Genomics: Researchers can use the vector to deliver CRISPR/Cas9 components along with GFP, allowing for simultaneous gene editing and tracking of cells that have undergone successful genetic modifications.

7. Stem Cell Research

Stem Cell Differentiation: The AffiVECTOR® pMX-GFP vector can be used to study stem cell differentiation by monitoring GFP expression as cells differentiate into various lineages. This aids in understanding the molecular mechanisms underlying stem cell differentiation.

Lineage Tracing: GFP expression enables lineage tracing in stem cell research, allowing scientists to track the fate of stem cells and their progeny over time, providing insights into cell lineage and development.

8. Oncogene Studies

Cancer Research: The retroviral vector system can be used to study oncogenes by integrating oncogene sequences along with GFP into the host genome. Researchers can then analyze the effects of oncogene expression on cell proliferation, transformation, and tumorigenesis.

Tumor Marker: GFP expression in cancer cells can serve as a tumor marker, facilitating the study of tumor growth, metastasis, and response to therapeutic interventions in vivo.

The AffiVECTOR® pMX-GFP Retroviral Vector is a versatile and powerful tool in molecular biology and biomedical research. Its applications span gene expression studies, cell line development, in vivo research, drug screening, CRISPR/Cas9 genome editing, stem cell research, and oncogene studies. The stable and long-term expression capabilities of the retroviral vector make it indispensable for various advanced research applications.