SKU: AFG-CBL-182

AffiVECTOR® pMXs-IRES-Bsd Retroviral Vector

Vendor AffiGEN
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AffiVECTOR® pMXs-IRES-Bsd Retroviral Vector

Introducing the AffiVECTOR® pMXs-IRES-Bsd Retroviral Vector - a powerful tool for gene delivery and expression studies. With high transduction efficiency and compatibility with a variety of cell types, this vector offers researchers a reliable and versatile solution. Benefit from its unique design for optimal results in your experiments.

AffiVECTOR® pMXs-IRES-Bsd Retroviral Vector: Technical Applications

1. Gene Expression Studies

Internal Ribosome Entry Site (IRES): The pMXs-IRES-Bsd vector features an IRES element, allowing for the co-expression of a gene of interest and a selectable marker (Blasticidin resistance) from a single mRNA transcript. This ensures coordinated expression of both genes, facilitating studies where consistent expression levels are crucial.

Blasticidin Resistance: The Bsd gene confers resistance to Blasticidin, which can be used as a selection marker. Cells successfully transduced with the vector can be selected and maintained using Blasticidin, ensuring only transduced cells survive and proliferate.

2. Retroviral Transduction

Stable Integration: The retroviral nature of the pMXs-IRES-Bsd vector allows for stable integration into the host genome, providing long-term expression of the inserted genes. This is particularly useful for experiments requiring continuous gene expression over extended periods.

Efficient Transduction: Retroviral vectors are efficient at transducing dividing cells, making this vector suitable for a variety of cell types, especially those with high proliferation rates such as cancer cells and stem cells.

3. Cell Line Development

Selection Marker: The Bsd gene provides a straightforward means to select for successfully transduced cells. By applying Blasticidin to the culture, non-transduced cells are eliminated, leaving a pure population of transduced cells.

Dual Expression: The IRES element allows for the simultaneous expression of a gene of interest along with Blasticidin resistance. This is beneficial in creating cell lines that express therapeutic or experimental genes while being easily selectable.

4. In Vivo Applications

Animal Models: The pMXs-IRES-Bsd vector can be used to generate transgenic animal models. The stable integration and selectable marker facilitate the creation and maintenance of animal models for studying gene function, disease mechanisms, and therapeutic interventions.

Tissue-specific Studies: Incorporating tissue-specific promoters upstream of the gene of interest enables targeted gene expression in specific tissues or organs. This is valuable for studying the roles of specific genes in different physiological contexts.

5. Drug Screening and Development

Assay Development: Stable cell lines expressing the gene of interest and Blasticidin resistance can be used in high-throughput screening assays. The selectable marker ensures that only transduced cells are analyzed, improving the reliability of the assay results.

Therapeutic Validation: This vector can be used to validate potential therapeutic genes by observing their effects in stably transduced cells. Researchers can monitor gene expression, cell viability, and other relevant parameters in response to drug treatments.

6. CRISPR/Cas9 Genome Editing

Co-expression of CRISPR Components: The IRES element allows for the co-expression of CRISPR/Cas9 components along with a selectable marker. This facilitates the creation of stable cell lines for genome editing studies, ensuring efficient and uniform expression of the necessary components.

Selection of Edited Cells: The Blasticidin resistance marker allows for the selection of cells that have been successfully transduced and potentially edited by CRISPR/Cas9, streamlining the process of identifying and expanding edited cell populations.

7. Stem Cell Research

Stable Gene Expression: The pMXs-IRES-Bsd vector can be used to study gene function in stem cells by providing stable expression of the gene of interest. This is crucial for long-term studies on stem cell differentiation and lineage tracing.

Selection of Transduced Stem Cells: The selectable marker allows for the efficient selection of transduced stem cells, ensuring that only cells with the desired genetic modifications are analyzed and expanded.

8. Oncogene and Tumor Suppressor Studies

Cancer Research: This vector can be used to study oncogenes or tumor suppressor genes by co-expressing these genes with a selectable marker. Researchers can investigate the effects of these genes on cell proliferation, transformation, and tumorigenesis.

Drug Resistance Studies: By incorporating drug resistance genes along with oncogenes or tumor suppressors, researchers can study the mechanisms of drug resistance and identify potential targets for overcoming resistance in cancer therapy.

The AffiVECTOR® pMXs-IRES-Bsd Retroviral Vector is a versatile tool in molecular biology and biomedical research, enabling stable gene expression, efficient selection, and diverse applications across gene expression studies, cell line development, in vivo research, drug screening, CRISPR/Cas9 genome editing, stem cell research, and cancer studies. Its dual expression capability and stable integration make it an invaluable resource for advanced research applications.