4T1 In Vitro Reporter Gene (β-glucuronidase) Assay
CAT#: ITS-1022-YF520
Target Cell Organism: Mouse
Target Cell Name: 4T1
Assay Type: High-throughput Screening, High Content Screening and Reporter Gene Assays
Assay Overview
This assay is to provide 4T1-based In Vitro Reporter Gene (β-glucuronidase) Assay to accelerate our client's oncology projects. The assay will be customized according to the specific requirements. Please contact our scientists to discuss more details.
Target Cell Name
4T1
Target Cell Organism
Mouse
Target Cell Background
4T1 is a breast cancer cell line derived from the mammary gland tissue of a mouse BALB/c strain. 4T1 cells are epithelial and are resistant to 6-thioguanine. In preclinical research, 4T1 cells have been used to study breast cancer metastasis as they can metastasize to the lung, liver, lymph nodes, brain and bone.
Related Diseases
Breast Cancer
Research Area
Oncology
Assay Name
In Vitro Reporter Gene (β-glucuronidase) Assay
Short Description
4T1-cell based In Vitro Reporter Gene (β-glucuronidase) Assay
Assay Description
Reporter gene assays have become a valuable technique for studying gene expression by both cis- and trans-acting regulatory factors. The action of a reporter gene is evaluated in a reporter gene assay and a reporter gene construct normally comprises of a target regulatory DNA sequence (usually a major in a cancer pathway) to be analyzed, sequence for the reported gene and a sequence for functional mRNA in an expression vector. The expression vector can be transfected into the desired cell type. After transfection of the vector, the effects on a drug on the expression of target gene can be evaluated. The ideal reported gene activity should detect with high sensitivity over any endogenous gene expression. Reporter gene systems permit the use of cancer pathway-specific or developmentally regulated regulatory DNA sequences as markers to analyze gene expression in specific pathways associated with molecular mechanisms of cancer.
Assay Reporter
β-glucuronidase
Assay Type
High-throughput Screening, High Content Screening and Reporter Gene Assays