GL261 In Vitro Comparative Genomic Hybridization (CGH) Assay

CAT#: ITS-1022-YF292
Target Cell Organism: Mouse
Target Cell Alternative Name: Glioma 261
Target Cell Name: GL261
Assay Type: Genome Alteration Assays
Assay Overview
This assay is to provide GL261-based In Vitro Comparative Genomic Hybridization (CGH) 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
GL261
Target Cell Organism
Mouse
Target Cell Background
Glioma 261 (GL261) is a frequently used murine glioma model. It was induced via intracranial injection of methylcholanthrene followed by serial intracranial and subcutaneous transplantations of tumor fragments into syngeneic C57BL/6 mice. By the mid-1990s, multiple groups had established a permanent cell line from the tumor.
Target Cell Alternative Name
Glioma 261
Related Diseases
Glioma
Research Area
Oncology
Assay Name
In Vitro Comparative Genomic Hybridization (CGH) Assay
Short Description
GL261-cell based In Vitro Comparative Genomic Hybridization (CGH) Assay
Assay Description
CGH is another popular cytogenetic technique, which is used to analyze copy number variations in genomes. In this technique, DNA in the reference sample (tumors) is first labeled with fluorochromes and allowed to hybridize with normal DNA. Human Cot-1 DNA is used to inhibit non-specific hybridization in this technique. Analyzing the ratio between fluorescence signal intensities of labeled DNA in samples and references can be plotted for each chromosome, permitting identification of possible copy number changes. CGH does not give much information about gene dosages and it is reported to be insensitive to structural abnormalities where copy number is not altered.
Assay Type
Genome Alteration Assays
Assay Type Details
Aberrant or somatic mutations are more commonly found in the DNA of cancer cells compared to normal cells. There is an equilibrium that exists between DNA damage and repair in normal cells. However, in cancer cells these events are disturbed, resulting in mutations and genomic instability. Genomic instability in cancer cells causes chromosomal aberrations, microsatellite instability, aneuploidy and uncontrolled gene amplifications and genetic instability in cancer cells are mainly due to point mutations or chromosomal aberrations such as insertions, deletions and translocation, resulting in mutated proteins.
For Research Use Only | Not For Clinical Use
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