CCRF-CEM In Vitro Restriction Landmark Genome Scanning (RLGS) Assay
CAT#: ITS-1122-YF5123
Target Cell Organism: Human
Target Cell Alternative Name: CCRF CEM
Target Cell Name: CCRF-CEM
Assay Type: Genome Alteration Assays
Assay Overview
This assay is to provide CCRF-CEM-based In Vitro Restriction Landmark Genome Scanning (RLGS) 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
CCRF-CEM
Target Cell Organism
Human
Target Cell Background
CCRF-CEM [CCRF CEM] are human T lymphoblasts isolated from the peripheral blood of a female, Caucasian 4-year-old with acute lymphoblastic leukemia (ALL). This cell line is used for immuno-oncology and immunology research.
Target Cell Alternative Name
CCRF CEM
Related Diseases
Acute Lymphoblastic Leukemia; ALL
Research Area
Oncology
Assay Name
In Vitro Restriction Landmark Genome Scanning (RLGS) Assay
Short Description
CCRF-CEM-cell based In Vitro Restriction Landmark Genome Scanning (RLGS) Assay
Assay Description
Restriction landmark genome scanning is a technique used to detect genome copy number differences, mutations and gene polymorphisms. In this technique, genome is first digested with a series of restriction enzymes and the resulting fragments are labeled using radioactive isotopes. After labeling, DNA is again digested with another set of restriction enzymes and allowed to separate electrophoretically. Finally, labeled DNA fragments are then detected using autoradiography.
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.