Ovarian Cancer FISH Probes
Ovarian Cancer FISH probes are specialized research tools designed to detect genetic abnormalities associated with ovarian cancer, a leading cause of cancer-related mortality among women. Utilizing fluorescence in situ hybridization (FISH) technology, these probes enable researchers to identify critical chromosomal alterations, such as amplifications of the MYC gene and deletions on chromosome 17p, which are significant for understanding the disease's progression and response to therapy. Our FISH probes provide valuable insights into the molecular landscape of ovarian cancer, facilitating a deeper understanding of its biology and aiding in the development of targeted therapeutic strategies to improve patient outcomes.
Description: The ERBB2/CEN17 FISH Probe is designed to detect the human ERBB2 gene, along with the number of ...
Description: The PAX8 FISH Probe from Creative Bioarray is designed to detect the human PAX8 gene located on ...
Description: The Zinc Finger protein 217 gene (ZNF217) functions as a transcription repressor for a variety of ...
Description: HMGA2 FISH Probe is specifically designed to detect amplifications and deletions of the HMGA2 gene. ...
Description: BRCA1 FISH Probe is specifically designed to detect copy number variations (CNVs) in the BRCA1 ...
Description: CCNE1/CEN 19 FISH Probe is expertly designed to detect amplifications and deletions of the CCNE1 ...
Description: KANSL1 FISH Probe is specifically designed to detect amplifications and deletions of the KANSL1 ...