CCNY-BRAF Fusion FISH Probe

The CCNY-BRAF Fusion FISH Probe is used to confirm a fusion of the CCNY and BRAF genes. The fusion of the CCNY and BRAF genes has been associated with Thyroid Carcinoma. These probes are FISH confirmed on normal peripheral blood in both interphase nuclei and metaphase spreads before shipment. Typical turnaround time for this product is 7-14 days after purchase.

** This product is for in vitro and research use only. This product is not intended for diagnostic use.

Turnaround Time: 7-10 Business Days Shipping Time: 1-2 Day Expedited Shipping

Download Datasheet Download FISH Protocol Download Material Safety Data Sheet

SKU	Test Kits	Buffer
CCNY-BRAF-20-ORGR (Standard Design)	20 (40 μL)	200 μL
CCNY-BRAF-20-RERE	20 (40 μL)	200 μL
CCNY-BRAF-20-REOR	20 (40 μL)	200 μL
CCNY-BRAF-20-REGO	20 (40 μL)	200 μL
CCNY-BRAF-20-REGR	20 (40 μL)	200 μL
CCNY-BRAF-20-REAQ	20 (40 μL)	200 μL
CCNY-BRAF-20-ORRE	20 (40 μL)	200 μL
CCNY-BRAF-20-OROR	20 (40 μL)	200 μL
CCNY-BRAF-20-ORGO	20 (40 μL)	200 μL
CCNY-BRAF-20-ORAQ	20 (40 μL)	200 μL
CCNY-BRAF-20-GORE	20 (40 μL)	200 μL
CCNY-BRAF-20-GOOR	20 (40 μL)	200 μL
CCNY-BRAF-20-GOGO	20 (40 μL)	200 μL
CCNY-BRAF-20-GOGR	20 (40 μL)	200 μL
CCNY-BRAF-20-GOAQ	20 (40 μL)	200 μL
CCNY-BRAF-20-GRRE	20 (40 μL)	200 μL
CCNY-BRAF-20-GROR	20 (40 μL)	200 μL
CCNY-BRAF-20-GRGO	20 (40 μL)	200 μL
CCNY-BRAF-20-GRGR	20 (40 μL)	200 μL
CCNY-BRAF-20-GRAQ	20 (40 μL)	200 μL
CCNY-BRAF-20-AQRE	20 (40 μL)	200 μL
CCNY-BRAF-20-AQOR	20 (40 μL)	200 μL
CCNY-BRAF-20-AQGO	20 (40 μL)	200 μL
CCNY-BRAF-20-AQGR	20 (40 μL)	200 μL
CCNY-BRAF-20-AQAQ	20 (40 μL)	200 μL

BRAF Gene Summary

This gene encodes a protein belonging to the RAF family of serine/threonine protein kinases. This protein plays a role in regulating the MAP kinase/ERK signaling pathway, which affects cell division, differentiation, and secretion. Mutations in this gene, most commonly the V600E mutation, are the most frequently identified cancer-causing mutations in melanoma, and have been identified in various other cancers as well, including non-Hodgkin lymphoma, colorectal cancer, thyroid carcinoma, non-small cell lung carcinoma, hairy cell leukemia and adenocarcinoma of lung. Mutations in this gene are also associated with cardiofaciocutaneous, Noonan, and Costello syndromes, which exhibit overlapping phenotypes. A pseudogene of this gene has been identified on the X chromosome. [provided by RefSeq, Aug 2017]

Gene Name: B-Raf Proto-oncogene, Serine/threonine Kinase

Chromosome: CHR7: 140433812 -140624564

Locus: 7q34

CCNY Gene Summary

Cyclins, such as CCNY, control cell division cycles and regulate cyclin-dependent kinases (e.g., CDC2; MIM 116940) (Li et al., 2009 [PubMed 18060517]).[supplied by OMIM, May 2009]

Gene Name: Cyclin Y

Chromosome: CHR10: 35535952 -35860847

Locus: 10p11.21

Gene Diseases

The CCNY BRAF Fusion has been associated with the following diseases:

Disease Name
Thyroid Carcinoma

FISH Probe Protocols

Protocol, Procedure, or Form Name	Last Modified	Download

A FISH assay efficiently screens for BRAF gene rearrangements in pancreatic acinar-type neoplasms

BRAF rearrangements are found in about 20% of acinar-type neoplasms, and may serve as a potential treatment target. This study examined the efficacy of FISH versus NGS for detecting BRAF translocations in 31 acinar-type neoplasms. As part of FISH analysis, our BRAF break apart probes were used to detect BRAF rearrangements. The team found that, compared to NGS, FISH was highly sensitive, specific, and time- and cost-effective.

Alternative lengthening of telomeres, ATRX loss and H3_K27M mutations in histologically defined pilocytic astrocytoma with anaplasia

Pilocytic astrocytoma (PA) is a type of brain tumor. Certain molecular abnormalities can be indicative of PA such as alternative lengthening of telomeres or loss of ATRX. In many cases of PA, there is a duplication in the kinase domain of the BRAF gene called KIAA1549_BRAF. Red and green FISH probes were used to identify this BRAF gene duplication. The duplication was found to be present in 31% of the PA patients.

Atypical Spitzoid Neoplasms in Childhood: A Molecular and Outcome Study

Atypical spitzoid neoplasms (APNs) are primarily pediatric lesions characterized by their intermediate features; clinically and histopathologically, they fall somewhere between benign spitz nevi and malignant melanoma. The genetics of these tumors are still poorly understood. In this study, 34 APNs were analyzed using FISH and IHC. Our ALK, BRAF, and NTRK1 break-apart FISH probes were used to detect rearrangements of the genes .

Genomic Profiling of Primary Histiocytic Sarcoma Reveals Two Molecular Subgroups

Histiocytic sarcoma (HS) is a rare, aggressive cancer that can occur in the GI tract, skin and liver. This study analyzed 21 cases of HS using RNA sequencing, whole exome sequencing, and FISH. BAC FISH probes from Empire Genomics were used to detect NF1 (RP11-14206) and PTNP11 (RP11-748H13, RP11-9P8, RP11-90F3, RP11-660M3), while BRAF translocations were identified using our BRAF break-apart probe. The team found many abnormalities within the RAS-RAF-MAPK pathway in all 21 cases, with aberrations in NF1 (6/21), MAP2K1 (5/21), PTPN11 (4/21), BRAF (4/21), KRAS (4/21), NRAS (1/21) and LZTR1 (1/21).

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