PTEN-CTNNA3 Gene Fusion FISH Probe
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| Catalog: |
GFFP-PTEN/CTNNA3-09419 |
| Classification: |
Gene Fusion FISH Probes |
| Description: |
The PTEN-CTNNA3 Gene Fusion FISH Probecan detect the fusion of PTEN and CTNNA3 genes. Our product usually consists of a combination of reagents, which consists of a probe with a selected dye color and a hybridization reagent. We offer a variety of dye color combinations for FISH probes for gene fusions. This product has been verified in both interphase nuclei and metaphase spreads of normal peripheral blood. This is key quality control, you can trust our quality. |
| Category: |
Gene Fusion FISH Probes |
| Application: |
PTEN-CTNNA3 Gene Fusion FISH Probe can be used for chromosomal diagnosis to determine gene fusion phenomena associated with diseases such as cancer. You can confirm this in "Associated Diseases" in the product information. This product has been verified in both interphase nuclei and metaphase spreads of normal peripheral blood. This is key quality control, you can trust our quality. |
| Probe Kits Volume (µL): |
40 μL |
| Quantity: |
20 Tests |
| Hybridization Solution (µL): |
200 μL |
| Turnaround Time: |
7-10 Business Days |
| Shipping Time: |
1-2 Day Expedited Shipping |
| Storage Conditions: |
Store at -20℃ and avoid light; |
| Shipping Conditions: |
-20℃ |
Gene Details
| Gene Name 1 |
Phosphatase And Tensin Homolog |
| Gene Summary 1 |
This gene was identified as a tumor suppressor that is mutated in a large number of cancers at high frequency. The protein encoded by this gene is a phosphatidylinositol-3,4,5-trisphosphate 3-phosphatase. It contains a tensin like domain as well as a catalytic domain similar to that of the dual specificity protein tyrosine phosphatases. Unlike most of the protein tyrosine phosphatases, this protein preferentially dephosphorylates phosphoinositide substrates. It negatively regulates intracellular levels of phosphatidylinositol-3,4,5-trisphosphate in cells and functions as a tumor suppressor by negatively regulating AKT/PKB signaling pathway. The use of a non-canonical (CUG) upstream initiation site produces a longer isoform that initiates translation with a leucine, and is thought to be preferentially associated with the mitochondrial inner membrane. This longer isoform may help regulate energy metabolism in the mitochondria. A pseudogene of this gene is found on chromosome 9. Alternative splicing and the use of multiple translation start codons results in multiple transcript variants encoding different isoforms. [provided by RefSeq, Feb 2015] |
| Chromosome 1 |
Chromosome 10 |
| Locus 1 |
10q23.31 |
| Coordinates 1 |
This gene maps to 89623194-89728532 in GRCh37 coordinates. |
| Gene Name 2 |
Catenin Alpha 3 |
| Gene Summary 2 |
This gene encodes a protein that belongs to the vinculin/alpha-catenin family. The encoded protein plays a role in cell-cell adhesion in muscle cells. Mutations in this gene are associated with arrhythmogenic right ventricular dysplasia, familial 13. Alternative splicing results in multiple transcript variants. [provided by RefSeq, Mar 2014] |
| Chromosome 2 |
Chromosome10 |
| Locus 2 |
10q21.3 |
| Coordinates 2 |
This gene maps to 67679724-69455949 in GRCh37 coordinates. |
| Associated Diseases |
Prostate Adenocarcinoma |
| Species |
Human |
Dye Colors:
RE
RE
RE
OR
RE
GO
RE
GR
RE
AQ
OR
RE
OR
OR
OR
GO
OR
GR
OR
AQ
GO
RE
GO
OR
GO
GO
GO
GR
GO
AQ
GR
RE
GR
OR
GR
GO
GR
GR
GR
AQ
AQ
RE
AQ
OR
AQ
GO
AQ
GR
AQ
AQ
Order Sheet
| Number |
Dye Color |
Order Name |
Absorbance Maximum |
Emission Maximum |
Add to Cart |
| 1 |
RE; RE
|
GFFP-PTEN/CTNNA3-09419-RERE |
599nm;599nm |
580nm;580nm |
|
| 2 |
RE; OR
|
GFFP-PTEN/CTNNA3-09419-REOR |
599nm;573nm |
580nm;548nm |
|
| 3 |
RE; GO
|
GFFP-PTEN/CTNNA3-09419-REGO |
599nm;551nm |
580nm;525nm |
|
| 4 |
RE; GR
|
GFFP-PTEN/CTNNA3-09419-REGR |
599nm;515nm |
580nm;491nm |
|
| 5 |
RE; AQ
|
GFFP-PTEN/CTNNA3-09419-REAQ |
599nm;467nm |
580nm;418nm |
|
| 6 |
OR; RE
|
GFFP-PTEN/CTNNA3-09419-ORRE |
573nm;599nm |
548nm;580nm |
|
| 7 |
OR; OR
|
GFFP-PTEN/CTNNA3-09419-OROR |
573nm;573nm |
548nm;548nm |
|
| 8 |
OR; GO
|
GFFP-PTEN/CTNNA3-09419-ORGO |
573nm;551nm |
548nm;525nm |
|
| 9 |
OR; GR
|
GFFP-PTEN/CTNNA3-09419-ORGR |
573nm;515nm |
548nm;491nm |
|
| 10 |
OR; AQ
|
GFFP-PTEN/CTNNA3-09419-ORAQ |
573nm;467nm |
548nm;418nm |
|
| 11 |
GO; RE
|
GFFP-PTEN/CTNNA3-09419-GORE |
551nm;599nm |
525nm;580nm |
|
| 12 |
GO; OR
|
GFFP-PTEN/CTNNA3-09419-GOOR |
551nm;573nm |
525nm;548nm |
|
| 13 |
GO; GO
|
GFFP-PTEN/CTNNA3-09419-GOGO |
551nm;551nm |
525nm;525nm |
|
| 14 |
GO; GR
|
GFFP-PTEN/CTNNA3-09419-GOGR |
551nm;515nm |
525nm;491nm |
|
| 15 |
GO; AQ
|
GFFP-PTEN/CTNNA3-09419-GOAQ |
551nm;467nm |
525nm;418nm |
|
| 16 |
GR; RE
|
GFFP-PTEN/CTNNA3-09419-GRRE |
515nm;599nm |
491nm;580nm |
|
| 17 |
GR; OR
|
GFFP-PTEN/CTNNA3-09419-GROR |
515nm;573nm |
491nm;548nm |
|
| 18 |
GR; GO
|
GFFP-PTEN/CTNNA3-09419-GRGO |
515nm;551nm |
491nm;525nm |
|
| 19 |
GR; GR
|
GFFP-PTEN/CTNNA3-09419-GRGR |
515nm;515nm |
491nm;491nm |
|
| 20 |
GR; AQ
|
GFFP-PTEN/CTNNA3-09419-GRAQ |
515nm;467nm |
491nm;418nm |
|
| 21 |
AQ; RE
|
GFFP-PTEN/CTNNA3-09419-AQRE |
467nm;599nm |
418nm;580nm |
|
| 22 |
AQ; OR
|
GFFP-PTEN/CTNNA3-09419-AQOR |
467nm;573nm |
418nm;548nm |
|
| 23 |
AQ; GO
|
GFFP-PTEN/CTNNA3-09419-AQGO |
467nm;551nm |
418nm;525nm |
|
| 24 |
AQ; GR
|
GFFP-PTEN/CTNNA3-09419-AQGR |
467nm;515nm |
418nm;491nm |
|
| 25 |
AQ; AQ
|
GFFP-PTEN/CTNNA3-09419-AQAQ |
467nm;467nm |
418nm;418nm |
|
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