NAPSA-CLCN3 Gene Fusion FISH Probe
Add to Cart
Catalog: |
GFFP-NAPSA/CLCN3-07558 |
Classification: |
Gene Fusion FISH Probes |
Description: |
The NAPSA-CLCN3 Gene Fusion FISH Probecan detect the fusion of NAPSA and CLCN3 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: |
NAPSA-CLCN3 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 |
Chloride Voltage-gated Channel 3 |
Gene Summary 1 |
This gene encodes a member of the voltage-gated chloride channel (ClC) family. The encoded protein is present in all cell types and localized in plasma membranes and in intracellular vesicles. It is a multi-pass membrane protein which contains a ClC domain and two additional C-terminal CBS (cystathionine beta-synthase) domains. The ClC domain catalyzes the selective flow of Cl- ions across cell membranes, and the CBS domain may have a regulatory function. This protein plays a role in both acidification and transmitter loading of GABAergic synaptic vesicles, and in smooth muscle cell activation and neointima formation. This protein is required for lysophosphatidic acid (LPA)-activated Cl- current activity and fibroblast-to-myofibroblast differentiation. The protein activity is regulated by Ca(2+)/calmodulin-dependent protein kinase II (CaMKII) in glioma cells. Multiple alternatively spliced transcript variants encoding different isoforms have been identified. [provided by RefSeq, Aug 2011] |
Chromosome 1 |
Chromosome 4 |
Locus 1 |
4q33 |
Coordinates 1 |
This gene maps to 170541671-170644338 in GRCh37 coordinates. |
Gene Name 2 |
Napsin A Aspartic Peptidase |
Gene Summary 2 |
This gene encodes a member of the peptidase A1 family of aspartic proteases. The encoded preproprotein is proteolytically processed to generate an activation peptide and the mature protease. The activation peptides of aspartic proteinases function as inhibitors of the protease active site. These peptide segments, or pro-parts, are deemed important for correct folding, targeting, and control of the activation of aspartic proteinase zymogens. The encoded protease may play a role in the proteolytic processing of pulmonary surfactant protein B in the lung and may function in protein catabolism in the renal proximal tubules. This gene has been described as a marker for lung adenocarcinoma and renal cell carcinoma. [provided by RefSeq, Feb 2016] |
Chromosome 2 |
Chromosome19 |
Locus 2 |
19q13.33 |
Coordinates 2 |
This gene maps to 50861733-50868931 in GRCh37 coordinates. |
Associated Diseases |
Lung 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-NAPSA/CLCN3-07558-RERE |
599nm;599nm |
580nm;580nm |
|
2 |
RE; OR
|
GFFP-NAPSA/CLCN3-07558-REOR |
599nm;573nm |
580nm;548nm |
|
3 |
RE; GO
|
GFFP-NAPSA/CLCN3-07558-REGO |
599nm;551nm |
580nm;525nm |
|
4 |
RE; GR
|
GFFP-NAPSA/CLCN3-07558-REGR |
599nm;515nm |
580nm;491nm |
|
5 |
RE; AQ
|
GFFP-NAPSA/CLCN3-07558-REAQ |
599nm;467nm |
580nm;418nm |
|
6 |
OR; RE
|
GFFP-NAPSA/CLCN3-07558-ORRE |
573nm;599nm |
548nm;580nm |
|
7 |
OR; OR
|
GFFP-NAPSA/CLCN3-07558-OROR |
573nm;573nm |
548nm;548nm |
|
8 |
OR; GO
|
GFFP-NAPSA/CLCN3-07558-ORGO |
573nm;551nm |
548nm;525nm |
|
9 |
OR; GR
|
GFFP-NAPSA/CLCN3-07558-ORGR |
573nm;515nm |
548nm;491nm |
|
10 |
OR; AQ
|
GFFP-NAPSA/CLCN3-07558-ORAQ |
573nm;467nm |
548nm;418nm |
|
11 |
GO; RE
|
GFFP-NAPSA/CLCN3-07558-GORE |
551nm;599nm |
525nm;580nm |
|
12 |
GO; OR
|
GFFP-NAPSA/CLCN3-07558-GOOR |
551nm;573nm |
525nm;548nm |
|
13 |
GO; GO
|
GFFP-NAPSA/CLCN3-07558-GOGO |
551nm;551nm |
525nm;525nm |
|
14 |
GO; GR
|
GFFP-NAPSA/CLCN3-07558-GOGR |
551nm;515nm |
525nm;491nm |
|
15 |
GO; AQ
|
GFFP-NAPSA/CLCN3-07558-GOAQ |
551nm;467nm |
525nm;418nm |
|
16 |
GR; RE
|
GFFP-NAPSA/CLCN3-07558-GRRE |
515nm;599nm |
491nm;580nm |
|
17 |
GR; OR
|
GFFP-NAPSA/CLCN3-07558-GROR |
515nm;573nm |
491nm;548nm |
|
18 |
GR; GO
|
GFFP-NAPSA/CLCN3-07558-GRGO |
515nm;551nm |
491nm;525nm |
|
19 |
GR; GR
|
GFFP-NAPSA/CLCN3-07558-GRGR |
515nm;515nm |
491nm;491nm |
|
20 |
GR; AQ
|
GFFP-NAPSA/CLCN3-07558-GRAQ |
515nm;467nm |
491nm;418nm |
|
21 |
AQ; RE
|
GFFP-NAPSA/CLCN3-07558-AQRE |
467nm;599nm |
418nm;580nm |
|
22 |
AQ; OR
|
GFFP-NAPSA/CLCN3-07558-AQOR |
467nm;573nm |
418nm;548nm |
|
23 |
AQ; GO
|
GFFP-NAPSA/CLCN3-07558-AQGO |
467nm;551nm |
418nm;525nm |
|
24 |
AQ; GR
|
GFFP-NAPSA/CLCN3-07558-AQGR |
467nm;515nm |
418nm;491nm |
|
25 |
AQ; AQ
|
GFFP-NAPSA/CLCN3-07558-AQAQ |
467nm;467nm |
418nm;418nm |
|
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