PRKAR2A-CACNA1D Gene Fusion FISH Probe
Add to Cart
Catalog: |
GFFP-PRKAR2A/CACNA1D-09214 |
Classification: |
Gene Fusion FISH Probes |
Description: |
The PRKAR2A-CACNA1D Gene Fusion FISH Probecan detect the fusion of PRKAR2A and CACNA1D 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: |
PRKAR2A-CACNA1D 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 |
Calcium Voltage-gated Channel Subunit Alpha1 D |
Gene Summary 1 |
Voltage-dependent calcium channels mediate the entry of calcium ions into excitable cells, and are also involved in a variety of calcium-dependent processes, including muscle contraction, hormone or neurotransmitter release, and gene expression. Calcium channels are multisubunit complexes composed of alpha-1, beta, alpha-2/delta, and gamma subunits. The channel activity is directed by the pore-forming alpha-1 subunit, whereas the others act as auxiliary subunits regulating this activity. The distinctive properties of the calcium channel types are related primarily to the expression of a variety of alpha-1 isoforms, namely alpha-1A, B, C, D, E, and S. This gene encodes the alpha-1D subunit. Several transcript variants encoding different isoforms have been found for this gene. [provided by RefSeq, Dec 2012] |
Chromosome 1 |
Chromosome 3 |
Locus 1 |
3p21.1 |
Coordinates 1 |
This gene maps to 53529030-53846492 in GRCh37 coordinates. |
Gene Name 2 |
Protein Kinase CAMP-dependent Type II Regulatory Subunit Alpha |
Gene Summary 2 |
cAMP is a signaling molecule important for a variety of cellular functions. cAMP exerts its effects by activating the cAMP-dependent protein kinase, which transduces the signal through phosphorylation of different target proteins. The inactive kinase holoenzyme is a tetramer composed of two regulatory and two catalytic subunits. cAMP causes the dissociation of the inactive holoenzyme into a dimer of regulatory subunits bound to four cAMP and two free monomeric catalytic subunits. Four different regulatory subunits and three catalytic subunits have been identified in humans. The protein encoded by this gene is one of the regulatory subunits. This subunit can be phosphorylated by the activated catalytic subunit. It may interact with various A-kinase anchoring proteins and determine the subcellular localization of cAMP-dependent protein kinase. This subunit has been shown to regulate protein transport from endosomes to the Golgi apparatus and further to the endoplasmic reticulum (ER). [provided by RefSeq, Jul 2008] |
Chromosome 2 |
Chromosome3 |
Locus 2 |
3p21.31 |
Coordinates 2 |
This gene maps to 48788092-48885270 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-PRKAR2A/CACNA1D-09214-RERE |
599nm;599nm |
580nm;580nm |
|
2 |
RE; OR
|
GFFP-PRKAR2A/CACNA1D-09214-REOR |
599nm;573nm |
580nm;548nm |
|
3 |
RE; GO
|
GFFP-PRKAR2A/CACNA1D-09214-REGO |
599nm;551nm |
580nm;525nm |
|
4 |
RE; GR
|
GFFP-PRKAR2A/CACNA1D-09214-REGR |
599nm;515nm |
580nm;491nm |
|
5 |
RE; AQ
|
GFFP-PRKAR2A/CACNA1D-09214-REAQ |
599nm;467nm |
580nm;418nm |
|
6 |
OR; RE
|
GFFP-PRKAR2A/CACNA1D-09214-ORRE |
573nm;599nm |
548nm;580nm |
|
7 |
OR; OR
|
GFFP-PRKAR2A/CACNA1D-09214-OROR |
573nm;573nm |
548nm;548nm |
|
8 |
OR; GO
|
GFFP-PRKAR2A/CACNA1D-09214-ORGO |
573nm;551nm |
548nm;525nm |
|
9 |
OR; GR
|
GFFP-PRKAR2A/CACNA1D-09214-ORGR |
573nm;515nm |
548nm;491nm |
|
10 |
OR; AQ
|
GFFP-PRKAR2A/CACNA1D-09214-ORAQ |
573nm;467nm |
548nm;418nm |
|
11 |
GO; RE
|
GFFP-PRKAR2A/CACNA1D-09214-GORE |
551nm;599nm |
525nm;580nm |
|
12 |
GO; OR
|
GFFP-PRKAR2A/CACNA1D-09214-GOOR |
551nm;573nm |
525nm;548nm |
|
13 |
GO; GO
|
GFFP-PRKAR2A/CACNA1D-09214-GOGO |
551nm;551nm |
525nm;525nm |
|
14 |
GO; GR
|
GFFP-PRKAR2A/CACNA1D-09214-GOGR |
551nm;515nm |
525nm;491nm |
|
15 |
GO; AQ
|
GFFP-PRKAR2A/CACNA1D-09214-GOAQ |
551nm;467nm |
525nm;418nm |
|
16 |
GR; RE
|
GFFP-PRKAR2A/CACNA1D-09214-GRRE |
515nm;599nm |
491nm;580nm |
|
17 |
GR; OR
|
GFFP-PRKAR2A/CACNA1D-09214-GROR |
515nm;573nm |
491nm;548nm |
|
18 |
GR; GO
|
GFFP-PRKAR2A/CACNA1D-09214-GRGO |
515nm;551nm |
491nm;525nm |
|
19 |
GR; GR
|
GFFP-PRKAR2A/CACNA1D-09214-GRGR |
515nm;515nm |
491nm;491nm |
|
20 |
GR; AQ
|
GFFP-PRKAR2A/CACNA1D-09214-GRAQ |
515nm;467nm |
491nm;418nm |
|
21 |
AQ; RE
|
GFFP-PRKAR2A/CACNA1D-09214-AQRE |
467nm;599nm |
418nm;580nm |
|
22 |
AQ; OR
|
GFFP-PRKAR2A/CACNA1D-09214-AQOR |
467nm;573nm |
418nm;548nm |
|
23 |
AQ; GO
|
GFFP-PRKAR2A/CACNA1D-09214-AQGO |
467nm;551nm |
418nm;525nm |
|
24 |
AQ; GR
|
GFFP-PRKAR2A/CACNA1D-09214-AQGR |
467nm;515nm |
418nm;491nm |
|
25 |
AQ; AQ
|
GFFP-PRKAR2A/CACNA1D-09214-AQAQ |
467nm;467nm |
418nm;418nm |
|
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