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VPS33A-ATXN2 Gene Fusion FISH Probe

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Catalog: GFFP-VPS33A/ATXN2-13098
Classification: Gene Fusion FISH Probes
Description: The VPS33A-ATXN2 Gene Fusion FISH Probecan detect the fusion of VPS33A and ATXN2 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: VPS33A-ATXN2 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 Ataxin 2
Gene Summary 1 This gene belongs to a group of genes that is associated with microsatellite-expansion diseases, a class of neurological and neuromuscular disorders caused by expansion of short stretches of repetitive DNA. The protein encoded by this gene has two globular domains near the N-terminus, one of which contains a clathrin-mediated trans-Golgi signal and an endoplasmic reticulum exit signal. The encoded cytoplasmic protein localizes to the endoplasmic reticulum and plasma membrane, is involved in endocytosis, and modulates mTOR signals, modifying ribosomal translation and mitochondrial function. The N-terminal region of the protein contains a polyglutamine tract of 14-31 residues that can be expanded in the pathogenic state to 32-200 residues. Intermediate length expansions of this tract increase susceptibility to amyotrophic lateral sclerosis, while long expansions of this tract result in spinocerebellar ataxia-2, an autosomal-dominantly inherited, neurodegenerative disorder. Genome-wide association studies indicate that loss-of-function mutations in this gene may be associated with susceptibility to type I diabetes, obesity and hypertension. Alternative splicing results in multiple transcript variants. [provided by RefSeq, Nov 2016]
Chromosome 1 Chromosome 12
Locus 1 12q24.12
Coordinates 1 This gene maps to 111890017-112037480 in GRCh37 coordinates.
Gene Name 2 VPS33A, CORVET/HOPS Core Subunit
Gene Summary 2 This gene encodes a tethering protein and a core subunit of the homotypic fusion and protein sorting (HOPS) complex. The HOPS complex and a second endosomal tethering complex called the class C core vacuole/endosome tethering (CORVET) complex, perform diverse functions in endocytosis including membrane tethering, RabGTPase interaction, activation and proofreading of synaptic-soluble N-ethylmaleimide-sensitive factor attachment receptor (SNARE) assembly to drive membrane fusion, and endosome-to-cytoskeleton attachment. The HOPS complex controls endosome maturation as well as endosome traffic to the lysosome. This complex is essential for vacuolar fusion and is required for adaptor protein complex 3-dependent transport from the golgi to the vacuole. The encoded protein belongs to the Sec1/Munc18 (SM) family of SNARE-mediated membrane fusion regulators. Naturally occurring mutations in this gene are associated with a novel mucopolysaccharidosis-like disease. [provided by RefSeq, Apr 2017]
Chromosome 2 Chromosome12
Locus 2 12q24.31
Coordinates 2 This gene maps to 122716093-122751068 in GRCh37 coordinates.
Associated Diseases Brain Lower Grade Glioma
Species Human

Order Sheet

Number Dye Color Order Name Absorbance Maximum Emission Maximum Add to Cart
1 RE; RE GFFP-VPS33A/ATXN2-13098-RERE 599nm;599nm 580nm;580nm
2 RE; OR GFFP-VPS33A/ATXN2-13098-REOR 599nm;573nm 580nm;548nm
3 RE; GO GFFP-VPS33A/ATXN2-13098-REGO 599nm;551nm 580nm;525nm
4 RE; GR GFFP-VPS33A/ATXN2-13098-REGR 599nm;515nm 580nm;491nm
5 RE; AQ GFFP-VPS33A/ATXN2-13098-REAQ 599nm;467nm 580nm;418nm
6 OR; RE GFFP-VPS33A/ATXN2-13098-ORRE 573nm;599nm 548nm;580nm
7 OR; OR GFFP-VPS33A/ATXN2-13098-OROR 573nm;573nm 548nm;548nm
8 OR; GO GFFP-VPS33A/ATXN2-13098-ORGO 573nm;551nm 548nm;525nm
9 OR; GR GFFP-VPS33A/ATXN2-13098-ORGR 573nm;515nm 548nm;491nm
10 OR; AQ GFFP-VPS33A/ATXN2-13098-ORAQ 573nm;467nm 548nm;418nm
11 GO; RE GFFP-VPS33A/ATXN2-13098-GORE 551nm;599nm 525nm;580nm
12 GO; OR GFFP-VPS33A/ATXN2-13098-GOOR 551nm;573nm 525nm;548nm
13 GO; GO GFFP-VPS33A/ATXN2-13098-GOGO 551nm;551nm 525nm;525nm
14 GO; GR GFFP-VPS33A/ATXN2-13098-GOGR 551nm;515nm 525nm;491nm
15 GO; AQ GFFP-VPS33A/ATXN2-13098-GOAQ 551nm;467nm 525nm;418nm
16 GR; RE GFFP-VPS33A/ATXN2-13098-GRRE 515nm;599nm 491nm;580nm
17 GR; OR GFFP-VPS33A/ATXN2-13098-GROR 515nm;573nm 491nm;548nm
18 GR; GO GFFP-VPS33A/ATXN2-13098-GRGO 515nm;551nm 491nm;525nm
19 GR; GR GFFP-VPS33A/ATXN2-13098-GRGR 515nm;515nm 491nm;491nm
20 GR; AQ GFFP-VPS33A/ATXN2-13098-GRAQ 515nm;467nm 491nm;418nm
21 AQ; RE GFFP-VPS33A/ATXN2-13098-AQRE 467nm;599nm 418nm;580nm
22 AQ; OR GFFP-VPS33A/ATXN2-13098-AQOR 467nm;573nm 418nm;548nm
23 AQ; GO GFFP-VPS33A/ATXN2-13098-AQGO 467nm;551nm 418nm;525nm
24 AQ; GR GFFP-VPS33A/ATXN2-13098-AQGR 467nm;515nm 418nm;491nm
25 AQ; AQ GFFP-VPS33A/ATXN2-13098-AQAQ 467nm;467nm 418nm;418nm

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