CoraLite®594-conjugated Ataxin 2 Polyclonal antibody

• Featured Product
• KD/KO Validated

Ataxin 2 Polyclonal Antibody for FC (Intra), IF

Host / Isotype

Rabbit / IgG

Reactivity

human, mouse, rat

Applications

IF, FC (Intra)

Conjugate

CoraLite®594 Fluorescent Dye

Cat no : CL594-21776

Synonyms

ataxin 2, ATX2, ATXN2, FLJ46772, SCA2, TNRC13

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Validation Data Gallery

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  IF Staining of mouse brain using CL594-21776

  Immunofluorescent analysis of (4% PFA) fixed mouse brain tissue using CoraLite®594 Ataxin 2 antibody (CL594-21776) at dilution of 1:200.

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  FC experiment of HeLa using CL594-21776

  1X10^6 HeLa cells were intracellularly stained with 0.4 ug CoraLite®594 Anti-Human Ataxin 2 (CL594-21776) (red), or 0.4 ug Control Antibody. Cells were fixed with 4% PFA and permeabilized with Flow Cytometry Perm Buffer (PF00011-C).

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Tested Applications

• Positive IF detected in: mouse brain tissue
• Positive FC detected in: HeLa cells

Recommended dilution

• Immunofluorescence (IF): IF : 1:50-1:500
• Flow Cytometry (FC): FC : 0.40 ug per 10^6 cells in a 100 µl suspension

It is recommended that this reagent should be titrated in each testing system to obtain optimal results.

Sample-dependent, Check data in validation data gallery.

Product Information

CL594-21776 targets Ataxin 2 in IF, FC (Intra) applications and shows reactivity with human, mouse, rat samples.

• Tested Reactivity: human, mouse, rat
• Host / Isotype: Rabbit / IgG
• Class: Polyclonal
• Type: Antibody
• Immunogen: Ataxin 2 fusion protein Ag16470
• Full Name: ataxin 2
• Calculated Molecular Weight: 1313 aa, 140 kDa
• Observed Molecular Weight: 140-150 kDa
• GenBank Accession Number: BC114546
• Gene Symbol: ATXN2
• Gene ID (NCBI): 6311
• Conjugate: CoraLite®594 Fluorescent Dye
• Excitation/Emission Maxima Wavelengths: 588 nm / 604 nm
• Form: Liquid
• Purification Method: Antigen affinity purification
• Storage Buffer: PBS with 50% Glycerol, 0.05% Proclin300, 0.5% BSA, pH 7.3.
• Storage Conditions: Store at -20°C. Avoid exposure to light. Stable for one year after shipment. Aliquoting is unnecessary for -20^oC storage. 20ul sizes contain 0.1% BSA.

Background Information

Background

 ATXN2 (Ataxin-2) is a eukaryotic RNA‐binding protein that is conserved across species. It contains two LSm domains (RNA binding), a PAM2 motif (association with poly(A)-binding protein), and an N-terminal polyglutamine tract (PMID: 25027299). Ataxin-2 plays crucial roles at different stages of the regulation of posttranslational gene expression. ATXN2 is also directly implicated in the regulation of neural function by influencing specific molecular and cellular pathways. Genetic expansion of a poly‐glutamine tract in human ATXN2 has been linked to several neurodegenerative diseases, where it most likely acts through gain‐of‐function effects.

 What is the molecular weight of ATXN2? 

 The molecular weight varies from 12 to 140 kDa, depending on the isoform.

 What are the isoforms of ATXN2?

 ATXN2 has many isoforms, which differ significantly in length and domain composition.

 What is the subcellular localization of ATXN2?

 According to siRNA-based experiments, it is localized in the cytoplasmic compartment of normal cells, where it mostly associates with the Golgi apparatus and stress granules (PMID: 22508507).

 What is the tissue specificity of ATXN2?

 ATXN2 protein has been detected in various tissues; however, it is most highly expressed and studied in CNS. Significant amounts of this protein can also be detected in the liver and gallbladder.

 What is the molecular function of ATXN2?

 Ataxin-2 is involved in regulating various steps of mRNA translation, including poly‐A tailing, RNA stabilization, microRNA‐dependent gene silencing, and translational activation. All those functions are linked to its interactions with the poly(A)-binding protein. Ataxin-2 is involved in the formation of stress granules and P-bodies. Furthermore, genetic models of ATXN2 loss‐of‐function have underlined the importance of ATXN2 in mTOR signaling and cellular metabolism, which are all crucial for neural homeostasis (PMID: 29869836).

 What is ATXN2's involvement in disease?

 The N-terminal region of ATXN2 normally contains a polyQ stretch 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 (ALS or Lou Gehrig's disease) (PMID: 20740007). Long expansions of this tract result in spinocerebellar ataxia-2 (SCA2), an autosomal dominantly inherited, neurodegenerative disorder (PMID: 29427103). Genome-wide association studies indicate that loss-of-function mutations in this gene are associated with susceptibility to type I diabetes, obesity, and hypertension.