CACNA2D2 Protein (Transcript Variant 3) (Myc-DYKDDDDK Tag)
Quick Overview for CACNA2D2 Protein (Transcript Variant 3) (Myc-DYKDDDDK Tag) (ABIN2713006)
Target
See all CACNA2D2 ProteinsProtein Type
Origin
Source
Application
Purity
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Protein Characteristics
- Transcript Variant 3
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Purification tag / Conjugate
- This CACNA2D2 protein is labelled with Myc-DYKDDDDK Tag.
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Characteristics
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- Recombinant human CACNA2D2 (transcript variant 3) protein expressed in HEK293 cells.
- Produced with end-sequenced ORF clone
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Application Notes
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Recombinant human proteins can be used for:
Native antigens for optimized antibody production
Positive controls in ELISA and other antibody assays -
Comment
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The tag is located at the C-terminal.
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Restrictions
- For Research Use only
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Concentration
- 50 μg/mL
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Buffer
- 25 mM Tris.HCl, pH 7.3, 100 mM glycine, 10 % glycerol.
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Storage
- -80 °C
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Storage Comment
- Store at -80°C. Thaw on ice, aliquot to individual single-use tubes, and then re-freeze immediately. Only 2-3 freeze thaw cycles are recommended.
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- CACNA2D2 (Calcium Channel, Voltage-Dependent, alpha 2/delta Subunit 2 (CACNA2D2))
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Alternative Name
- Cacna2d2
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Background
- Calcium channels mediate the entry of calcium ions into the cell upon membrane polarization. This gene encodes the alpha-2/delta subunit of the voltage-dependent calcium channel complex. The complex consists of the main channel-forming subunit alpha-1, and auxiliary subunits alpha-2/delta, beta, and gamma. The auxiliary subunits function in the assembly and membrane localization of the complex, and modulate calcium currents and channel activation/inactivation kinetics. The subunit encoded by this gene undergoes post-translational cleavage to yield the extracellular alpha2 peptide and a membrane-anchored delta polypeptide. This subunit is a receptor for the antiepileptic drug, gabapentin. Mutations in this gene are associated with early infantile epileptic encephalopathy. Single nucleotide polymorphisms in this gene are correlated with increased sensitivity to opioid drugs. Alternative splicing results in multiple transcript variants encoding different isoforms.
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Molecular Weight
- 130.3
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NCBI Accession
- NP_001167522
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Pathways
- Skeletal Muscle Fiber Development
Target
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