Human RORA (Nuclear Receptor Ror-Alpha) - Recombinant Protein
Beta LifeScience
SKU/CAT #: BLT-07405P
SDS-PAGE analysis of Human RORA (Nuclear Receptor Ror-Alpha) - Recombinant Protein, CAT# BLT-07405P, showing >90% purity under 15% SDS-PAGE (Reduced)
Human RORA (Nuclear Receptor Ror-Alpha) - Recombinant Protein
Beta LifeScience
SKU/CAT #: BLT-07405P
Regular price
$59500
$595.00
Sale price$44500
$445.00Save $150
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Quantity Pricing
| Pack Size | Price (USD) |
|---|---|
| 500 µg | $1,030 (Fall Promotion) |
| 1 mg | $1,870 (Fall Promotion) |
For direct online orders, quantity pricing will be displayed in cart when you add 5x100ug or 10x100ug
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Product Overview
| Product Name | Recombinant Human RAR Related Orphan Receptor Alpha (RORa) Protein |
| Product Overview | This recombinant human RAR Related Orphan Receptor Alpha (RORa) protein includes amino acids 164-401aa of the target gene is expressed in E.coli.The protein is supplied in lyophilized form and formulated in PBSprior to lyophilization. |
| Target Uniprot Id | P35398 |
| Recommended Name | Nuclear receptor ROR-alpha |
| Gene Name | RORA |
| Synonyms | ROR1; ROR2; NR1F1; ROR3; RZRA; Nuclear receptor subfamily 1 group F member 1; Retinoid-related orpha |
| Species | Human |
| Predicted Molecular Mass | 34 kDa |
| Expression System | E.coli |
| Expression Range | 164-401aa |
| Tag | N-6His |
| Purity | >90% |
| Formulation | Lyophilized |
| Buffer | PBS |
| Storage Condition | 1. Store at -20°C/-80°C upon receipt, aliquoting is necessary for mutiple use. 2. Avoid repeated freeze-thaw cycles. 3. Store working aliquots at 4°C for up to one week. 4. In general, protein in liquid form is stable for up to 6 months at -20°C/-80°C. Protein in lyophilized powder form is stable for up to 12 months at -20°C/-80°C. |
| Reconstitution Instruction | Briefly centrifuged the vial prior to opening to bring the contents to the bottom. Reconstitute protein in deionized sterile water to a concentration of 0.1-1.0 mg/mL. It is recommended to add 5-50% of glycerol (final concentration) and aliquot for long-term storage at -20°C/-80°C. The default final concentration of glycerol is 50%. |
| Applications | Positive Control; Immunogen; SDS-PAGE; WB |
| Research Area | Cancer |
| Target Function | Nuclear receptor that binds DNA as a monomer to ROR response elements (RORE) containing a single core motif half-site 5'-AGGTCA-3' preceded by a short A-T-rich sequence. Key regulator of embryonic development, cellular differentiation, immunity, circadian rhythm as well as lipid, steroid, xenobiotics and glucose metabolism. Considered to have intrinsic transcriptional activity, have some natural ligands like oxysterols that act as agonists (25-hydroxycholesterol) or inverse agonists (7-oxygenated sterols), enhancing or repressing the transcriptional activity, respectively. Recruits distinct combinations of cofactors to target genes regulatory regions to modulate their transcriptional expression, depending on the tissue, time and promoter contexts. Regulates genes involved in photoreceptor development including OPN1SW, OPN1SM and ARR3 and skeletal muscle development with MYOD1. Required for proper cerebellum development. Regulates SHH gene expression, among others, to induce granule cells proliferation as well as expression of genes involved in calcium-mediated signal transduction. Regulates the circadian expression of several clock genes, including CLOCK, ARNTL/BMAL1, NPAS2 and CRY1. Competes with NR1D1 for binding to their shared DNA response element on some clock genes such as ARNTL/BMAL1, CRY1 and NR1D1 itself, resulting in NR1D1-mediated repression or RORA-mediated activation of clock genes expression, leading to the circadian pattern of clock genes expression. Therefore influences the period length and stability of the clock. Regulates genes involved in lipid metabolism such as apolipoproteins APOA1, APOA5, APOC3 and PPARG. In liver, has specific and redundant functions with RORC as positive or negative modulator of expression of genes encoding phase I and phase II proteins involved in the metabolism of lipids, steroids and xenobiotics, such as CYP7B1 and SULT2A1. Induces a rhythmic expression of some of these genes. In addition, interplays functionally with NR1H2 and NR1H3 for the regulation of genes involved in cholesterol metabolism. Also involved in the regulation of hepatic glucose metabolism through the modulation of G6PC1 and PCK1. In adipose tissue, plays a role as negative regulator of adipocyte differentiation, probably acting through dual mechanisms. May suppress CEBPB-dependent adipogenesis through direct interaction and PPARG-dependent adipogenesis through competition for DNA-binding. Downstream of IL6 and TGFB and synergistically with RORC isoform 2, is implicated in the lineage specification of uncommitted CD4(+) T-helper (T(H)) cells into T(H)17 cells, antagonizing the T(H)1 program. Probably regulates IL17 and IL17F expression on T(H) by binding to the essential enhancer conserved non-coding sequence 2 (CNS2) in the IL17-IL17F locus. Involved in hypoxia signaling by interacting with and activating the transcriptional activity of HIF1A. May inhibit cell growth in response to cellular stress. May exert an anti-inflammatory role by inducing CHUK expression and inhibiting NF-kappa-B signaling. |
| Subcellular Location | Nucleus. |
| Protein Family | Nuclear hormone receptor family, NR1 subfamily |
| Tissue Specificity | Widely expressed in a number of tissues. Expressed in both regulatory T-cells (Treg) and effector T-cells (Teff). Isoform 4: Highly expressed in the central nervous system, including in the cerebellum. |
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