Human Somatostatin Receptor Type 2 (SSTR2) Protein

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Description
Human Somatostatin Receptor Type 2 (SSTR2) Protein is a recombinant Human protein produced in a Mammalian cell expression system.
Documents del producto
Product specifications
Category | Proteins and Peptides |
Immunogen Target | Somatostatin Receptor Type 2 (SSTR2) |
Host | Mammalian cells |
Origin | Human |
Conjugation | Unconjugated |
Observed MW | Molecular Weight: Calculated MW: 35.19 kDa Sequence Fragment: Asn304-Ile369 Tag: N-terminal Fc tag |
Expression | Recombinant |
Purity | > 90% (SDS-PAGE) |
Size 1 | 100 µg |
Size 2 | 1 mg |
Form | Lyophilized Reconstitute in sterile water to produce a stock solution. |
Tested Applications | ELISA, WB, SDS-PAGE |
Buffer | Prior to lyophilization: PBS pH 7.4, 1 mM EDTA, 4% Trehalose, 1% Mannitol. |
Availability | Shipped within 5-12 working days. |
Storage | Store at 2-8 °C if the entire vial will be used within 1 week. Aliquot and store at -20 °C for long-term storage. Avoid repeated freeze-thaw cycles. |
Dry Ice | No |
UniProt ID | P30874 |
Alias | SSTR2,somatotropin release-inhibiting factor receptor,SRIF-1,SST2 |
Background | Protein SSTR2 |
Note | This product is for research use only. This product is shipped with ice packs. Not for human consumption, cosmetic, therapeutic or diagnostic use. |
Descripción
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SSTR2 antibody
Receptor for somatostatin-14 and-28. This receptor is coupled via pertussis toxin sensitive G proteins to inhibition of adenylyl cyclase. In addition it stimulates phosphotyrosine phosphatase and PLC via pertussis toxin insensitive as well as sensitive G proteins. Inhibits calcium entry by suppressing voltage-dependent calcium channels. Acts as the functionally dominant somatostatin receptor in pancreatic alpha-and beta-cells where it mediates the inhibitory effect of somatostatin-14 on hormone secretion. Inhibits cell growth through enhancement of MAPK1 and MAPK2 phosphorylation and subsequent up-regulation of CDKN1B. Stimulates neuronal migration and axon outgrowth and may participate in neuron development and maturation during brain development. Mediates negative regulation of insulin receptor signaling through PTPN6. Inactivates SSTR3 receptor function following heterodimerization.
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