Product Name: APCS Antibody
Species Reactivity: Human
Tested Applications: ELISA, IHC, WB
Applications: APCS antibody can be used for detection of APCS by ELISA at 1:62500. APCS antibody can be used for detection of APCS by western blot at 1.25 μg/mL, and HRP conjugated secondary antibody should be diluted 1:50,000 – 100,000.
User Note: Optimal dilutions for each application to be determined by the researcher.
Predicted Molecular Weight: 25 kDa
Immunogen: Antibody produced in rabbits immunized with a synthetic peptide corresponding a region of human APCS.
Host Species: Rabbit
Purification: Antibody is purified by protein A chromatography method.
Physical State: Lyophilized
CAS NO.: 579492-81-2
Product: Bax inhibitor peptide V5
Buffer: Antibody is lyophilized in PBS buffer with 2% sucrose. Add 100 μL of distilled water. Final antibody concentration is 1 mg/mL.
Concentration: 1 mg/ml
Storage Conditions: For short periods of storage (days) store at 4˚C. For longer periods of storage, store APCS antibody at -20˚C. As with any antibody avoid repeat freeze-thaw cycles.
Clonality: Polyclonal
Conjugate: Unconjugated
Alternate Names: APCS, MGC88159, PTX2, SAP, HEL-S-92n
Accession NO.: NP_001630
Protein Ino: 4502133
Official Symbol: APCS
Geneid: 325
Background: APCS is a glycoprotein, belonging to the pentraxin family of proteins, which has a characteristic pentameric organization. These family members have considerable sequence homology which is thought to be the result of gene duplication. The binding of the protein to proteins in the pathological amyloid cross-beta fold suggests its possible role as a chaperone. This protein is also thought to control the degradation of chromatin. It has been demonstrated that this protein binds to apoptotic cells at an early stage, which raises the possibility that it is involved in dealing with apoptotic cells in vivo.The protein encoded by this gene is a glycoprotein, belonging to the pentraxin family of proteins, which has a characteristic pentameric organization. These family members have considerable sequence homology which is thought to be the result of gene duplication. The binding of the encoded protein to proteins in the pathological amyloid cross-beta fold suggests its possible role as a chaperone. This protein is also thought to control the degradation of chromatin. It has been demonstrated that this protein binds to apoptotic cells at an early stage, which raises the possibility that it is involved in dealing with apoptotic cells in vivo. This gene has multiple polyadenylation sites.
PubMed ID:http://aac.asm.org/content/53/2/385.abstract