| Description | Enzymes extracted from mammalian testes (e.g., sheep testes) can hydrolyze mucopolysaccharides of the hyaluronic acid type. They may contain a suitable stabilizer. Potency: Minimum 3000 IU of hyaluronidase activity per milligram (of dry substance).ProductionAnimals used for producing hyaluronidase Enzymes extracted from mammalian testes (e.g., sheep testes) can hydrolyze mucopolysaccharides of the hyaluronic acid type. They may contain a suitable stabilizer. Potency: Minimum 3000 IU of hyaluronidase activity per milligram (of dry substance).ProductionAnimals used for producing hyaluronidase must meet the health requirements for animals intended for human consumption.Characteristics1.Appearance: White or yellowish-white, amorphous powder.2.Solubility: Soluble in water, almost insoluble in acetone and absolute ethanol.IdentificationA solution containing 100 IU of hyaluronidase in 1 mL of 9 g/L sodium chloride solution depolymerizes a 10 g/L sodium hyaluronate BRP solution at 20°C, resulting in a significant decrease in viscosity. Heating the hyaluronidase at 100°C for 30 minutes destroys this effect.Tests1.Appearance of Solution: The solution should be clear. Dissolve 0.10 g in water and dilute to 10 mL with the same solvent.2.pH: 4.5 to 7.5. Dissolve 30 mg in carbon dioxide-free water and dilute to 10 mL with the same solvent.3.Loss on Drying: Maximum 5.0%. Determine by drying 0.500 g at 60°C under a pressure not exceeding 670 Pa for 2 hours.4.Bacterial Endotoxins: ≤ 0.2 EU/IU.AssayThe activity of hyaluronidase is determined using a slope-ratio assay, by comparing the rate at which it hydrolyzes sodium hyaluronate BRP with the rate obtained using the International Standard or a reference preparation calibrated in International Units.Substrate SolutionIn a 25 mL conical flask, add 0.10 g of sodium hyaluronate BRP, then slowly add 20.0 mL of water at 4°C. The addition rate must be slow enough to allow the substrate particles to swell (approximately 5 minutes). Maintain at 4°C and stir for at least 12 hours. Store at 4°C and use within 4 days.For both the test solution and the reference solution, prepare the solutions and perform dilutions at 0°C to 4°C.1.Test Solution: Dissolve an appropriate amount of the substance in hyaluronidase diluent to obtain a solution containing 0.6 ± 0.3 IU of hyaluronidase per mL.2.Reference Solution: Dissolve an appropriate amount of hyaluronidase BRP in hyaluronidase diluent to obtain a solution containing 0.6 IU of hyaluronidase per mL.In a reaction vessel, mix 1.50 mL of phosphate buffer solution (pH 6.4) and 1.0 mL of the substrate solution, and equilibrate at 37 ± 0.1°C. At time t₀ = 0 (using the first timer), add 0.50 mL of the test solution containing E milligrams of the enzyme to be tested, mix well. Maintain the mixture at 37 ± 0.1°C using a suitable viscometer, record the flow time t using a second timer (with 0.1-second intervals), and perform multiple measurements over approximately 20 minutes (monitoring with the first timer). Use the following viscometer: microviscometer (DIN 51 562, Part 2), capillary type MII, with a viscometer constant of approximately 0.1 mm²/s².Repeat the above procedure using 0.50 mL of the reference solution containing hyaluronidase BRP. Calculate the viscosity ratio using the following expression:K = Viscometer constant (in mm²/s², indicated on the viscometer);t₂ = Flow time of the solution (in seconds);0.6915 = Kinematic viscosity of the buffer solution at 37°C (in mm²/s).Since the enzymatic reaction continues during the flow time measurement, the actual reaction time is equal to t₀ + t/2 (i.e., half of the flow time (t/2) is added to the initial measurement time t₀). Plot (ln η)⁻¹ as a function of the reaction time (t₀ + t/2) (in seconds); a linear relationship should be obtained. Calculate the slope (b) of the substance to be tested and the slope (bᵣ) of the reference preparation. Determine the specific activity in International Units per milligram using the following expression:A = Specific activity of hyaluronidase BRP (in International Units per milligram).Perform at least three complete sets of the procedure and calculate the average activity of the substance to be tested.StorageStore in a tightly closed container at a temperature of 2°C to 8°C. If the substance is sterile, the container should also be sterile and tamper-proof... Read More | C1q separated from C1r and C1s and from other stabilizing proteins tends to aggregate easily. Because it was isolated and studied in numerous research laboratories, many buffers have been used to stabilize concentrated C1q and prevent aggregation. About half of the scientists prefer high salt and C1q separated from C1r and C1s and from other stabilizing proteins tends to aggregate easily. Because it was isolated and studied in numerous research laboratories, many buffers have been used to stabilize concentrated C1q and prevent aggregation. About half of the scientists prefer high salt and the other prefer 40% glycerol in the storage buffer.C1q is purified from pooled normal human plasma. C1q is part of the C1 complex and this complex is the first complement component in the cascade referred to as the classical pathway of complement. C1 is actually a non-covalent assembly of three different proteins (C1q, C1r, and C1s) bound together in a calcium-dependent complex. C1q has six extended arms with domains at the end of each arm that bind to the Fc domains of immunoglobulins. When antibodies bind to antigens forming immune complexes they cluster allowing two or more of its six arms of C1q to bind to the Fc domains of antibodies such as IgG or IgM. The binding of multiple arms to immune complexes causes the two C1r proteins in the complex (protease zymogens) to auto-activate producing two C1r proteases that cleave and activate the two C1s protease zymogens in the complex. Activated C1s cleaves complement component C4 releasing C4a and initiating covalent attachment of C4b to the activating surface. Activated C1s also cleaves C2 and the larger fragment of C2 binds to the surface-attached C4b forming C4b,C2a which is the C3/C5 convertase of the classical pathway.Extinction Coeff.A₂₈₀ nm = 0.68 at 1.0 mg/ml for pure C1q Molecular weight:410,000 Da (18 chains)Preservative:None, 0.22 µm filtered.Source:Normal human serum (shown by certified tests to be negative for HBsAg, HTLV-I/II, STS, and for antibodies to HCV, HIV-1 and HIV-II).Physical Characteristics & StructureC1q is a high molecular weight complex of 18 polypeptide chains. Each of the six arms of C1q contains three chains, an A chain (26,000 daltons), a B chain (25,000 daltons) and a C chain (24,000 daltons). The three chains are coiled into a collagen-like triple helix over approximately half their length. Half of this collagen region forms a central core where all 18 chains come together. The chains are joined in this core by disulfides in the pattern A-B and C-C. There is a bend in the center of the collagen region allowing the arms to extend away from each other. Globular heads at the far ends of the collagen arms possess binding sites for Fc domains of immunoglobulins. C1 complex is composed of one C1q molecule (410,000 daltons), two C1r molecules (92,000 daltons) and two C1s molecules (86,000 daltons). The complex is stable in the presence of calcium, but easily dissociates if calcium is removed. When C1 is activated the C1r and C1s subunits are each cleaved into two chain molecules due to proteolytic activation. Thus, the SDS gel pattern of C1 is very complex. Function The biological functions of C1q are described above in the General Description and Physical Characteristics sections. C1q functional activity may be assayed using C1q-depleted serum and EA cells. These assays are extremely sensitive to C1q typically yielding 50% lysis with less than 2 ng C1q in assays measuring the lysis of EA cells. AssaysThe unit of classical pathway activity is the CH50. A similar unit, the C1qH50, is used to quantitate the activity of C1q. A C1qH50 unit is the amount of functional C1q needed to lyse 50% of 3×10^7 EA cells (antibody-sensitized sheep erythrocytes) when that amount of C1q is incubated with 5-20 µL of C1q-Dpl in GVB++ in a total volume of 500 µL for 30 min at 37℃. This amount of C1q indicates the sensitivity of the assay for C1q which is typically about 1 ng C1q with 10 µL C1q-Dpl. See the Certificate of Analysis for lot specific values.ApplicationsC1q is used to coat ELISA plates to capture and quantitate immune complexes in clinical samples. A number of commercial companies sell diagnostic kits for immune complex detection and quantitation. These kits are based on the ability of C1q to bind well to immune complexes, but to not bind significantly to monomeric immunoglobulins. GeneticsThe EMBL/Genbank cDNA accession numbers are: C1q A chain (P02745), C1q B chain (P02746), and C1q C chain (P02747). The genes for C1q chains A, B and C are all located on chromosome 1p in the order A-C-B. DeficienciesDeficiencies of each of the three components of C1 have been found. Patients lacking C1q generally have immune-complex-mediated renal disease and skin lesions. Like all patients lacking early classical pathway components C1q deficient individuals are prone to systemic lupus erythrematosis (SLE) and recurrent pyogenic infections. They lack classical pathway function and may or may not exhibit C1q antigen in blood.DiseasesSee section titled Deficiencies above. Precautions/Toxicity/HazardsThis protein is purified from human serum and therefore precautions appropriate for handling any blood-derived product must be used even though the source was shown by certified tests to be negative for HBsAg, HTLV-I/II, STS, and for antibodies to HCV, HIV-1 and HIV-II... Read More | Purity: >95%, by SDS-PAGE visualized with Coomassie® Blue Staining. Description:Cyclophilin B (SCYLP, CyPB, and peptidyl-prolyl cis-trans isomerase B) is a 24 kDa glycoprotein member of the B subfamily of the cyclophilin-type PPIase family of molecules. It is both secreted and retained in Purity: >95%, by SDS-PAGE visualized with Coomassie® Blue Staining. Description:Cyclophilin B (SCYLP, CyPB, and peptidyl-prolyl cis-trans isomerase B) is a 24 kDa glycoprotein member of the B subfamily of the cyclophilin-type PPIase family of molecules. It is both secreted and retained in the ER. When secreted, it mediates chemotaxis and T cell adhesion to fibronectin. This is likely due to its prolyl cis/trans isomerase activity. Intracellularly, Cyclophilin B appears to serve as a molecular chaperone for molecules destined for secretion. It does so via stabilization and facilitating the activity of additional chaperones. The human CyPB precursor is 216 amino acids (aa) in length. It contains a 25 aa signal sequence plus a 191 aa mature region. There is a partial heparin-binding sequence (aa 27‑34), a PPIase domain (aa 47‑204), and a C-terminal ER retention motif (aa 213‑216). Over aa 34‑216, the human and mouse sequences are 95% aa identical... Read More | Purity>95% (SDS-PAGE&HPLC) Endotoxin level<0.1 EU/µgFunctionMay regulate apoptosis, cell proliferation and cell differentiation. Binds beta-galactoside and a wide array of complex carbohydrates. Inhibits CD45 protein phosphatase activity and therefore the dephosphorylation of Lyn Purity>95% (SDS-PAGE&HPLC) Endotoxin level<0.1 EU/µgFunctionMay regulate apoptosis, cell proliferation and cell differentiation. Binds beta-galactoside and a wide array of complex carbohydrates. Inhibits CD45 protein phosphatase activity and therefore the dephosphorylation of Lyn kinase.Gal-1 is also engaged in many protein-protein interactions. Gal-1 plays a number of crucial roles in neuronal cell differentiation and survival in both the central and the peripheral nervous systems, and the establishment and maintenance of T-cell tolerance and homeostasis in vivo... Read More | Purity:>90%, by SDS-PAGE visualized with Coomassie® Blue Staining.Description:SOD2 is part of the iron/manganese superoxide dismutase family. It encodes a mitochondrial protein that forms a homotetramer and binds one manganese ion per subunit. SOD2 binds to the superoxide byproducts Purity:>90%, by SDS-PAGE visualized with Coomassie® Blue Staining.Description:SOD2 is part of the iron/manganese superoxide dismutase family. It encodes a mitochondrial protein that forms a homotetramer and binds one manganese ion per subunit. SOD2 binds to the superoxide byproducts of oxidative phosphorylation and converts them to hydrogen peroxide and diatomic oxygen. Mutations in SOD2 gene have been associated with idiopathic cardiomyopathy (IDC), premature aging, sporadic motor neuron disease, and cancer. SOD2 destroys radicals which are usually produced within the cells and which are toxic to biological systems... Read More |