NUMER JEDNOSTKI MAGAZYNOWEJ: AFG-YSG-01

AffiGEL® Matrix LDEV-Free

Sprzedawca AffiGEN
Cena regularna 684,00 zł PLN
Cena sprzedaży 684,00 zł PLN Cena regularna
Sprzedaż Wyprzedane
Cena jednostkowa
/dla 
Wysyłka obliczona przy kasie.
Size:
Tekst zamówienia w przedsprzedaży

AffiGEL® Matrix LDEV-Free

  • Equivalent: 356234 | Corning® Matrigel® Basement Membrane Matrix, LDEV-free
  • Matrix type: Basic concentration (8-12 mg/ml)
  • Application: Adapt to 2D and 3D culture, invasion, and migration experiments, and can also be used for in vivo tumorigenic experiments.

Product Information

AffiGEL® Matrix LDEV-Free is a solubilized basement membrane preparation extracted from the Engelbreth-Holm-Swarm (EHS) mouse sarcoma, a tumor rich in extracellular matrix (ECM) proteins, including Laminin (a major component), Collagen IV, heparan sulfate proteoglycans, entactin/nidogen, and a number of growth factors.

Quality

  • Mouse colonies are routinely screened for pathogens via Mouse Antibody Production (MAP) testing.
  • Extensive PCR testing is performed to screen for a number of pathogens, including LDEV, to ensure strict control of raw materials used during the manufacturing process.
  • Tested and found negative for bacteria, fungi, and mycoplasmaProtein concentrations are determined by Lowry method.
  • Endotoxin units are measured by Limulus Amoebocyte Lysate assay.
  • AffiGEL® Matrix Gel stability is tested for a period of 14 days at 37°C.
  • Biological activity is determined for each lot using a neurite outgrowth assay. Chick dorsal root ganglia are plated on a 1.0mm layer of AffiGEL® Matrix Gel and must generate positive neurite outgrowth response after 48 hours without addition of nerve growth factor.

Source

Engelbreth-Holm-Swarm Mouse Tumor

Preparation and Storage

Store at -20°C. Avoid multiple freeze-thaws. Do not store in frost-free freezer. KEEP FROZEN.

Application

  • Cell Growth and Differentiation
  • Metabolism/Toxicology Studies
  • Invasion Assaysin vitro and in vivo Angiogenesis Assaysin vivo Angiogenesis Studies and Augmentation of Tumors in Immunosuppressed Mice