Collagen
Collagen is the most widely used extracellular matrix (ECM) protein for cell culture, facilitating cell attachment, growth, differentiation, migration, and tissue morphogenesis.

GIBCO® offers Collagen I Rat Tail (in liquid form and on precoated tissue culture plates) and Collagen I Bovine (in liquid form) for 3D applications and as coating solution.

Ordering Information

Sku Name Size Price Qty
A1048301 Collagen I Rat Protein, Tail 20 mL USD 163.00
A1064401 Collagen I Bovine Protein 10 mL USD 181.00
A1142801 Collagen I, Coated Plate, 6 well 5 plates USD 62.00
A1142802 Collagen I, Coated Plate, 24 well 5 plates USD 63.00
A1142803 Collagen I, Coated Plate, 96 well 5 plates USD 67.00

GIBCO® Collagen I Rat Tail and Collagen I Bovine, Liquid Form

GIBCO® offers Collagen I Rat Tail and Collagen I Bovine at 5mg/ml concentration which gives the flexibility to dilute to lower concentrations.

Figure shows GIBCO® Collagen I and collagen from two other suppliers were prepared at the concentrations stated and allowed to solidify in individual wells of a 24-well plate. GIBCO® Collagen I forms a firm, clearer gel matrix for cell culture.


GIBCO® Collagen I, Coated Plates

  • Ready to use right from the package
  • Available in 6-well, 24-well, and 96-well formats
  • High-quality, consistent coating of rat tail collagen I  for culturing primary cells including hepatocytes and keratinocytes
  • Convenient room temperature storage

Key Applications for Collagen I

Collagen consists of three α-chains which form a triple helix, providing tensile strength to the extracelluar matrix (ECM). Collagen I is the most common fibrillar collagen and is found in skin, bone, tendons, and other connective tissues.

Collagen I plays key roles in cell biology and biomedical applications: 

  • Promotes attachment, proliferation, and differentiation in breast cancer cells1
  • Forms gland-like circular structures from embryonic stem cells2
  • Allows better representation of endometrial physiology and morphology in vitro, allowing for in vivo studies of endometrial cancer cell invasion3
  • Helps microvascular endothelial cells (HMVEC cells) adopt an in vitro spindle-shaped morphology and form solid cord-like assemblies4
  • Used for in vitro angiogenesis assays, is a barrier in cell invasion assays, and enables cell adhesion studies5-6
  • Supports a variety of cell types, including primary colon carcinoma, mouse liver progenitor, and rat pancreatic islet cells

References:

1.  Chandrasekaran, S., et al., J. Biol. Chem. 274(16):11408 (1999).
2.  Chen, S., R. et al. (2003) Stem Cells 21: 281-295.
3.  Park, D., et al. (2003) Cancer Letters 195: 185-192.
4.  Whelan. M.C., et al. (2003) J. Biol. Chem. Jan 3;278 (1):327-34
5.  Kokenyesi, R., K., et al. (2003) Gynecol Oncol 89: 60-72.
6.  Ritty,T. et al. (2003) J Ortho Res 21: 442-450