missing translation for 'onlineSavingsMsg'
Learn More
Please login to your online account to display your discounted pricing

Corning™ Basic Fibroblast Growth Factors (bFGF), Human Recombinant

Isolated from pituitary glands

$359.20 - $2,382.39

Specifications

Cross Reactivity Human
Source E. coli
Formulation Lyophilized from phosphate buffered saline, carrier free, reconstitute in dH2O or serum-free medium
For Use With (Application) Useful for the maintenance and differentiation of sympathetic and sensory neurons, as well as neuronal cells in-vitro
Lyophilized Yes
View More Specs


Products ${productFamilyLength}
Catalog Number Mfr. No. Quantity Type Price Quantity  
Catalog Number Mfr. No. Quantity Type Price Quantity  
CB-40060 Corning™
C354060
10μg Basic Fibroblast Growth Factor Each for $359.20
CB-40060A Corning™
C356060
5 x 10μg Basic Fibroblast Growth Factor Each for $1,386.45
CB-40060B Corning™
C356061
10 x 10μg Basic Fibroblast Growth Factor Each for $2,382.39
Specifications

Description

A broad range of highly purified natural and recombinant lymphokine and growth factor biochemicals designed specifically for use in basic cell biology research.

  • Products are tested for biological activity in appropriate assays, such as the ability of growth factors to stimulate proliferation or DNA synthesis
  • Lymphokines and growth factors are also sterile filtered generally using a 0.2μm membrane
  • Tested for the presence of bacteria, fungi and mycoplasma

Specification sheets include detailed information on quality control testing, product source, storage, stability and recommendations on proper experimental concentrations.

Order Info

  • FGF is supplied lyophilized, bFGF in 3.6mM Tris, PBS pH 7 buffer
  • bFGF (human) is lyophilized

Description & Specifications

Specifications

Human
Lyophilized from phosphate buffered saline, carrier free, reconstitute in dH2O or serum-free medium
Yes
>95% by SDS-PAGE
-20°C
E. coli
Useful for the maintenance and differentiation of sympathetic and sensory neurons, as well as neuronal cells in-vitro
17
3 Months