Recombinant Trypsin Solution

Sterile filtered ready-to-use solution specially developed for gentle and effective cell dissociation

Volume
Price (USD):
$45.60
Item No.: 
03-078-1B
Availability: 
Piece
1

*Custom/bulk order quotes are provided within 72 hours of request.

Accutase Solution is an alternative solution to trypsin developed for gentle and effective detachment of adherent cells.

Accutase is mixture of proteolytic and collagenolytic enzymes for use in dissociation of cells from standard and adhesion-coated culture dishes as well as for gentle tissue dissociation. The well-balanced combination of proteolytic and collagenolytic activities ensures that surface proteins and epitopes stay entirely intact. Accutase is therefore perfectly suited for applications that require an unchanged cell surface, such as detaching cells for analysis of cell surface markers, cell proliferation, routine cell passage, production scale-up (bioreactor), and flow cytometry.

Accutase has been shown to be effective on a number of cell types, including human embryonic stem (hES) cells, neuronal stem cells, fibroblasts, keratinocytes, vascular endothelial cells, hepatocytes, vascular smooth muscle cells, hepatocyte progenitors, primary chick embryo neuronal cells, bone marrow stem cells, adherent CHO and BHK cells, and macrophages.

Features

  • Ready-to-use solution
  • Gentle formula for cell detachment and tissue dissociation
  • No mammalian or bacterial-derived components
  • Effective in detaching primary fibroblasts, endothelial cells, neurons, tumor cell lines, and insect cells
  • Ideal for detaching cells for cell surface marker analysis, virus growth assay, flow cytometry, and bioreactor scale-up

Applications

  • Application Area
    Cell dissociation

Compliance Information

  • Origin
    Animal-Component Free

Features

  • Serum Free
    Yes

Physicochemical Information

  • Adherence/Suspension
    Adherent
  • Formulation
    Without EDTA

Sterility/Purity

  • Delivery Condition
    Sterile

Volume

  • Volume
    100 mL