You searched for: Cell Culture Plates

Supplier: Corning

Laminin (LM), a major component of basement membranes, is a multifunctional glycoprotein that is used as a substrate to culture and maintain differentiated function of a wide variety of cells. Laminin has been shown in culture to stimulate neurite outgrowth, promote cell attachment, chemotaxis, cell differentiation, and neuronal survival.

Supplier: Corning

Collagen Type I coated microplates are ideal for a variety of applications that require cell attachment to extracellular matrices

Supplier: Electron Microscopy Sciences

The NUNC™ Coverglass Optical Bottom 96- and 384- Well Plates have an optically clear polystyrene plate bottom

Supplier: Corning

Poly-D-Lysine (PDL) and Poly-L-Lysine (PLL) are synthetic compounds that enhance cell adhesion and protein absorption by altering surface charges on the culture substrate. In addition to promoting cell adhesion, poly-lysine surface treatments support neurite outgrowth and improve the survival of many central nervous system (CNS) primary cells in culture. As PDL and PLL are synthetic molecules, they do not stimulate biological activity in the cells cultured on them, and they do not introduce impurities carried by natural polymers.

Supplier: Corning

PS coated with rat tail collagen type I. Collagen is an integral part of the framework that holds cells and tissues together and has been recognised as a useful matrix for improving cell culture. In vitro use of collagen can exert effects on the adhesion, morphology, growth, migration, and differentiation of a variety of cell types. Applications include promotion of cell attachment and spreading, rapid expansion of cell populations, serum-free or reduced serum culture, studies of the effects of collagen I on cell behaviour, improving survival of primary cell lines in culture, and cell adhesion assays.

Supplier: Corning

Poly-D-Lysine (PDL) and Poly-L-Lysine (PLL) are synthetic compounds that enhance cell adhesion and protein absorption by altering surface charges on the culture substrate. In addition to promoting cell adhesion, poly-lysine surface treatments support neurite outgrowth and improve the survival of many central nervous system (CNS) primary cells in culture. As PDL and PLL are synthetic molecules, they do not stimulate biological activity in the cells cultured on them, and they do not introduce impurities carried by natural polymers.

Supplier: Corning

Corning® BioCoat™ Collagen I 96-well white/clear microplate is comprised of white TC-treated polystyrene with a uniform application of rat tail collagen type I.

Supplier: Electron Microscopy Sciences

Useful in all areas of cell culture including scale-up and cloning.

Supplier: Electron Microscopy Sciences

The NUNC™ Coverglass Optical Bottom 96 Well Plates have an optically clear polystyrene plate bottom. This clear base permits microscopic viewing and reading of well The plate’s upper structure is offered in black for fluorometric detection. External dimension: 128 x 86 mm.

Supplier: Corning

Collagen I, found in most tissues and organs, is most plentiful in dermis, tendon, and bone. It is an integral part of the framework that holds cells and tissues together and has been recognized as a useful matrix for improving cell culture. in vitro use of collagen can exert effects on the adherence, morphology, growth, migration, and differentiation of a variety of cell types.

Supplier: Thermo Scientific

These Immunodiffusion Plates are standard Ouchterlony gel plates containing patterns of six wells around one well for studying and characterizing antibody-antigen binding interactions.

Supplier: Corning

For some applications, the use of a combination of ECM proteins, such as Laminin (LM) and Fibronectin (HFN) or LM and attachment factors such as Poly-D-Lysine (PDL) or Poly-L-Orinthine (PLO) has been shown superior to the use of either alone. Corning BioCoat PDL/LM and PLO/LM Cultureware is suitable for culturing many different types of Peripheral Nervous System (PNS) and Central Nervous System (CNS) networks and is useful for promoting neural cell attachment and differentiation. Corning BioCoat LM/HFN Cultureware provides an in vitro environment that promotes cell attachment and extensive process formation.

Supplier: Corning

Fibronectin coating. Tested and found negative for bacteria and fungi and for ability to promote attachment and spreading of BHK-21 cells. Fibronectin source: human placenta.

Supplier: Corning

Poly-D-Lysine (PDL) and Poly-L-Lysine (PLL) are synthetic compounds that enhance cell adhesion and protein absorption by altering surface charges on the culture substrate. In addition to promoting cell adhesion, poly-lysine surface treatments support neurite outgrowth and improve the survival of many central nervous system (CNS) primary cells in culture. As PDL and PLL are synthetic molecules, they do not stimulate biological activity in the cells cultured on them, and they do not introduce impurities carried by natural polymers.

Supplier: Corning

For some applications, the use of a combination of ECM proteins, such as Laminin (LM) and Fibronectin (HFN) or LM and attachment factors such as Poly-D-Lysine (PDL) or Poly-L-Orinthine (PLO) has been shown superior to the use of either alone. Corning BioCoat PDL/LM and PLO/LM Cultureware is suitable for culturing many different types of Peripheral Nervous System (PNS) and Central Nervous System (CNS) networks and is useful for promoting neural cell attachment and differentiation. Corning BioCoat LM/HFN Cultureware provides an in vitro environment that promotes cell attachment and extensive process formation.