You searched for: Cell Culture Plates

Supplier: VWR Collection

VWR® multiwell cell culture plates are available with a choice of surface treatments.

Supplier: VWR Collection

6-well, round well plates for suspension cell culture.

Supplier: VWR Collection

VWR® 3D scaffold cell culture plates, made of polystyrene (GPPS) with polystyrene polymer scaffold, are able to simulate the three-dimensional structure of cells in animals and the human body to maximum effect, providing an ideal environment for cell interaction, maximising culture area, and improving yield.

Supplier: VWR Collection

Single-well cell culture plates, made from clear PS, are available plasma-treated for consistent cell attachment and growth, or non-treated for use in applications where cell attachment is not desired.

Supplier: Merck

Millicell cell culture insert plates are a patented device designed to support cell growth and differentiation of endothelial and epithelial cell lines, including CaCo-2.

Supplier: Greiner Bio-One

The CELLSTAR® OneWell Plate™ is designed for use in applications involving the cultivation of large quantities of cells. Made from PS.

Supplier: Corning

Cell Culture Plate, 96-well plates

Supplier: Greiner Bio-One

PS, cell culture-treated, sterile. All plates are certified free of RNase, DNase and human DNA, are non-pyrogenic and non-cytotoxic.

Supplier: Greiner Bio-One

PS, cell culture-treated, sterile. All plates are certified free of RNase, DNase and human DNA, are non-pyrogenic and non-cytotoxic.

Supplier: Greiner Bio-One

These sterile, PS multiwell cell culture plates have a cell-repellent surface to effectively inhibit cell attachment. Achieved through a chemical polymer modification, the surface does not degrade or leach under common cell culture conditions, rendering an ideal substrate for native cell culture experiments.

Supplier: Corning

Corning® BioCoat®, Cell culture plate, 96-well plate

Supplier: Greiner Bio-One

These sterile, PS multiwell cell culture plates have a cell-repellent surface to effectively inhibit cell attachment. Achieved through a chemical polymer modification, the surface does not degrade or leach under common cell culture conditions, rendering an ideal substrate for native cell culture experiments.

Supplier: Merck

Millicell cell culture insert plates are a patented device designed to support cell growth and differentiation of endothelial and epithelial cell lines, including CaCo-2.

Supplier: Corning

Corning® BioCoat®, Cell culture plate, 6-well poly-L-ornithine/laminin coated microplates

Supplier: Greiner Bio-One

PS, cell culture-treated, sterile. Cell culture treated plates are available with round (U), conical (V) or flat (F) bottom wells. All plates are certified free of RNase, DNase and human DNA, are non-pyrogenic and non-cytotoxic.

Supplier: Greiner Bio-One

PS, cell culture-treated, sterile. All plates are certified free of RNase, DNase and human DNA, are non-pyrogenic and non-cytotoxic.

Supplier: Corning

PS, coated with mouse laminin. Laminin, a major structural component of basement membranes, has many varied functions that are mediated by binding to various components of the basement membrane (for example, collagen IV) and to cell-surface receptors. Laminin-coated cell culture plates have a number of applications, including the promotion of cell adhesion, proliferation and differentiation of a variety of cell types, particularly neurons, epithelial cells, myocytes and myoblasts.

Supplier: Greiner Bio-One

PS, with lid, sterile. Cell culture multiwell plates are available either with a physically treated surface (for adherent cell cultures) or with a hydrophobic surface (for suspension cultures and hybridoma cells). All plates are certified free of RNase, DNase and human DNA, are non-pyrogenic and non-cytotoxic.

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: Corning

Corning PureCoat™ amine (positively charged) and carboxyl (negatively charged) surfaces provide improved cell attachment, faster cell proliferation, and enhanced recovery post-thaw over standard TC surfaces.

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: Abcam

Non-pyrogenic, polystyrene microplates (black) with standard solid flat bottom.

Supplier: Greiner Bio-One

Microplates with a modified culture surface to optimise cell characteristics and functions. The improved adherence and increased growth rate improve and accelerate cell proliferation. Additionally, the Advanced TC™ surface facilitates uniform and consistent cell adherence, increases throughput and reduces cell loss, for example during automated washing stages. Free of detectable DNase, RNase and human DNA.

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: Greiner Bio-One

Microplates with a modified culture surface to optimise cell characteristics and functions. The improved adherence and increased growth rate improve and accelerate cell proliferation. Additionally, the Advanced TC™ surface facilitates uniform and consistent cell adherence, increases throughput and reduces cell loss, for example during automated washing stages. Free of detectable DNase, RNase and human DNA.

Supplier: Greiner Bio-One

PS, coated with rat tail collagen type I. Collagen type I is an extracellular matrix protein, which in vivo influences adhesion, migration and proliferation, amongst other processes. Many otherwise difficult-to-cultivate cells adhere to collagen type I and show positive growth behaviour. For certain cell lines collagen type I also has an influence on differentiation and morphology.

Supplier: Corning

Type IV Collagen is a ubiquitous component in basement membranes and provides the major structural support for this matrix. When the Collagen IV meshwork is assembled, it provides a scaffold for the assembly of other basement membrane components through interactions with laminin, entactin/nidogen, and heparan sulfate proteoglycan. Collagen IV is useful as a substrate for growth of epithelial, endothelial, muscle, and nerve cells. Collagen plays a role in the regulation of cell growth, differentiation and adhesion, as well as tissue formation

Supplier: Corning

PS, coated with mouse laminin. Laminin, a major structural component of basement membranes, has many varied functions that are mediated by binding to various components of the basement membrane (for example, collagen IV) and to cell-surface receptors. Laminin-coated cell culture plates have a number of applications, including the promotion of cell adhesion, proliferation and differentiation of a variety of cell types, particularly neurons, epithelial cells, myocytes and myoblasts.

Supplier: Corning

Corning BioCoat Gelatin cultureware provides an attachment and growth promoting substrate for the culture of a variety of cell types. Gelatin is commonly used in the culture of vascular endothelial cells, muscle, embryonic stem (ES) cells, and F9 teratocarcinoma cells. It is also suitable for promoting adhesion of transfected cell types. Gelatin is a heterogeneous mixture of water-soluble proteins derived through the hydrolysis of Collagen.

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.