You searched for: Cell Culture Plates
Regardless of the biological cell type, cell culture plates create required conditions and environments ideal for optimum growth. Optically clear for maximum visual assaying capability, the dishes are available in round, flat, or v shaped bottom styles. Different treatment options support specific surface modifications for cell attachment or suspension. Lids securely protect samples placed in the multiple well plates during screening, experiments, and storage. Using any size cell culture plate yields consistent and reproducible results.
Corning® 384-Well Assay Plates, Corning
Supplier: Corning
These plates are designed for a variety of high throughput screening applications.
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Nunc™ 384 Well® Optical Bottom Plates – Polymer Base, Electron Microscopy Sciences
Supplier: Electron Microscopy Sciences
The NUNC™ Coverglass Optical Bottom 96- and 384- Well Plates have an optically clear polystyrene plate bottom
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CELLSTAR® 96-Well Cell Culture Microplate, Poly-D-Lysine, Greiner Bio-One
Supplier: Greiner Bio-One
Half-area. Black color.
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MicroWell® Plates, Electron Microscopy Sciences
Supplier: Electron Microscopy Sciences
MicroWell Plates are used in a broad spectrum of applications, including cloning experiments, sample incubations, and in tissue culture based analytical systems. These MicroWell Plates have excellent cell attachment. All styles are designed to be stackable and are radiation sterilized.
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Nunc® Nunclon™ Multi-Dishes, Electron Microscopy Sciences
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.
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Corning® 1536 Well Spheroid Microplates, Corning
Supplier: Corning
Microplate, 1536 well, Color: Black, Clear round bottom, Ultra low attachment, Spheroid, With Lid, Sterile
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Costar® Brand Cell Culture Clusters, Electron Microscopy Sciences
Supplier: Electron Microscopy Sciences
Tissue culture plates are designed and treated for a wide range of applications. Plates are made from optically clear, medical grade polystyrene with flat bottoms of uniform thickness, allowing for distortion-free observation and microscopic examination. Alphanumeric coordinates are placed on the same focal plane as cell growth-for easy referencing of well position. These plates are also for use with our NetWells and our MeshWell Plates.
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Corning® Closed System Cell Cubes, Corning
Supplier: Corning
Our new offering of CellCube 10, 25, 100 modules, circulation loops, and connectors allows for easy adherent cell scale-up that integrate seamlessly with AseptiQuik® and MPC connectors.
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Corning® BioCoat™ 6-Well Plates, Corning® Matrigel® Matrix, Corning
Supplier: Corning
Initial culturing techniques for hES cells originated from methodology developed for murine ES (mES cells), including the use of mouse embryonic fibroblast (MEF) feeder layers
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Corning® 96-Well Clear Round Bottom Polypropylene Microplate, Untreated, Corning
Supplier: Corning
PS, clear, with lid.
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CELLSTAR® OneWell™ and FourWell™ Plates, Greiner Bio-One
Supplier: Greiner Bio-One
The new CELLSTAR® OneWell Plate™ is designed for use in applications involving the cultivation of large quantities of cells.
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Corning® 384-Well Microplate Black/Clear, Round Bottom, Ultra-Low Attachment, Spheroid, Corning
Supplier: Corning
Ultra-Low Attachment microplates feature a covalently bound hydrogel layer that effectively inhibits cellular attachment.
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Corning® BioCoat® Poly-L-Lysine-Coated Plates, Corning
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.
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Corning® BioCoat® Collagen I-coated Plates, Corning
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.
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Corning® BioCoat® Laminin Plates, Corning
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.
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Corning® BioCoat® Poly-D-Lysine Plates, Corning
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.
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BioCoat™ HTS Caco-2 Assay Systems, PET Membrane, Corning
Supplier: Corning
HTS insert plates are arrays of individual cell culture inserts connected by a rigid, robotics-friendly holder. This single-unit design makes insert plates ideal for running automated, high throughput drug transport (Caco-2 cells) cell toxicity studies or cell migration and invasion studies.
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Corning® BioCoat™ Matrigel® Matrix Cellware, Corning
Supplier: Corning
Corning® BioCoat™ Matrigel® Matrix Cellware consists of Falcon® Multiwell Tissue Culture inserts, plates, and dishes treated with a uniform application of Corning® Matrigel® Basement Membrane Matrix to promote differentiation of a variety of cell types
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Corning® BioCoat® Gelatin Plates, Corning
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.
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Corning® PureCoat™ Amine and Carboxyl Microplates, Corning
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. These surfaces function with a broad range of primary, transfected, transformed, and fastidious cell types, and have demonstrated utility in serum-reduced or serum-free conditions.
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Corning® BioCoat® Poly-L-Lysine-Coated Microplates, Corning
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.
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Corning® BioCoat® Collagen I-Coated Microplates, Corning
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.
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Corning® BioCoat® Poly-D-Lysine Microplates, Corning
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.
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Corning® BioCoat® Poly-L-Ornithine/Laminin Plates, Corning
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.
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Corning® Elplasia® 12K Open Well Plate
Supplier: Corning
Culture thousands of spheroids in a microplate footprint.
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Corning® BioCoat® Collagen I-coated Culture Slides, Corning
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.
Expand 2 Items
PureCoat™ Amine and Carboxyl Plates, Corning®
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.
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Corning® BioCoat® Gelatin Microplates, Corning
Supplier: Corning
PS coated with porcine gelatin. Corning® BioCoat™ gelatin provides an attachment and growth promoting substrate for the culture of a variety of cell types. Gelatin is commonly used in the culture of normal and transfected cell types, including vascular endothelial, muscle, embryonic stem (ES) and F9 teratocarcinoma cells.
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Corning® BioCoat® Poly-D-Lysine Culture Slides, Corning
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.
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Corning® BioCoat® Fibronectin-coated Culture Slides, Corning
Supplier: Corning
Human Fibronectin (HFN) is a widely distributed glycoprotein that is used as a substrate to promote attachment of cells through its central-binding domain RGD sequence. HFN is a product of most mesenchymal and epithelial cells and is present in both the ECM and plasma. The principal function of HFN appears to be in cellular migration during wound healing and development, regulation of cell growth and differentiation, and haemostasis/thrombosis.