234 Results for: "corning plates"

Supplier: Corning

Permeable supports for HTS (high throughput screening) applications are excellent for ADMET screening, drug transport, and other assays.

Supplier: Corning

Elplasia plates enable researchers to generate high density of spheroids in a scaffold-free model. Use Corning Elplasia plates to generate, culture and analyse your spheroids all in a standard plate footprint.

Supplier: Corning

Acrylic with UV transparent flat well bottom, non sterile. Ideal for determining protein and/or nucleic acid concentrations.

Supplier: Corning

Unique nitrogen-containing tissue culture surface chemistry. Improves attachment, spreading, and growth for many primary cells or cell lines. Crystal-grade polystyrene modified by proprietary vacuum-gas plasma treatment process.

Supplier: Corning

These plates are designed for a variety of high throughput screening applications.

Supplier: Corning

Low-profile hot plates with a ceramic glass plate provide precision-controlled heating for laboratory applications. Microprocessor-controlled heating ensures consistent performance.

Supplier: Corning

A Matrigel® pre-coated plate which can be used for drug discovery applications with 3D cell cultures such as organoids, spheroids or tumoroids.

Supplier: Corning

Cell culture microplates are sterile and nonpyrogenic. Lids available where indicated.

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

Culture thousands of spheroids in a microplate footprint.

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

A 96-well, pre-coated filter plate, individually packaged with a 96-well microassay receiver plate.

Supplier: Corning

Accessories for Corning® Digital Stirring Hot Plates, Corning

Supplier: Corning

Accessories for Corning® 96-Well Filter Plates, Corning

Supplier: Corning

PS, flat bottom.

Supplier: Corning

Corning® Stripwell™ microplates may be used in a variety of laboratory assays. The flat bottom strips are designed to easily break apart and are pre-assembled in an 'egg-crate' style strip holder that allows each individual well to be positioned back into the microplate once broken.

Supplier: Corning

Standard tissue culture (TC) and Corning® Primaria™ surface treatments is available. These plates are provided with various colors to suit various detection methods.

Supplier: Corning

Corning® BioCoat®, Cell Culture Plate, 96-Well

Supplier: Corning

PS, flat bottom.

Supplier: Corning

Plates are available in V-bottom and round-bottom formats to meet a wide variety of assay and storage needs.

Supplier: Corning

Corning® hotplates with Pyroceram® glass-ceramic top, rugged housing and heating elements and digital temperature display.

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

Corning®, Cell Culture Plate, CellCube adaptor, F MPC, 1/4

Supplier: Corning

Thermowell® 96-well Models M and P PCR microplates are made from polycarbonate and fit most commonly used thermal cyclers. These plates have clear, round wells with a conical bottom and a volume of 200 µl.

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

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

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.

Supplier: Corning

Low-profile hot plates with a ceramic glass plate provide precision-controlled heating for laboratory applications. Microprocessor-controlled heating ensures consistent performance.

Supplier: Corning

PS, flat bottom. Suitable for fluorescent and luminescent assays using either top or bottom detection plate readers.

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.