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Merck

17-10191

Cell Comb Scratch Assay

Sinónimos:

Cell layer wound repair assay

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UNSPSC Code:
12352207
NACRES:
NA.84
eCl@ss:
32161000

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manufacturer/tradename

Cell Comb
Chemicon®
QCM

technique(s)

activity assay: suitable
cell based assay: suitable
western blot: suitable

shipped in

ambient

Quality Level

100

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Este artículo
ECM510ECM210ECM555
Cell Comb™ Scratch Assay

Sigma-Aldrich

17-10191

Cell Comb Scratch Assay

Ensayo de migración celular por quimiotaxis QCM, 96 pocillos (8 µm), fluorométrico The QCM 8 uM 96-well Migration Assay utilizes a 8 um pore size, which is appropriate for leukocyte migration.

Sigma-Aldrich

ECM510

Ensayo de migración celular por quimiotaxis QCM, 96 pocillos (8 µm), fluorométrico

Ensayo de invasión de células endoteliales QCM (24 pocillos, colorimétrico) This QCM Endothelial Cell Invasion Assay provides an in vitro model to quickly screen factors that can regulate endothelial invasion. The assay is performed in an invasion chamber using a basement membrane protein coated on the porous insert.

Sigma-Aldrich

ECM210

Ensayo de invasión de células endoteliales QCM (24 pocillos, colorimétrico)

Ensayo de infiltración celular ECMatrix QCM, 96 pocillos (8 µm), fluorimétrico The CHEMICON Cell Invasion Assay Kit employs a 96-well plate, and provides an efficient system for evaluating the invasion of tumor cells through a basement membrane model.

Sigma-Aldrich

ECM555

Ensayo de infiltración celular ECMatrix QCM, 96 pocillos (8 µm), fluorimétrico

technique(s)

activity assay: suitable, western blot: suitable, cell based assay: suitable

technique(s)

activity assay: suitable, cell based assay: suitable

technique(s)

cell based assay: suitable

technique(s)

activity assay: suitable, cell based assay: suitable

manufacturer/tradename

Cell Comb, QCM, Chemicon®

manufacturer/tradename

Chemicon®, QCM

manufacturer/tradename

Chemicon®, QCM

manufacturer/tradename

Chemicon®, QCM

Quality Level

100

Quality Level

100

Quality Level

100

Quality Level

100

shipped in

ambient

shipped in

wet ice

shipped in

wet ice

shipped in

wet ice

Application

EMD Millipore′s patent pending Cell Comb Scratch Assay addresses the need for an easy-to-use tool for creating multiple scratch wounds, The Cell Comb has been optimized to apply a high density field of scratches to maximize the area of wound edges, while leaving sufficient numbers of undamaged cells to migrate into the gap. This form of high density wounding creates a high proportion of migrating cells to quiescent monolayer cells, which permits sensitive detection of the biochemical events occurring, specifically in the migrating cell population.
Research Category
Cell Structure
This Cell Comb Scratch Assay has been optimized to apply a high density field of scratches to maximize the area of wound edges, while leaving sufficient undamaged cells to migrate into the gap.

Disclaimer

Unless otherwise stated in our catalog or other company documentation accompanying the product(s), our products are intended for research use only and are not to be used for any other purpose, which includes but is not limited to, unauthorized commercial uses, in vitro diagnostic uses, ex vivo or in vivo therapeutic uses or any type of consumption or application to humans or animals.

General description

Read our application note in Nature Methods!
Click Here!

Cell migration can be studied by a variety of methods, but the scratch assay remains a highly popular method due to the simplicity of the required materials, experimental setup, data collection and interpretation (Lian, C., et al., 2007; Cory, G., 2011). The scratch assay is typically initiated by scratching a confluent cell monolayer with a pipette tip to create a narrow wound-like gap. Shortly after wounding, the cells at the edge of the wound initiate a program to migrate into the gap, a process that continues until the gap has been completely repopulated with cells. Extent of wound closure is typically observed through light microscopy and protein expression patterns that occur during the wound healing process can be characterized by immunofluorescence.

Advances in understanding the repair mechanisms of wounded cell monolayers have been facilitated by the development of methods for performing the assay in multiwell plates. Such methods include delivering wounds to existing monolayers in the wells, or occlusion of the center of the well during monolayer formation to create a gap (Yarrow, J.C., et al., 2004; Simpson K.J., et al., 2008; Gough, W., et al., 2011). Each method then involves quantification of the extent of cell migration into the gap.

However, these methods are not optimal for biochemical analysis of the molecular events mediating wound repair. For example, the small scale of a basic pipette tip-derived wound provides insufficient and inadequate material for biochemical analysis. Using the same pipette tip to scratch a cell monolayer in a larger plate is tedious and irreproducible, and the proportion of migrating cells to quiescent cells is low. Several methods have been described to scale up the scratch assay by creating multiple wounds in cell monolayers but these methods require specialized tools (Turchi, L., et al., 2002; Lauder, H., et al., 1998).

EMD Millipore has developed the Cell Comb Scratch Assay to address the need for an easy-to-use tool for creating multiple scratch wounds. The patent pending Cell Comb<TMSYMBOL></TMSYMBOL> has been optimized to apply a high density field of scratches to maximize the area of wound edges, while leaving sufficient numbers of undamaged cells to migrate into the gap. This form of high density wounding creates a high proportion of migrating cells to quiescent monolayer cells, which permits sensitive detection of the biochemical events occurring, specifically in the migrating cell population.

Other Notes

Cell Combs: Quantity of 6 individually packaged, disposable combs.

Rectangular Cell Culture Plates: Quantity of 6 individually packaged, cell culture-treated 86 mm x 128 mm plates.

The Cell Combs and Cell Culture Plates have been subjected to E-beam irradiation in order to minimize the possibility of contamination.

Packaging

Enough Materials to Perform 6 Scratch Assays

Preparation Note

Store Cell Combs and Cell Culture Plates at room temperature. Use within 1 year from date of receipt.

Legal Information

CELL COMB is a trademark of Merck KGaA, Darmstadt, Germany
CHEMICON is a registered trademark of Merck KGaA, Darmstadt, Germany

Clase de almacenamiento

10 - Combustible liquids

Certificados de análisis (COA)

Busque Certificados de análisis (COA) introduciendo el número de lote del producto. Los números de lote se encuentran en la etiqueta del producto después de las palabras «Lot» o «Batch»

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"The successful, reliable culture of epithelial cells is critical for many areas of research, including dermatology, respiratory research, and cancer research. Because the breakdown of control mechanisms in epithelial cells is a frequent contributor to cancer progression and metastasis, epithelial cell culture is particularly important for cancer research. EpiGRO™ media formulations are optimized to provide better viability, proliferation rates, morphology and culture stability than other commercially available options. The media are provided in unique, light-blocking, temperature-monitored packaging to ensure stability and protect the media from damage by light, contamination, and excessive heat. The media do not require or contain any antimicrobials or phenol red. These components can cause cell stress and influence experimental results by masking the true performance or health of the cell culture. Phenol red acts like an estrogen and may stimulate growth independently of experimental variables. "

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