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Merck
CN

GBL103350

Grace Bio-Labs CultureWell chambered coverglass

wells, 50, well diam. × thickness 3 mm × 1 mm, well volume 3-10 μL

别名:

chamber slides, chambered coverglass, Grace Biolabs 103350, imaging chamber, quantitative imaging chamber

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NACRES:
NB.22
UNSPSC Code:
41122600

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产品名称

Grace Bio-Labs CultureWell chambered coverglass, wells, 50, well diam. × thickness 3 mm × 1 mm, well volume 3-10 μL

material

borosilicate glass backing
clear silicon chamber
colorless

sterility

(sterile)
sterile

feature

wells 50

packaging

pack of 20 ea

manufacturer/tradename

Grace Bio-Labs 103350

external L × W

61 mm × 24 mm

well area

0.07 cm2

well diam. × thickness

3 mm × 1 mm

well volume

3-10 μL

wells

50

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Features and Benefits

  • The thin flat coverglass is the optimal platform for high resolution microscopy and high-sensitivity, quantitative, fluorescent imaging.
  • Leak-proof design eliminates well-to-well cross contamination.
  • Gaskets stabilize coverglass and provide convenient handling using conventional microscope slide holders and accessories.
  • Gaskets are removable for high resolution imaging and may be resterilized and reused.
  • Well spacing facilitates liquid handling utilizing multichannel pipettes and robotic dispensers.

General description

Grace Bio-Labs chambered coverglass products are optimal for high resolution microscopy.

Grace Bio-Labs chambered coverglass products consist of removable / reusable non-cytotoxic silicone gaskets secured to 24 mm x 50 mm, number 1.5 German coverglass. They may be placed in sterile culture plates or 100 mm diameter culture dishes.


Legal Information

Culturewell is a trademark of Grace Bio-Labs, Inc.

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Marco Di Antonio et al.
Nature chemistry, 12(9), 832-837 (2020-07-22)
Substantial evidence now exists to support that formation of DNA G-quadruplexes (G4s) is coupled to altered gene expression. However, approaches that allow us to probe G4s in living cells without perturbing their folding dynamics are required to understand their biological
Clay O Lacefield et al.
Cell reports, 26(8), 2000-2008 (2019-02-21)
The mammalian brain can form associations between behaviorally relevant stimuli in an animal's environment. While such learning is thought to primarily involve high-order association cortex, even primary sensory areas receive long-range connections carrying information that could contribute to high-level representations.

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