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Z734853

Nunc® Lab-Tek® II chambered coverglass

8 wells, polystyrene chambers, 1.5 borosilicate coverglass, 0.7 cm2/well, 96/cs

Synonym(s):

chamber slides, microscope slides, microscopy slides, Nunc 155409, coverglass

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About This Item

NACRES:
NB.22
UNSPSC Code:
41122600
Material:
borosilicate glass , colorless , polystyrene chamber
Sterility:
non-sterile, sterile
Packaging:
case of 96
W × l:
24 mm × 55 mm
Wells:
8
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material

borosilicate glass , colorless , polystyrene chamber

sterility

non-sterile, sterile

quality

CE marked

packaging

case of 96

manufacturer/tradename

Nunc 155409

W × L

24 mm × 55 mm

well area

0.7 cm2

wells

8

working volume

0.2-0.5 mL

suitability

suitable for (high power inverted microscopic viewing; confocal image analysis)

General description

Grow, stain and view living cells on a single device. The Nunc® Lab-Tek®hambered coverglass with a No. 1 borosilicate glass bottom offers the optical characteristics required for high magnification and confocal image analysis. Available in 1-, 2-, 4-, and 8-well formats. The upper chamber structure cannot be removed from the coverglass.

Features and Benefits

  • Ideal for culture, examining, and analyzing living cells on a single device.
  • Available in 1, 2, 4, and 8-well formats.
  • Media chamber safely mounted to the No. 1.5 borosilicate coverglass using biocompatible acrylic adhesive.
  • Optimal gas exchange ensured with minimal evaporation via tabbed polystyrene cover.
  • Shipped conveniently in stackable incubation trays.
  • Media chamber securely mounted to No. 1 borosilicate coverglass by non-toxic medical grade silicone adhesive.
  • The polystyrene chamber is not removable and requires inverted microscope for viewing.
  • Fitted polystyrene cover without top handle minimizes evaporation.
  • Sterile in convenient stackable incubation trays.

Legal Information

Lab-Tek is a registered trademark of Thermo Fisher Scientific or its subsidiaries
Nunc is a registered trademark of Thermo Fisher Scientific or its subsidiaries

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Massimo D'Agostino et al.
The EMBO journal, 37(19) (2018-08-19)
Constitutive membrane fusion within eukaryotic cells is thought to be controlled at its initial steps, membrane tethering and SNARE complex assembly, and to rapidly proceed from there to full fusion. Although theory predicts that fusion pore expansion faces a major
Mary Mirvis et al.
PLoS biology, 17(7), e3000381-e3000381 (2019-07-18)
The primary cilium is a central signaling hub in cell proliferation and differentiation and is built and disassembled every cell cycle in many animal cells. Disassembly is critically important, as misregulation or delay of cilia loss leads to cell cycle
Dae-Hee Lee et al.
Autophagy, 14(11), 1870-1885 (2018-07-07)
Macroautophagy is induced under various stresses to remove cytotoxic materials, including misfolded proteins and their aggregates. These protein cargoes are collected by specific autophagic receptors such as SQSTM1/p62 (sequestosome 1) and delivered to phagophores for lysosomal degradation. To date, little
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Global Trade Item Number

SKUGTIN
Z734853-96EA04061832959559