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About This Item
UNSPSC Code:
41121800
NACRES:
NB.24
Material:
black plate (clear bottom)
black polystyrene
clear bottom
flat bottom
black polystyrene
clear bottom
flat bottom
Size:
384 wells
material
black plate (clear bottom)
black polystyrene
clear bottom
flat bottom
sterility
sterile
feature
lid
skirt
plate format: low flange, with lid
packaging
case of 100
pack of 20
manufacturer/tradename
Corning 3770
size
384 wells
well volume
112 μL
wells
384 wells
working volume
20-80 μL
color
black
suitability
suitable for (cell cuture)
binding type
CellBIND® surface
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General description
Corning® CellBIND® 384 well microplate is low flange, black plate with a clear bottom and a flat polystyrene surface. The plate is designed to minimize autofluorescence and optimize signal to background ratios, resulting in accurate and reliable assay results. Additionally, the enhanced flatness of the plates ensures low variations within and between plates, making them compatible with automated liquid dispensers for efficient and precise sample handling. The inclusion of a lid and skirt provides added protection and maintains sterility throughout the experiment. Each plate is provided in a sterile condition.
Application
Corning® CellBIND® 384 well microplate has been used for the bottom and top reading instruments and to measure adipocyte differentiation and cell proliferation.
Features and Benefits
- Exhibit minimal background fluorescence
- Reduced light scattering thereby minimizing crosstalk between wells. 20% higher signal to background ratio
- Clear and flat well bottom, allowing direct microscopic viewing of cells and samples without compromising clarity.
- Compatible with Top and Bottom Reading Instruments
- The microplates are treated with Corning CellBIND® surface treatment, promoting optimal cell attachment for reliable cell-based assays.
- Gamma Radiation Sterilization and Nonpyrogenic
- Wells are assigned a unique alphanumeric code, enabling easy well identification
Legal Information
CellBIND is a registered trademark of Corning, Inc.
Corning is a registered trademark of Corning, Inc.
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David Merrick et al.
Science (New York, N.Y.), 364(6438) (2019-04-27)
Metabolic health depends on the capacity of adipose tissue progenitor cells to undergo de novo adipogenesis. The cellular hierarchy and mechanisms governing adipocyte progenitor differentiation are incompletely understood. Through single-cell RNA sequence analyses, we show that the lineage hierarchy of
Anthony R Angueira et al.
Nature metabolism, 3(4), 469-484 (2021-04-14)
Brown adipose tissue can expend large amounts of energy, and therefore increasing its size or activity is a promising therapeutic approach to combat metabolic disease. In humans, major deposits of brown fat cells are found intimately associated with large blood
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