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CLS3397

Corning® HTS Transwell®-24 well permeable supports

HTS Transwell-24 units with 0.4 μm pore polycarbonate membrane and 6.5 mm inserts, TC-treated, sterile, 12/cs

Synonym(s):

corning transwell, transwell corning

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About This Item

UNSPSC Code:
41121800
NACRES:
NB.13

material

clear polystyrene plate
flat bottom wells clear
polycarbonate membrane
round wells

description

12 HTS Transwell-24 units loaded into twelve 24 well plates

sterility

sterile

feature

lid
skirt
plate format: 24 wells

packaging

case of 12
pack of 12

manufacturer/tradename

Corning 3397

insert size

0.1 mL

membrane thickness

10 μm

size

24 wells

surface area

0.33 cm2 , cell growth area

well working volume

12 mL

color

clear

pore size

0.4 μm pore size

suitability

suitable for (cell culture applications; optimal for cell attachment)

binding type

Tissue Culture (TC)-treated surface

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General description

Corning® HTS Transwell® 24 Well Permeable Supports

Features and Benefits:

  • Treated for optimal cell attachment
  • 0.4 μm to 3 μm pore polycarbonate or polyester membrane
  • Reservoirs may be purchased separately
  • Sterilized by gamma radiation

Legal Information

Corning is a registered trademark of Corning, Inc.
Transwell is a registered trademark of Corning, Inc.

Certificates of Analysis (COA)

Search for Certificates of Analysis (COA) by entering the products Lot/Batch Number. Lot and Batch Numbers can be found on a product’s label following the words ‘Lot’ or ‘Batch’.

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Gareth W Fearnley et al.
Biology open, 8(5) (2019-05-11)
New blood vessel sprouting (angiogenesis) and vascular physiology are fundamental features of metazoan species but we do not fully understand how signal transduction pathways regulate diverse vascular responses. The vascular endothelial growth factor (VEGF) family bind membrane-bound receptor tyrosine kinases
Yolandi van der Merwe et al.
Scientific reports, 9(1), 3482-3482 (2019-03-07)
Injury to retinal ganglion cells (RGC), central nervous system neurons that relay visual information to the brain, often leads to RGC axon degeneration and permanently lost visual function. Herein this study shows matrix-bound nanovesicles (MBV), a distinct class of extracellular

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