Y04C-02-5PK
CellASIC ONIX plate for haploid yeast cells (4 chamber, 3.5-5 micron)
The Y04 plates for Haploid Yeast Cells utilize a microfabricated silicone ceiling with a height similar to yeast cells to restrict their growth in a single focal plane & maintaining x,y position over time.
Synonym(s):
Haploid Yeast Cell Plate, Haploid Yeast Plate, ONIX Yeast Plate
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About This Item
material
PMMA , glass , polycarbonate , polydimethylsiloxane (PDMS)
manufacturer/tradename
CellASIC® ONIX
W × L × H
85.48 mm × 127.76 mm × 14.35 mm
compatibility
for use with cells sized 3.5–5.0 μm
shipped in
ambient
storage temp.
no temp limit
General description
Application
- Time-lapse analysis of yeast cells
- Long-term continuous perfusion experiments
- Solution exchange experiments (induction, inhibition, drug dosing, etc.)
- Comparison of up to 4 different cell types or exposure conditions(media components) in parallel
- Cell division tracking (follow mother/daughter cells over generations)
- Temperature and gas atmospheric control (temperature shift, anoxic conditions etc.)
Features and Benefits
- Compatible with CellASIC® ONIX2 Microfluidic system and ONIX2 Manifolds
- Enables perfusion-based, long-term, live-cell analysis with solutionswitching
- The plate offers a controlled and dynamicmicroenvironment for cells
Legal Information
Storage Class
12 - Non Combustible Liquids
wgk
nwg
flash_point_f
Not applicable
flash_point_c
Not applicable
Certificates of Analysis (COA)
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Related Content
We used the CellASIC™ ONIX MicroFluidic System, in conjunction with the M04S microfluidic plate, to achieve perfusion-based microenvironment control and study drug-induced cell death of 3D cultures of MCF7 cells in Matrigel®. The microfluidic chamber recreates the physiologic mass transport condition for optimized cell health. Four upstream fluidic channels allow controlled exposure of the cells to different solutions. The plate can also be cultured in a standard incubator using a dedicated gravity-driven flow channel. The cells are in contact with a #1.5 thickness (170 μm) optical glass surface, enabling high quality imaging using an inverted microscope. An integrated micro-incubator system delivers temperature and gas control to the microfluidic chambers.
The CellASIC™ ONIX Microfluidic System, in conjunction with the M04S microfluidic plate, provides perfusion-based microenvironment control for long-term, high quality, live cell microscopy. The microfluidic chamber recreates the physiologic mass transport condition for optimized cell health. Four upstream fluidic channels allow controlled exposure of the cells to different solutions during live imaging. The plate can also be cultured in a standard incubator using a dedicated gravity driven flow channel. The cells are in contact with a #1.5 thickness (170 µm) optical glass surface, enabling high quality imaging using an inverted microscope. An integrated micro-incubator system delivers temperature and gas control to the microfluidic chambers.
Global Trade Item Number
| SKU | GTIN |
|---|---|
| Y04C-02-5PK | 04053252823633 |