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B04A-03

CellASIC ONIX plate for bacteria cells (4 chamber)

Name: CellASIC ONIX plate for bacteria cells (4 chamber)
Brand: MM

The B04 plates utilize a microfabricated silicone ceiling with a height similar to bacteria cells to restrict their growth in a single focal plane & maintain x,y position over time.

Synonym(s):

Bacterial culture plate

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About This Item

UNSPSC Code:

41104923

NACRES:

NB.22

eCl@ss:

32011202

Material:

PMMA , glass , polycarbonate , polydimethylsiloxane (PDMS)

Manufacturer/tradename:

CellASIC^® ONIX

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Properties

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 0.7–3.5 μm

Description

General description

CellASIC ONIX plate for bacteria cells (4 chambers) is designed microfabricated silicone ceiling with a height similar to bacterial cells to restrict their growth in a single focal plane & maintain x,y position over time.

Application

CellASIC ONIX plate for bacteria cells (4 chambers) has been used in the microfluidic live-cell imaging of bacterial cells.

Legal Information

CELLASIC is a registered trademark of Merck KGaA, Darmstadt, Germany

Storage Class

11 - Combustible Solids

wgk

WGK 1

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We demonstrate here the ability to conduct gene expression analysis using the CellASIC™ ONIX System with M04S microfluidic plates. Ultimately, directly correlating gene expression patterns to phenotypes observed during live cell imaging can provide powerful, meaningful functional genomics data, revealing signaling networks and novel biomolecular interactions.

Primary neuron culture and analysis facilitated by the CellASIC®ONIX Microfluidic Platform

Perturbation analysis of live neurons is crucial for fully understanding the nervous system and requires spatiotemporal microenvironment control of cultured neurons. Although advances in microfluidics have enabled such studies, most microfluidic analyses of neurons have required prohibitive commitment of resources. We have demonstrated a novel, optimized microfluidic platform for long-term culture of primary neurons to monitor dynamic cellular processes in real time. The platform enables users to program automated changes to culture conditions without interrupting live cell analysis experiments. In addition, the microfluidic plates offer a superior platform for visualization when compared to plasticware used for conventional static culture. Finally, the platform requires little to no specialized expertise or dedicated personnel for operation, thereby presenting significant advantages over traditional microfluidic cell culture systems.

進化した顕微鏡用ライブセルイメージング環境制御ツールCellASIC ONIX2 微小流体システム

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Tuberculosis (TB) results in both morbidity and mortality on a global scale. With drug resistance on the increase, there is an urgent need to develop novel anti-mycobacterials. Thus, we assessed the anti-mycobacterial potency of three novel synthetic peptoids against drug-susceptible

Global Trade Item Number

SKU	GTIN
B04A-03-5PK	04053252977602