CherryWilliam Full Experimental System for Mammalian Cells

FULL CONTROL ON YOUR CELLS MICROENVIRONMENT

Perform complex microfluidic operations (up to four controlled simultaneous flows).
Ultimate control of applied media or reagents (up to 10 types in a single experiment).
Protect your cells from shear stress by applying pressures between -1 to 8 bar.
Changeable temperature between 5 and 80 °C.

STABLE & PRECISE : TEMPERATURE, CO2, O2, AND PERFUSION

Fully programmable system with user friendly interface.
First software algorithm compensating room temperature variation.
Pressure stability of 0.005%
Perfused media gas concentrations control , CO2 (0-20%) and O2 (0-20%), with 0.1% accuracy.

AUTOMATED AND SYNCHRONIZED EXPERIMENTAL DATA GATHERING


COMPATIBLE WITH INVERTED & UPRIGHT MICROSCOPE IMAGING SYSTEMS


SPECIFIC DISPOSABLES FOR DIFFERENT CELLS AND CELLS’ COMBINATIONS


Make your scientific creativity your top one priority and optimize your setup and experimental times.

PRE-ORDERING OR TECHNICAL INFORMATION

Your Email (required)

Your Message

captcha

Publications

Inhibition of microtubule assembly using fast temperature changes

Inhibition of microtubule assembly using fast temperature changes

(Development, 2017) Summary | In most species, oocytes lack centrosomes. Accurate meiotic spindle assembly and chromosome segregation – essential to prevent...
Read More
Medium renewal and temperature control for live-cell imaging

Medium renewal and temperature control for live-cell imaging

(Open Biology, 2016) Summary | Monitoring cellular responses to changes in growth conditions and perturbation of targeted pathways is integral to...
Read More
Real-time qPCR using CherryTemp on-a-chip

Real-time qPCR using CherryTemp on-a-chip

(Lab on Chip, 2016) Summary | To control future infectious disease outbreaks, like the 2014 Ebola epidemic, it is necessary to...
Read More
Temperature control of thermosensitive protein regulation

Temperature control of thermosensitive protein regulation

(Developmental cell, 2009) Summary | The spindle midzone—composed of antiparallel microtubules, microtubule-associated proteins (MAPs), and motors—is the structure responsible for microtubule...
Read More

GET A QUOTE OR TECHNICAL INFORMATION

Heat and cool down your samples in the 5 to 45°C range

Your Email (required)

Your Message

captcha

Watch some videos of CherryTemp

This is a unique website which will require a more modern browser to work! Please upgrade today!

Social Media Auto Publish Powered By : XYZScripts.com