EPPENDORF MULTIPORATOR PDF

Multiporator combines a hypoosmolar buffer system with exponentially diminishing, electronically regulated pulses in the microsecond range to ensure optimum. Eppendorf Multiporator for the Electroporation of Eukaryotic Cells The Multiporator in combination with the specially designed electroporation buffers is optimally. Shop Smart & Save: Eppendorf® Multiporator® Electroporators.

Author: Vudojinn Mikazilkree
Country: Uganda
Language: English (Spanish)
Genre: Art
Published (Last): 26 July 2010
Pages: 344
PDF File Size: 2.13 Mb
ePub File Size: 4.24 Mb
ISBN: 921-7-60966-454-7
Downloads: 63992
Price: Free* [*Free Regsitration Required]
Uploader: Malajind

Applications include the transfection of animal and human cell lines, embryonic stem cells, primary cells, oocytes, and plant cells. The relevant parameters of vol Electroporation of eukaryotic cells The Multiporator in combination with the specially designed electroporation buffers is the optimum balanced eppndorf for the efficient and gentle electroporation of eukaryotic cells.

Electroporation of eukaryotic cellsThe Multiporator in combination with the specially designed electroporation buffers is the optimum balanced system for the efficient and gentle electroporation of eukaryotic cells. Dimensions D x H x W: Be the first to review this product. Cell-damaging influences such as changes in pH values, aluminum release, and electrophoresis of the cell content are minimised.

In this way, even highly sophisticated transfection experiments are possible. English newsletter Dutch newsletter German newsletter French newsletter.

  CURSO DE TELEKINESIS PDF

Eppendorf Multiporator for multiporatr Electroporation of Eukaryotic Cells The Multiporator in combination with the specially designed electroporation buffers is optimally balanced for efficient and gentle electroporation of gram-positive and gram-negative bacteria and yeast in addition to eukaryotic cells.

Save time Submit your details once and make multiple inquiries.

Eppendorf Multiporator — Gemini BV

It allows the electro-deformation of the cells and as a result a easier membrane penetration. Why request a quote through SelectScience?

Cell-damaging influences are minimized. Secure We only pass your details on to trusted suppliers at your request. Downloads Manuals Eppendorf Multiporator Instruction multtiporator.

Two optional function modules extend the application range of the Multiporator to the transfection of bacteria and yeasts as well as cell fusion. Hypoosmolar buffer system swells the cell for easier membrane penetration, which leads to higher transfection rates.

Soft Pulse technology applies extremely short electric pulses multpiorator the highest survival rates. Applications include the transfection of animal and human cell lines, embryonic stem cells, primary cells, oocytes and plant cells. This ensures reliable and reproducible results.

No rights can be derived. Relevant parameters of voltage and pulse duration are directly set. Details Eppendorf Multiporator for the Electroporation eppendrof Eukaryotic Cells The Multiporator in combination with the specially designed electroporation buffers is optimally balanced for efficient and gentle electroporation of gram-positive and gram-negative bacteria and yeast in addition to eukaryotic cells.

  BEWITCHED HP MALLORY PDF

Personal tools Log in. Request Pricing Receive your quote directly from the manufacturer.

Eppendorf® Multiporator® Electroporators

All prices and information on this website are subject to errors and changes. Receive your quote directly from the manufacturer. Fast Your inquiry will be delivered straight to the manufacturer. The hypoosmolar buffer system increases the transfection efficiency, in particular for mammalian rppendorf. Quick Links Request Product Information Contact Supplier Reviews Description 0 Scientists have reviewed this product Write the First Review No Reviews Electroporation of eukaryotic cells The Multiporator in combination with the specially designed electroporation buffers is eppendorr optimum balanced system for the efficient and gentle electroporation of eukaryotic cells.