<br><div class="old-content"><strong></strong><strong> </strong><style></style><div class="old-content"><strong> </strong><div class="old-content"><strong>Greiner Bio-One GmbH and PolyAn GmbH </strong><div class="old-content"><div class="old-content">&nbsp;</div><div class="old-content">The 3D epoxy surface of the 96-well microplates is the idealplatform for covalent binding of proteins, peptides, DNA and oligonucleotides.The 3D functional matrix allows the development of covalent binding ofnucleophiles to the plate surface without complex coupling chemistry. Thestructure of the matrix, which has a thickness of up to 50 nm, also reducesunspecific binding to a minimum.<div class="old-content"><div class="old-content">&nbsp;</div><div class="old-content"><strong>Greiner Bio-One GmbH and PolyAn GmbH</strong><br><div class="old-content">info@de.gbo.com&nbsp; <br><a href="http://www.greinerbioone.com/en/start/ " target="_blank">www.gbo.com/bioscience</a><div class="old-content">&nbsp;&nbsp;<div"></div"></div></div></div></div></div></div></div></div></div>&nbsp;

October 2013

The 3D epoxy surface of the 96-well microplates is the ideal platform for covalent binding of proteins, 

peptides, DNA and oligonucleotides

Internal Medicine

96-well microplates with 3D epoxy 

surface for covalent binding of biomolecules

Article

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Greiner Bio-One GmbH and PolyAn GmbH The 3D epoxy surface of the 96-well microplates is the idealplatform for covalent binding of proteins, peptides, DNA and oligonucleotides.The 3D functional matrix allows the development of covalent binding ofnucleophiles to the plate surface without complex coupling chemistry. Thestructure of the matrix, which has a thickness of up to 50 nm, also reducesunspecific binding to a minimum. Greiner Bio-One GmbH and PolyAn GmbH info@de.gbo.com www.gbo.com/bioscience

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October 2013

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