Protein Immobilization on Ni(II) Ion Patterns Prepared by Microcontact Printing and Dip-Pen Nanolithography


Chien-Ching Wu, David N. Reinhoudt, Cees Otto, Aldrik H. Velders, Vinod Subramaniam


ACS nano

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An indirect method of protein patterning by using Ni(II) ion templates for immobilization via a specific metal−protein interaction is described. A nitrilotriacetic acid (NTA)-terminated self-assembled monolayer (SAM) allows oriented binding of histidine-tagged proteins via complexation with late first-row transition metal ions, such as Ni(II). Patterns of nickel(II) ions were prepared on NTA SAM-functionalized glass slides by microcontact printing (μCP) and dip-pen nanolithography (DPN) to obtain micrometer and submicrometer scale patterns. Consecutive dipping of the slides in 6His-protein solutions resulted in the formation of protein patterns, as was subsequently proven by AFM and confocal fluorescence microscopy. This indirect method prevents denaturation of fragile biomolecules caused by direct printing or writing of proteins. Moreover, it yields well-defined patterned monolayers of proteins and, in principle, is indifferent for biomolecules with a high molecular weight. This approach also enabled us to characterize the transfer of Ni(II) ions on fundamental parameters of DPN, such as writing speeds and tip−surface contact times, while writing with the smallest possible ink “molecules” (i.e., metal ions).

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Date added: 2012-08-10 21:30:53 | Last time updated: 2012-08-10 19:30:53 | Viewed: 783 times

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