Institute of Physical Chemistry of the Polish Academy of Sciences
In a carefully designed polymer, researchers at the Institute of Physical Chemistry of the Polish Academy of Sciences have imprinted a sequence of a single strand of DNA. The resulting negative remained chemically active and was capable of binding the appropriate nucleobases forming a genetic code. The polymer matrix - the first of its type in history - thus functioned exactly like a sequence of real DNA.
Imprinting of chemical molecules in a polymer, or molecular imprinting, is a well-known method that has been under development for many years. However, no-one has ever before used it to construct a polymer chain complementing a sequence of a single strand of DNA. This feat has just been accomplished by researchers from the Institute of Physical Chemistry of the Polish Academy of Sciences (IPC PAS) in Warsaw in collaboration with the University of North Texas (UNT) in Denton, USA, and the University of Milan in Italy. In an appropriately selected polymer, they reproduced a genetically important DNA sequence, constructed of six nucleobases.
Typically, molecular imprinting is accomplished in several steps. The molecules intended for imprinting are first placed to a solution of monomers (i.e. the basic "building blocks" from which the future polymer is to be formed). The monomers are selected so as to automatically arrange themselves around the molecules being imprinted. Next, the resulting complex is electrochemically polymerized and then the imprinted molecules are extracted from the fixed structure. This process results in a polymer structure with molecular cavities matching the original molecules with their size and shape, and even their local chemical properties.
"Using molecular imprinting, we can produce, e.g. recognition films for chemical sensors, capturing molecules of only a specific chemical compound from the surroundings - since only these molecules fit into the existing molecular cavities. However, there's no rose without a thorn. Molecular imprinting is perfect for smaller chemical molecules, but the larger the molecule, the more difficult it is to imprint it accurately into the polymer," explains Prof. Wlodzimierz Kutner (IPC PAS).
Read full article at: https://www.eurekalert.org/pub_releases/2017-01/iopc-ao011817.php
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