Danish chemist aims to bring supermolecules to the world

14-Jan-2013 - Denmark

With applications spanning from non-shrink dental fillings to DNA-drugs the so-called dendrimers are a near magical material. Now a chemist from the University of Copenhagen has vowed to make the weird molecules famous.

When a molecule's structure resembles that of two tree crowns growing into one another, it really ought to be organic. But if that molecule happens to be synthetic, well, that is something exciting! Dendrimers are types of molecules fitting this bill. They are synthetic, but natural in appearance. The have incredible properties and now, a Danish chemist has written a book to broaden awareness of these remarkable synthetic macromolecules.

Mimicing the properties of hair, pearl and bone

The hyper-branched tree-like molecules are as large and complex as nature's very own chemical substances. They can be used to mimic the natural properties of materials such as hair, wood, mother of pearl and bone. But they are entirely synthetic. This makes them exceptionally interesting for a range of industrial and scientific applications because they serve as bridge builders between the biological and chemical, explains Bolstad. Their properties make them ideal for when you want to examine how biological/chemical systems, such as proteins, behave. Among other abilities, chemists are able to build protein-like substances in which one is able to change ONE property at a time, thus furthering much greater precision within biomedical research.

"In contrast with conventional biotechnological methods, with dendrimer chemistry we are no longer bound by nature's own limits. We can actually design molecules to precisely suit our needs," states Bolstad.

Weird molecules appliccable in gene therapy

The ability to fine tune is particularly useful in the development of new approaches to combat disease via gene therapy. In theory, genetic material such as siRNA could be used to combat hereditary diseases. However, bodily cells have evolved to repel foreign genetic material. Therefore, a big bushy molecule designed to look like something that cells might recognize, tolerate and allow in would be a welcome advance. This type of molecule would be a perfect Trojan horse for drug delivery. Dendrimer molecules are not just the wave of the future though. Indeed, plenty of patents have already been taken out in the area.

Largest patent holder is in the beauty industry

In the 35 years since Dendrimers have been around, the bushy molecules have found a variety of applications. One of the largest patent holders is the cosmetics giant L'Oreal. Not all that surprising since the molecules are good at mimicking hair, skin and nails. But dendrimers are also used for a variety of purposes including dental filler that does not shrink, ink-jet ink that flows more easily through the spray head and membranes for desalinization plants, explains Jørn Bolstad Christensen.

"I was really surprised when I went out to discover in which areas this molecule is used. Sure, I knew that it could do some fantastic things, but not that the areas of their application were so many and so divergent," says Bolstad Christensen, who hopes that the book will stimulate thoughts within the minds of those chemists and biologists alike who have yet to discover these giant and exciting molecules.

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Topic world Gene therapy

Genetic diseases once considered untreatable are now at the center of innovative therapeutic approaches. Research and development of gene therapies in biotech and pharma aim to directly correct or replace defective or missing genes to combat disease at the molecular level. This revolutionary approach promises not only to treat symptoms, but to eliminate the cause of the disease itself.

View topic world
Topic world Gene therapy

Topic world Gene therapy

Genetic diseases once considered untreatable are now at the center of innovative therapeutic approaches. Research and development of gene therapies in biotech and pharma aim to directly correct or replace defective or missing genes to combat disease at the molecular level. This revolutionary approach promises not only to treat symptoms, but to eliminate the cause of the disease itself.