Chimicale care actioneaza ca si cum ar fi forme de viata…


Crawling chemical system acts as if it’s alive

They crawl. They eat. They excrete. So you’d be forgiven for thinking these globules created by a team Japan were alive – but they’re not.

Discovering life-like motion in non-living systems fascinates Akihisa Shioi, from Doshisha University. He and his team are constantly combining new chemicals to investigate the idea.

They already knew that droplets of didodecyldimethylammonium bromide (DDAB), a cheap surfactant, react with iodide ions, then scoot around and leave chemical traces, like miniature turbo-snails. Unlike snails though, these vesicles shrank, and collapsed after a few seconds. They needed feeding. Oleic acid and calcium ions proved the missing link.

Together, DDAB, oleate and calcium, form globules, called vesicles, with intriguing life-like movement. The vesicles crawl around on a glass slide by reacting with iodide ions, ingest smaller vesicles to maintain their size and energy, and leave behind waste; just like a living system.

Despite having an inkling that this combination of chemicals would be an interesting mix, Shioi was surprised to see the vesicles acting this way.

‘This system is a demonstration of the potential of vesicles as hypothetical precursor compartment structures of the first cells, in how they can offer much more than a simple „bag” separating internal and external environments,’ says Peter Walde, an expert in these kinds of materials at Swiss Federal Institute of Technology (ETH) in Zurich, Switzerland. He hopes scientists will explore the concepts displayed here within the context of complex chemical systems from which the first forms of life evolved.

‘Reconstructing life-like systems in the laboratory not only refers to the long-age dream of the scientist making life from non-living, but can help in understanding the principles of life from a physico-chemical perspective,’ adds Pasquale Stano, a systems chemist from Roma Tre University, Italy.

Direction control and alternative globule materials, which are biocompatible, are Shioi’s next steps for his chemical creations. Progress with these goals, could lead to exciting applications in micropatterning, drug delivery, or as scavengers to clean blood vessel walls.

However, Pier Luigi Luisi, a specialist in synthetic biology at Roma Tre University, warns that phenomena like this mechanical motion are generally ‘due to a very particular context of environmental conditions.’ Therefore, changing any aspect of the experiment could lose the particles their movement.

Shioi recently demonstrated his research to a class of children, and they were hooked. Seeing the vesicles scuttling around and gobbling up smaller ones, we all instinctively ask, as the children did, ‘Are they alive?!’

http://www.rsc.org/chemistryworld/2016/05/crawling-chemical-system-globule-alive-move-eat-defecate

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Acest articol a fost publicat în STIINTA-TEHNOLOGIE. Pune un semn de carte cu legătura permanentă.

Un răspuns la Chimicale care actioneaza ca si cum ar fi forme de viata…

  1. mirceascalat1948 zice:

    Cercetatorii nu au descoperit nimic (adica nu au creat ceva ce nu ar fi existat), ci au vazut ceea ce pina acum nu au avut mijloace ca sa vada! Ce se intampla in micro-cosmos sunt taine care ni se dezvaluie incetul cu incetul in ritmul in care ne punem intrebari, precum si in ceea ce priveste macro-cosmosul.

    Apreciază

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