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Americium preferred: lanmodulin, a natural lanthanide-binding protein favors an actinide over lanthanides.

Helena SingerBjörn DrobotCathleen ZeymerRobin SteudtnerLena J Daumann
Published in: Chemical science (2021)
The separation and recycling of lanthanides is an active area of research with a growing demand that calls for more environmentally friendly lanthanide sources. Likewise, the efficient and industrial separation of lanthanides from the minor actinides (Np, Am-Fm) is one of the key questions for closing the nuclear fuel cycle; reducing costs and increasing safety. With the advent of the field of lanthanide-dependent bacterial metabolism, bio-inspired applications are in reach. Here, we utilize the natural lanthanide chelator lanmodulin and the luminescent probes Eu 3+ and Cm 3+ to investigate the inter-metal competition behavior of all lanthanides (except Pm) and the major actinide plutonium as well as three minor actinides neptunium, americium and curium to lanmodulin. Using time-resolved laser-induced fluorescence spectroscopy we show that lanmodulin has the highest relative binding affinity to Nd 3+ and Eu 3+ among the lanthanide series. When equimolar mixtures of Cm 3+ and Am 3+ are added to lanmodulin, lanmodulin preferentially binds to Am 3+ over Cm 3+ whilst Nd 3+ and Cm 3+ bind with similar relative affinity. The results presented show that a natural lanthanide-binding protein can bind a major and various minor actinides with high relative affinity, paving the way to bio-inspired separation applications. In addition, an easy and versatile method was developed, using the fluorescence properties of only two elements, Eu and Cm, for inter-metal competition studies regarding lanthanides and selected actinides and their binding to biological molecules.
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