Of course using synthetic biological methods is a great idea to achieve our goal. Magnetotactic bacteria (MTB), a kind of bacteria that can be attracted by magnet, are a superexcellent choice for us. We noticed that MTB contains a fantastic structure-- magnteosome. It is a magnetic nano materials covered by biofilm. And the magnetosome is essential to magnetotaxis.
After our investigation, we decided to connect laccases to the magnetosome's membrane to gather them on the cathode surface.
But there are two problems for us to solve. On one hand, MTB are anaerobic, it means they are hard to be cultured. On the other hand, it is difficult to modify them. So, we were aiming to construct a magnetosome expression system in E.coli to solve those problems. According to a paper in
Nature nanotechonlogy
, we confirmed that transferring four related operons can make other bacteria magnetotactic
[9]
.
Reference
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[8] Araujo A C V, Abreu F, Silva K T, et al. Magnetotactic Bacteria as Potential Sources of Bioproducts[J]. Marine Drugs, 2015, 13(1):389-430
[9] Kolinko I; Lohße A; Borg S; Raschdorf O; Jogler C; Tu Q; Pósfai M; Tompa E; Plitzko JM; Brachmann A; Wanner G; Müller R; Zhang Y; Schüler D. Biosynthesis of magnetic nanostructures in a foreign organism by transfer of bacterial magnetosome gene clusters.[J]. Nature Nanotechnology, 2014, 9(3):193-197