Article Synopsis
- The analysis discusses how recent reports suggest that magnetic fields influence biological molecules and cells, specifically highlighting claims about a protein complex acting as a magnetic compass and magnetic control of ion channels.
- It argues that these claims conflict with established physics, pointing out significant discrepancies in the reported phenomena.
- The author concludes that if these effects are real, they must be explained by entirely different mechanisms than those proposed, emphasizing the limitations of using protein complexes as tools for magnetic engineering in cells.
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Article Abstract
This is an analysis of how magnetic fields affect biological molecules and cells. It was prompted by a series of prominent reports regarding magnetism in biological systems. The first claims to have identified a protein complex that acts like a compass needle to guide magnetic orientation in animals (Qin et al., 2016). Two other articles report magnetic control of membrane conductance by attaching ferritin to an ion channel protein and then tugging the ferritin or heating it with a magnetic field (Stanley et al., 2015; Wheeler et al., 2016). Here I argue that these claims conflict with basic laws of physics. The discrepancies are large: from 5 to 10 log units. If the reported phenomena do in fact occur, they must have causes entirely different from the ones proposed by the authors. The paramagnetic nature of protein complexes is found to seriously limit their utility for engineering magnetically sensitive cells.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5016093 | PMC |
| http://dx.doi.org/10.7554/eLife.17210 | DOI Listing |
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