214

Bioelectromagnetism

Teixeira da Silva, J.A., and Dobranszki, J. (2016). Magnetic felds: How is plant growth and development

impacted? Protoplasma 253(2), 231–248. doi: 10.1007/s00709-015-0820-7.

Valentim, F.L., van Mourik, S., Pose, D., Kim, M.C., Schmid, M., van Ham, R.C.H.J., et al. (2015). A

quantitative and dynamic model of the arabidopsis fowering time gene regulatory network. PLos

One 10(2). doi: 10.1371/journal.pone.0116973.

Valiron, O., Peris, L., Rikken, G., Schweitzer, A., Saoudi, Y., Remy, C., et al. (2005). Cellular disorders

induced by high magnetic felds. J Magn Reson Imaging 22(3), 334–340. doi: doi: 10.1002/jmri.20398.

Wiltschko, R., Stapput, K., Talau, P., and Wiltschko, W. (2010). Directional orientation of birds by the

magnetic feld under diferent light conditions. J R Soc Interface 7(Suppl 2), S163–S177. doi: 10.1098/

rsif.2009.0367.focus.

Xu, C.X., Yin, X., Lv, Y., Wu, C.Z., Zhang, Y.X., and Song, T. (2012). A near-null magnetic feld afects

cryptochrome-related hypocotyl growth and fowering in Arabidopsis. Adv Space Res 49(5),

834–840.

Xu, C.X., Wei, S.F., Lu, Y., Zhang, Y.X., Chen, C.F., and Song, T. (2013). Removal of the local geomagnetic

feld afects reproductive growth in Arabidopsis. Bioelectromagnetics 34(6), 437–442.

Xu, C., Lv, Y., Chen, C., Zhang, Y., and Wei, S. (2014). Blue light-dependent phosphorylations of crypto­

chromes are afected by magnetic felds in Arabidopsis. Adv Space Res 53(7), 1118–1124.

Xu, C., Li, Y., Yu, Y., Zhang, Y., and Wei, S. (2015). Suppression of Arabidopsis fowering by near-null

magnetic feld is afected by light. Bioelectromagnetics 36(6), 476–479. doi: 10.1002/bem.21927.

Xu, C., Yu, Y., Zhang, Y., Li, Y., and Wei, S. (2017). Gibberellins are involved in efect of near-null mag­

netic feld on Arabidopsis fowering. Bioelectromagnetics 38(1), 1–10. doi: 10.1002/bem.22004.

Xu, C.X., Zhang, Y.X., Yu, Y., Li, Y., and Wei, S.F. (2018). Suppression of Arabidopsis fowering by near-

null magnetic feld is mediated by auxin. Bioelectromagnetics 39(1), 15–24. doi: 10.1002/bem.22086.

Zablotskii, V., Lunov, O., Novotná, B., Churpita, O., Trošan, P., Holáň, V., et al. (2014). Down-regulation

of adipogenesis of mesenchymal stem cells by oscillating high-gradient magnetic felds and

mechanical vibration. Appl Phys Lett 105(10), 103702. doi: 10.1063/1.4895459.

Zablotskii, V., Polyakova, T., and Dejneka, A. (2021). Modulation of the cell membrane potential and

intracellular protein transport by high magnetic felds. Bioelectromagnetics 42(1), 27–36. doi:

10.1002/bem.22309.

Zollitsch, T.M., Jarocha, L.E., Bialas, C., Henbest, K.B., Kodali, G., Dutton, P.L., et al. (2018). Magnetically

sensitive radical photochemistry of non-natural favoproteins. J Am Chem Soc 140(28), 8705–8713.

doi: 10.1021/jacs.8b03104.