182
Bioelectromagnetism
Heyers, D., Manns, M., Luksch, H., Güntürkün, O., and Mouritsen, H. 2007. A visual pathway links
brain structures active during magnetic compass orientation in migratory birds. PLoS One 2:e937.
Heyers, D., Zapka, M., Hofmeister, M., Wild, J.M., and Mouritsen, H. 2010. Magnetic feld changes activate
the trigeminal brainstem complex in a migratory bird. Proc Natl Acad Sci USA 107(20):9394–9399.
Hiscock, H.G., Hiscock, T.W., Kattnig, D.R., Scrivener, T., Lewis, A.M., Manolopoulos, D.E., and Hore,
P.J. 2019. Navigating at night:fundamental limits on the sensitivity of radical pair magnetorecep
tion under dim light. Q Rev Biophys 52:e9.
Hiscock, H.G., Kattnig, D.R., Manolopoulos, D.E., and Hore, P.J. 2016a. Floquet theory of radical pairs
in radiofrequency magnetic felds. J Chem Phys 145:124117.
Hiscock, H.G., Mouritsen, H., Manolopoulos, D.E., and Hore, P.J. 2017. Disruption of magnetic compass
orientation in migratory birds by radiofrequency electromagnetic felds. Biophys J 113(7):1475–1484.
Hiscock, H.G., Worster, S., Kattnig, D.R., Steers, C., Jin Y., Manolopoulos, D.E., Mouritsen, H., and Hore, P.J.
2016b. Te quantum needle of the avian magnetic compass. Proc Natl Acad Sci USA 113(17):4634–4639.
Hochstoeger, T., Al Said, T., Maestre, D., Walter, F., Vilceanu, A., Pedron, M., Cushion, T.D., Snider,
W., Nimpf, S., Nordmann, G.C., Landler, L., Edelman, N., Kruppa, L., Durnberger, G., Mechtler,
K., Schuechner, S., and Ogris, E. 2020. Te biophysical, molecular, and anatomical landscape of
pigeon CRY4: a candidate light-based quantal magnetosensor. Sci Adv 6(33):eabb9110.
Hof, A.J., Rademaker, H., Van Grondelle, R., and Duysens, L.N.M. 1977. On the magnetic feld depen
dence of the yield of the triplet state in reaction centers of photosynthetic bacteria. Biochem
Biophys Acta 460(3):547–554.
Hogben, H.J., Efmova, O., Wagner-Rundell, N., Timmel, C.R., and Hore, P.J. 2009. Possible involvement
of superoxide and dioxygen with cryptochrome in avian magnetoreception: origin of Zeeman
resonances observed by in vivo EPR spectroscopy. Chem Phys Lett 480(1–3):118–122.
Hore, P.J. 2019. Upper bound on the biological efects of 50/60 Hz magnetic felds mediated by radical
pairs. eLife 8:e44179.
Hore, P.J., and Mouritsen, H. 2016. Te radical-pair mechanism of magnetoreception. Annu Rev Biophys
45:299–344.
Horiuchi, M., Maeda, K., and Arai, T. 2003. Magnetic feld efect on electron transfer reactions of favin
derivatives associated with micelles. Appl Magn Reson 23:309–318.
Huang, Y., Baxter, R., Smith, B.S., Partch, C.L., Colbert, C.L., and Deisenhofer, J. 2006. Crystal structure
of cryptochrome 3 from Arabidopsis thaliana and its implications for photolyase activity. Proc
Natl Acad Sci USA 103(47):17701–17706.
Ikeya, M., Furuta, H., Kajiwara, N., and Anzai, H. 1996. Ground electric feld efects on rats and spar
rows: seismic anomalous animal behaviors (SAABs). Jpn J Appl Phys 35(8):4587–4594.
Ishizaki, A., Calhoun, T.R., Schlau-Cohen, G.S., and Fleming, G.R. 2010. Quantum coherence and its
interplay with protein environments in photosynthetic electronic energy transfer. Phys Chem
Chem Phys 12(27):7319–7337.
Ishizaki, A., and Fleming, G.R. 2009. Teoretical examination of quantum coherence in a photosyn
thetic system at physiological temperature. Proc Natl Acad Sci USA 106(41):17255–17260.
Ishizaki, A., and Fleming, G.R. 2011. On the interpretation of quantum coherent beats observed in
two-dimensional electronic spectra of photosynthetic light harvesting complexes. J Phys Chem B
115(19):6227–6233.
Itoh, K., Hayashi, H., and Nagakura, S. 1969. Determination of singlet-triplet separation of a weakly
interacting radical pair from ESR spectrum. Mol Phys 17:561–577.
Iwata, T., Zhang, Y., Hitomi, K., Getzof, E.D., and Kandori, H. 2010. Key dynamics of conserved aspara
gine in a cryptochrome/photolyase family protein by fourier transform infrared spectroscopy.
Biochemistry 49(41):8882–8891.
Kavokin, K. 2009. Te puzzle of magnetic resonance efect on the magnetic compass of migratory birds.
Bioelectromagnetics 30(5):402–410,