8. G. Panitchayangkoon et al., “Long-lived quantum coherence in photosynthetic complexes at physiological temperature,” PNAS, 107:12766–70, 2010.
9. E. Collini et al., “Coherently wired light-harvesting in photosynthetic marine algae at ambient temperature,” Nature, 463:644–47, 2010.
10. T.R. Calhoun et al., “Quantum coherence enabled determination of the energy landscape in light-harvesting complex II,” J Phys Chem B, 113:16291–95, 2009.
11. H.-G. Duan et al., “Nature does not rely on long-lived electronic quantum coherence for photosynthetic energy transfer,” PNAS, 114:8493–98, 2017.
12. E. Thyrhaug et al., “Identification and characterization of diverse coherences in the Fenna–Matthews–Olson complex,” Nat Chem, 10:780–86, 2018.
13. S.J. Harrop et al., “Single-residue insertion switches the quaternary structure and exciton states of cryptophyte light-harvesting proteins,” PNAS, 111:E2666–75, 2014.
14. T. Ritz et al., “A model for photoreceptor-based magnetoreception in birds,” Biophys J, 78:707–18, 2000.
15. T. Ritz et al., “Resonance effects indicate a radical-pair mechanism for avian magnetic compass,” Nature, 429:177–80, 2004.
16. A. Pinzon-Rodriguez et al., “Expression patterns of cryptochrome genes in avian retina suggest involvement of Cry4 in light-dependent magnetoreception,” J Roy Soc Int, doi:10.1098/rsif.2018.0058, 2018.
17. A. Günther et al., “Double-cone localization and seasonal expression pattern suggest a role in magnetoreception for European robin cryptochrome 4,” Curr Biol, 28: 211–23.E4, 2018.
18. L. Turin, “A spectroscopic mechanism for primary olfactory reception,” Chem Senses, 21:773–91, 1996.
19. S. Gane et al., “Molecular vibration-sensing component in human olfaction,” PLOS ONE, 8:e55780, 2013.
20. E. Block et al., “Implausibility of the vibrational theory of olfaction,” PNAS, 112:E2766–74, 2015.
21. M. Paoli et al., “Differential odour coding of isotopomers in the honeybee brain,” Sci Rep, 6:21893, 2016.
22. A. Tirandaz et al., “Validity examination of the dissipative quantum model of olfaction,” Sci Rep, 7:4432, 2017.
23. A.D. Godbeer et al., “Modelling proton tunnelling in the adenine–thymine base pair,” Phys Chem Chem Phys, 17:13034–44, 2015.
【量子生物学能揭示生命的巨大奥秘吗?】24. M.P.A. Fisher, “Quantum cognition: The possibility of processing with nuclear spins in the brain,” Ann Phys, 362:593–602, 2015.
25. M.W. Swift et al., “Posner molecules: from atomic structure to nuclear spins,” Phys Chem Chem Phys, 20:12373–80, 2018.
26. A. Patil et al., “A quantum biomimetic electronic nose sensor,” Sci Rep, 8:128, 2018.
﹏﹏﹏﹏
本文编译自“The Scientist”电子杂志(www.the-scientist.com),_原题为为“Quantum Biology May Help Solve Some of Life’s Greatest Mysteries”,点击文末“阅读原文”可查阅 。 本译文由《返朴》译者完成,无The Scientist工作人员参与 。
本文为严肃科普媒体《返朴》(微信号:fanpu2019)首发,《返朴》由国际一流科学家和科普专家担任总编及编委 。 任何媒体转载时须保留《返朴》名称及微信号和作者信息 。 未经许可,严禁对包括标题在内的任何改动 。 转载、授权、合作请联系fanpu2019@outlook.com 。
推荐阅读
- 智能公交、智慧农业,为你解读方便快捷的物联网
- 瓜子怎么才能和玉米一起炒呢
- R16标准冻结,5G从能用变好用
- 量子计算前景可观 但宣称“霸权”不够理性
- 量子计算正从“玩具”变成“工具”
- 女明星爱炸的「吸烟装」有何魔力?逆天时髦无人能挡啊
- 量子计算首次模拟化学反应,这有什么了不起?
- 小配饰大功能,choker和胸针帮你打造穿搭特色
- 悬浮导航有哪些功能 悬浮导航功能有什么用
- 带酒精的免洗洗手液能托运吗