Джонджо МакФадден - Жизнь на грани
182
O’Reilly E. J. and Olaya-Castro A. Non-classicality of molecular vibrations activating electronic dynamics at room temperature // Nature Communications, 2014. — Vol. 5.
183
Stewart I. Does God Play Dice? The New Mathematics of Chaos. — Harmondsworth: Penguin UK, 1997; Kauffman S. The Origins of Order: Self-Organization and Selection in EVolution. — N.Y.: Oxford University Press, 1993; Gleick J. Chaos: Making a New Science. — N.Y.: Random House, 1997.
184
Scully M. O., Chapin K. R., Dorfman K. E., Kim M. B. and Svidzinsky A. Quantum heat engine power can be increased by noise-induced coherence // Proceedings of the National Academy of Sciences, 2011. — Vol. 108: 37.
185
Dorfman K. E., Voronine D. V., Mukamel S. and Scully M. O. Photosynthetic reaction center as a quantum heat engine // Proceedings of the National Academy of Sciences, 2013. — Vol. 110: 8.
186
Растения имеют фотосистемы двух разновидностей — I и II.
187
Ferretti M., Novoderezhkin V. I., Romero E., Augulis R., Pandit A., Zigmantas D. and Grondelle R. Van. The nature of coherences in the B820 bacteriochlorophyll dimer revealed by two-dimensional electronic spectroscopy // Physical Chemistry Chemical Physics, 2014. — Vol. 16.
188
Pudney C. R., Guerriero A., Baxter N. J., Johannissen L. O., Waltho J. P., Hay S. and Scrutton N. S. Fast protein motions are coupled to enzyme H-transfer reactions // Journal of the American Chemical Society, 2013. — Vol. 135.
189
Klinman J. P. and Kohen A. Hydrogen tunnelling links protein dynamics to enzyme catalysis // Annual Review of Biochemistry, 2013. — Vol. 82. — P. 471–496.
190
Armstrong R. and Spiller N. Living quarters // Nature, 2010. — Vol. 467. — P. 916–919.
191
Ludec S. The Mechanism of Life. — London: William Heinemann, 1914.
192
Toyota T., Maru N., Hanczyc M. M., Ikegami T. and Sugawara T. Selfpropelled oil droplets consuming «fuel» surfactant // Journal of the American Chemical Society, 2009. — Vol. 131: 14.
193
Chen I. A., Salehi-Ashtiani K. and Szostak J. W. RNA catalysis in model protocell vesicles // Journal of the American Chemical Society, 2005. — Vol. 127: 38.
194
Peters R. J., Marguet M., Marais S., Fraaije M. W., Hest J. C. van and Lecommandoux S. Cascade reactions in multicompartmentalized polymersomes // Angewandte Chemie International Edition (English), 2014. — Vol. 53: 1. — P. 146–150.
195
Hayes D., Griffin G. B. and Engel G. S. Engineering coherence among excited states in synthetic heterodimer systems // Science, 2013. — Vol. 340: 6139.
196
Dorfman et al. Photosynthetic reaction center as a quantum heat engine.
197
Creatore C., Parker M. A., Emmott S. and Chin A. W. An efficient biologically-inspired photocell enhanced by quantum coherence. — 2013.
198
Tan C., Saurabh S., Bruchez M. P., Schwartz R. and Leduc P. Molecular crowding shapes gene expression in synthetic cellular nanosystems // Nature Nanotechnology, 2013. — Vol. 8: 8. — P. 602–608; Cheung M. S., Klimov D. and Thirumalai D. Molecular crowding enhances native state stability and refolding rates of globular proteins // Proceedings of the National Academy of Sciences, 2005. — Vol. 102: 13.