Великий квест. Гении и безумцы в поиске истоков жизни на Земле - Страница 88
464
Chen I. A., Walde P. From Self-Assembled Vesicles to Protocells. Cold Spring Harbor Perspectives in Biology, vol. 2, iss. 7, a002170. 2010.
465
Chen I. A. et al. The Emergence of Competition Between Model Protocells. Science, vol. 305, iss. 5689, pp. 1474–1476. 2004.
466
Mansy S. S., Szostak J. W. Thermostability of model protocell membranes. PNAS, vol. 105, iss. 36, pp. 13351–13355. 2008.
467
Hanczyc M. M., Szostak J. W. Replicating vesicles as models of primitive cell growth and division. Current Opinion in Chemical Biology, vol. 8, iss. 6, pp. 660–664. 2004.
468
Zhu T. F., Szostak J. W. Coupled Growth and Division of Model Protocell Membranes. Journal of the American Chemical Society, vol. 131, iss. 15, pp. 5705–5713. 2009.
469
Zhu T. F. et al. Photochemically driven redox chemistry induces protocell membrane pearling and division. PNAS, vol. 109, iss. 25, pp. 9828–9832. 2012.
470
Budin I. et al. Concentration-Driven Growth of Model Protocell Membranes. Journal of the American Chemical Society, vol. 134, iss. 51, pp. 20812–20819. 2012.
471
Szostak J. W. The eightfold path to non-enzymatic RNA replication. Journal of Systems Chemistry, vol. 3, iss. 2. 2012.
472
Adamala K., Szostak J. W. Nonenzymatic Template-Directed RNA Synthesis Inside Model Protocells. Science, vol. 342, iss. 6162, pp. 1098–1100. 2013.
473
Jin L. et al. Catalysis of Template-Directed Nonenzymatic RNA Copying by Iron (II). Journal of the American Chemical Society, vol. 140, iss. 44, pp. 15016–15021. 2018.
474
Joyce G. F., Szostak J. W. Protocells and RNA Self-Replication. Cold Spring Harbor Perspectives in Biology, vol. 10, iss. 9, a034801. 2018.
475
Interview with John Sutherland.
476
Budin I. et al. Chain-Length Heterogeneity Allows for the Assembly of Fatty Acid Vesicles in Dilute Solutions. Biophysical Journal, vol. 107, iss. 7, pp. 1582–1590. 2014.
Jin L. et al. Fatty Acid/Phospholipid Blended Membranes: A Potential Intermediate State in Protocellular Evolution. Small, vol. 14, iss. 15, art. 1704077. 2018.
477
Blain J. C., Szostak J. W. Progress Toward Synthetic Cells. Annual Review of Biochemistry, vol. 83, pp. 615–640. 2014.
Adamala K. P. et al. Collaboration between primitive cell membranes and soluble catalysts. Nature Communications, vol. 7, art. 11041. 2016.
478
“Белок” из двух аминокислотных остатков лучше называть “пептидом”, а еще лучше – “дипептидом”. – Прим. перев.
479
Adamala K., Szostak J. W. Competition between model protocells driven by an encapsulated catalyst. Nature Chemistry, vol. 5, iss. 6, pp. 495–501. 2013.
480
Kamat N. P. et al. Electrostatic Localization of RNA to Protocell Membranes by Cationic Hydrophobic Peptides. Angewandte Chemie, vol. 54, iss. 40, pp. 11735–11739. 2015.
481
Szostak J. W. The Narrow Road to the Deep Past: In Search of the Chemistry of the Origin of Life. Angewandte Chemie, vol. 56, iss. 37, pp. 11037–11043. 2017.
482
Szathmáry E. Founder of systems chemistry and foundational theoretical biologist: Tibor Gánti (1933–2009). Journal of Theoretical Biology, vol. 381, pp. 2–5. 2015.
483
Gánti T. Az élet princípiuma (The Principles of Life). 1971. Gondolat, Budapest.
484
Szathmáry E. The origin of replicators and reproducers. Philosophical Transactions B, vol. 361, iss. 1474, pp. 1761–1776. 2006.