Книга Танец жизни. Новая наука о том, как клетка становится человеком - Магдалена Зерницка-Гетц

[26] A. Sarkar, A. С. M. Paquola, S. Stern, C. Bardy, J. R. Klug, S. Kim, N. Neshat, H. J. Kim, M. Ku, M. N. Shokhirev, D. H. Adamo-wicz, M. C. Marchetto, R. Jappelli, J. A. Erwin, K. Padmanabhan, M. Shtrahman, X. Jin, F. H. Gage. Efficient Generation of CA3 Neurons from Human Pluripotent Stem Cells Enables Modeling of Hippocampal Connectivity In Vitro. Cell Stem Cell 22 (2018): 684-697, e9. Doi:10.1016/j.stem.2018.04.009; Raquel Real, Manuel Peter, Antonio Trabalza, Shabana Khan, Mark A. Smith, Joanna Dopp, Samuel J. Barnes, Ayiba Momoh, Alessio Strano, Emanuela Volpi, Graham Knott, Frederick Livesey, Vincenzo De Paola. In Vivo Modeling of Human Neuron Dynamics and Down Syndrome. Science 362 (2018): eaaul810. Doi:10.1126/science.aaul810.

[27] S. Deleu, E. Gonzalez-Merino, N. Gaspard, T. M. U. Nguyen, P. Vanderhaeghen, L. Lagneaux, M. Toungouz, Y. Englert, F. Devre-ker. Human Cystic Fibrosis Embryonic Stem Cell Lines Derived on Placental Mesenchymal Stromal Cells. Reproductive Biomedicine Online 18 (2009): 704-716. URL: https://doi.org/10.1016/ S 1472-6483( 10)60018-1; S. J. Pickering, S. L. Minger, M. Patel,

H. Taylor, C. Black, C. J. Burns, A. Ekonomou, P. R. Braude. Generation of a Human Embryonic Stem Cell Line Encoding the Cystic Fibrosis Mutation AF508, Using Preimplantation Genetic Diagnosis. Reproductive Biomedicine Online 10 (2005): 390-397; J. C. Nic-lis, A. O. Trounson, M. Dottori, A. M. Ellisdon, S. P. Bottomley, Y. Verlinsky, D. S. Cram. Human Embryonic Stem Cell Models of Huntington Disease. Reproductive Biomedicine Online 19 (2009): 106-113. URL: https://doi.org/10.1016/S1472-6483(10)60053-3;

C. K. Bradley, El. A. Scott, O. Chami, T. T. Peura, B. Dumevska, U. Schmidt, T. Stojanov. Derivation of Huntington’s Disease—Affected Human Embryonic Stem Cell Lines. Stem Cells and Development 20. No. 3 (2011): 495—502. URL: https://doi.org/10.1089/ scd.2010.0120.

[28] C. Kim, J. Wong, J. Wen, S. Wang, C. Wang, S. Spiering, N. G. Kan, S. Forcales, P. L. Puri, T. C. Leone, J. E. Marine, H. Calkins, D. P. Kelly, D. P. Judge, H. S. Chen. Studying Arrhythmogenic Right Ventricular Dysplasia with Patient-Specific iPSCs. Nature 494 (2013): 105-110. Doi: 10.1038/naturel 1799.

[29] Gunjan Sinha. This Scientist Is Building Miniature Guts, Livers, and Lungs That Could Save Your Life One Day. Science, August 23, 2017. URL: www.sciencemag.org/news/2017/08/scientist-building-miniature-guts-livers-and-lungs-could-saveyour-life-one-day.

[30] М. van der Watering, H. E. Francies, J. M. Francis, G. Bounova, F. Iorio, A. Pronk, W. van Houdt, J. van Gorp, A. Taylor-Weiner, L. Kester, A. McLaren-Douglas, J. Blokker, S. Jaksani, S. Bartfeld, R. Volckman, P. van Sluis, V. S. Li, S. Seepo, C. Sekhar Pedamallu, K. Cibulskis, S. L. Carter, A. McKenna, M. S. Lawrence, L. Lichtenstein, C. Stewart, J. Koster, R. Versteeg, A. van Oudenaarden, J. Saez-Rodriguez, R. G. Vries, G. Getz, L. Wessels, M. R. Stratton, U. McDermott, M. Meyerson, M. J. Garnett, H. Clevers. Prospective Derivation of a Living Organoid Biobank of Colorectal Cancer Patients. Cell 161 (2015): 933-945. Doi: 10.1016/j. cell.2015.03.053.

[31] L. Broutier, G. Mastrogiovanni, M. M. Verstegen, H. E. Francies, L. M. Gavarro, C. R. Bradshaw, G. E. Allen, R. Arnes-Benito, O. Sidorova, M. P. Gaspersz, N. Georgakopoulos, В. K. Koo, S. Dietmann, S. E. Davies, R. K. Praseedom, R. Lieshout, J. N. M. Ijzermans, S. J. Wigmore, K. Saeb-Parsy, M. J. Garnett, L. J. van der Laan, M. Huch. Human Primary Liver Cancer-Derived Organoid Cultures for Disease Modeling and Drug Screening. Nature Medicine 12(2017): 1424-1435. Doi:10.1038/nm.4438.

[32] FI. Willenbring, A. Soto-Gutierrez. Transplantable Liver Organoids Made from Only Three Ingredients. Cell Stem Cell 13 (2013): 139—140. Doi: I0.1016/j.stem.2013.07.014.

[33] G. Ming, H. Song, H. Tang. Racing to Uncover the Link Between Zika Virus and Microcephaly. Cell Stem Cell, n.d., accessed April 5, 2019. URL: www.cell.com/pb-assets/journals/research/cell-stem-cell/ stories/zika-backstory/index.html.

[34] Steven D. Schwartz, Jean-Pierre Hubschman, Gad Heilwell, Valentina Franco-Cardenas, Carolyn K. Pan, Rosaleen Ostrick, Edmund Mickunas, Roger Gay, Irina Klimanskaya, Robert Lanza. Embryonic Stem Cell Trials for Macular Degeneration: A Preliminary Report. Lancet 379 (2012): 713-720. Doi: 10.1016/SO140-6736(12)60028-2.

[35] L. da Cruz, K. Fynes, O. Georgiadis, J. Kerby, Y. H. Luo, A. Ahmado, A. Vernon, J. T. Daniels, B. Nommiste, S. M. Flasan, S. B. Gooljar, A. F. Carr, A. Vugler, С. M. Ramsden, M. Bictash, M. Fenster, J. Steer, T. Harbinson, A. Wilbrey, A. Tufail, G. Feng, M. Whitlock, A. G. Robson, G. E. Holder, M. S. Sagoo, P. T. Loudon, P. Whiting, Р. J. Coffey. Phase 1 Clinical Study of an Embryonic Stem Cell—Derived Retinal Pigment Epithelium Patch in Age-Related Macular Degeneration. Nature Biotechnology 36 (2018): 328-337. Doi: 10.1038/nbt.4114.

[36] V. Chichagova, D. Hallam, J. Collin, D. Zerti, B. Dorgau, M. Felemban, M. Lako, D. H. Steel. Cellular Regeneration Strategies for Macular Degeneration: Past, Present and Future. Eye 32 (2018): 946-971. Doi: 10.1038/s41433-018-0061 -z.

[37] Regeneration: What Does It Mean and How Does It Work? EuroStemCell, accessed April 5, 2019. URL: www.eurostemcell. org/regeneration-what-does-it-mean-and-how-does-it-work.

[38] С. X. Kha, P. H. Son, J. Lauper, K. A.-S. Tseng. A Model for Investigating Developmental Eye Repair in Xenopus laevis. Experimental Eye Research 169 (2018): 38-47. Doi: 10.1016/j.exer.2018.01.007.

[39] J. N. Witchley, M. Mayer, D. E. Wagner, J. H. Owen, P. W. Reddien. Muscle Cells Provide Instructions for Planarian Regeneration. Cell Reports 4 (2013): 633-641. Doi:10.1016/j.celrep.2013.07.022; Amelie A. Raz, Mansi Srivastava, Ranja Salvamoser, Peter W. Reddien. Acoel Regeneration Mechanisms Indicate an Ancient Role for Muscle in Regenerative Patterning. Nature Communications 8 (2017): 1260.

[40] K. D. Atabay, S. A. LoCascio, T. de Hoog, P. W. Reddien. Self-Organization and Progenitor Targeting Generate Stable Patterns in Planarian Regeneration. Science 360 (2018): 404-409. Doi: 10.1126/ science.aap8179.

[41] Scientists Use Stem Cells to Create Human/Pig Chimera Cells. EurekAlert! American Association for the Advancement of Science, January 26, 2017. URL: www.eurekalert.org/pub_releases/2017-01/ cp-sus011917.php; J. Wu, A. Platero-Luengo, M. Sakurai, A. Sugawara, M. A. Gil, T. Yamauchi, K. Suzuki, Y. S. Bogliotti, C. Cuello, M. Morales Valencia, D. Okumura, J. Luo, M. Vilarino, I. Parrilla, D. A. Soto, C. A. Martinez, T. Hishida, S. Sanchez-Bautista, M. L. Martinez-Martinez, H. Wang, A. Nohalez, E. Aizawa, P. Martinez-Redondo, A. Ocampo, P. Reddy, J. Roca, E. A. Maga, C. R. Esteban, W. T.