Текст книги "Танец жизни. Новая наука о том, как клетка становится человеком"

Автор книги: Роджер Хайфилд

Соавторы: Магдалена Зерницка-Гетц
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Текущая страница: 16 (всего у книги 17 страниц)

[9] F. Louwen, C. Muschol-Steinmetz, J. Reinhard, A. Reitter, J. Yuan. A Lesson for Cancer Research: Placental Microarray Gene Analysis in Preeclampsia. Oncotarget 3. No. 8 (2012): 759-773. Doi: 10.18632/ oncotarget.595.

[10] P. Thomas, R. Beddington. Anterior Primitive Endoderm May Be Responsible for Patterning the Anterior Neural Plate in the Mouse Embryo. Current Biology 11 (1996): 1487—1496.

[11] S. A. Morris, S. Grewal, F. Barrios, S. N. Patankar, B. Strauss, L. Buttery, M. Alexander, К. M. Shakesheff, M. Zernicka-Goetz. Dynamics of Anterior-Posterior Axis Formation in the Developing Mouse Embryo. Nature Communications 3 (2012): 673. Doi:10.1038/ncommsl671.

[12] Ibid.

[13] I. Bedzhov, М. Zernicka-Goetz. Self-Organizing Properties of Mouse Pluripotent Cells Initiate Morphogenesis upon Implantation. Cell 156 (2014): 1032-1044. Doi: 10.1016/j.cell.2014.01.023.

[14] A. Deglincerti, G. F. Croft, L. N. Pietila, M. Zernicka-Goetz, E. D. Siggia, A. H. Brivanlou. Self-Organization of the In Vitro Attached Human Embryo. Nature 533. No. 7602 (2016): 251—254. Doi:10.1038/ naturel7948; M. N. Shahbazi, A. Jedrusik, S. Vuoristo, G. Recher, A. Hupalowska, V. Bolton, N. N. M. Fogarty, A. Campbell, L. Devito, D. Ilic, Y. Khalaf, К. K. Niakan, S. Fishel, M. Zernicka-Goetz. Self-Organization of the Human Embryo in the Absence of Maternal Tissues. Nature Cell Biology 18. No. 6 (2016): 700-708. Doi:10.1038/ncb3347.

[15] H. Suryawanshi, P. Morozov, A. Straus, N. Sahasrabudhe, К. E. A. Max, A. Garzia, M. Kustagi, T. Tuschl, Z. Williams. A Single-Cell Survey of the Human First-Trimester Placenta and Eecidua. Science Advances 4 (2018): eaau4788. Doi: 10.1126/sciadv.aau4788.

[16] M. N. Shahbazi, A. Scialdone, N. Skorupska, A. Weberling, G. Recher, M. Zhu, A. Jedrusik, L. G. Devito, L. Noli, I. C. Macaulay, C. Buecker, Y. Khalaf, D. Ilic, T. Voet, J. C. Marioni, M. Zernicka-Goetz. Pluripotent State Transitions Coordinate Morphogenesis in Mouse and Human Embryos. Nature 552 (2017): 239—243. Doi:10.1038/nature24675.

Глава 7. Надо ли использовать в исследованиях человеческие эмбрионы?

[1] Cambridge Study Named as People’s Choice for Science Magazine’s Breakthrough of the Year 2016. University of Cambridge, accessed April 4, 2019. URL: www.cam.ac.uk/research/news/cambridge-study-named-as-peoples-choice-for-science-agazines-breakthrough-of-the-year-2016. _v

[2] Human Embryo Culture. Nuffield Foundation for Bioethics, August 2017. URL: http://nuffieldbioethics.org/wp-content/uploads/ Human-Embryo-Culture-web-FlNAL.pdf.

[3] John Paul II encyclical, n.d., John Paul II website, accessed April 4, 2019. URL: http://w2.vatican.va/content/john-paul-ii/en/ encyclicals/documents/hfJp-ii_enc_25031995_evangeliumvitae. html#%241N.

[4] J. Rossant, P. P. L. Tam. Exploring Early Human Embryo Development. Science 360 (2018): 1075—1076. Doi: 10.1126/science.aas9302.

[5] John Rock, Miriam F. Menkin. In Vitro Fertilization and Cleavage of Human Ovarian Eggs. Science 100 (1944): 105—107. Doi: 10.1126/ science. 100.2588.105.

[6] Roy O. Greep. Min Chueh Chang 1908—1991: A Biographical Memoir. Washington, DC: National Academies Press, 1995. URL: www. nasonline.org/publications/biographical-memoirs/memoir-pdfs/ chang-m-c.pdf.

[7] R. G. Edwards. Meiosisin Ovarian Oocytes of Adult Mammals. Nature 196 (1962): 446-450.

[8] Martin H. Johnson, Carol Ann Ziomek. The Foundation of Two Distinct Cell Lineages Within the Mouse Morula. Cell 24. No. 1 (1981): 245-262. Doi.org/10.1016/0092-8674(81 )90502-X.

[9] Ibid.

[10] R. G Edwards, B. D. Bavister, P. C. Steptoe. Early Stages of Fertilization In Vitro of Human Oocytes Matured In Vitro. Nature 221 (1969): 632-635.

[11] R. G. Edwards, D. J. Sharpe. Social Values and Research in Human Embryology. Nature 231 (1971): 87-91.

[12] Monash University IVF History, accessed April 4,2019. URL: https:// monashivf.com/about-us/history/.

[13] Martin H. Johnson, Sarah B. Franklin, Matthew Cottingham, Nick Hopwood. Why the Medical Research Council Refused Robert Edwards and Patrick Steptoe Support for Research on Human Conception in 1971. Human Reproduction 25. No. 9 (2010): 2157—2174. Doi:10.1093/ humrep/deql55.

[14] A. Lopata, I. W. Johnston, I. J. Hoult, A. I. Speirs. Pregnancy Following Intrauterine Implantation of an Embryo Obtained by In Vitro Fertilization of a Preovulatory Egg. Fertility and Sterility 33. No.2(1980): 117-120.

[15] John Webster, email to Roger Highfield, February 24, 2019; Louise Brown. Louise Brown: 40 Years of IVF. Bristol, UK: Bristol Books, 2015,32; Duncan Wilson. The Making of British Bioethics. Manchester, UK: Manchester University Press, 2014, 152.

[16] Johnson et al. Why the Medical Research Council Refused, 2157—2174.

[17] Wilson. The Making of British Bioethics, 152.

[18] M. H. Johnson, K. Elder. The Oldham Notebooks: An Analysis of the Development of IVF 1969—1978. V. The Role of Jean Purdy Reassessed. Reproductive Biomedicine and Society Online 1 (2015): 46—57. Doi: 10.1016/j.rbms.2015.04.005; M. H. Johnson. IVF: The Women Who Helped Make It Happen. Reproductive Biomedicine and Society Online 8 (2019): 1—6. URL: https://doi.Org/10.1016/j. rbms.2018.11.002.

[19] Johnson, Elder. The Oldham Notebooks, 46—57.

[20] Wilson. The Making of British Bioethics, 154.

[21] «Законодательное регулирование ЭКО». Баронесса Мери Варнок, интервью с Роджером Хайфильдом для Музея науки, 4 июня 2018 года, видео, 19:19, https://youtu.be/phwVo-W-G_l.

[22] Wilson, The Making of British Bioethics, 140.

[23] Ibid.

[24] Ingmar Persson. Two Claims About Potential Human Beings. Bioethics 17. Nos. 5—6 (2003): 503—517. Doi: https://doi.org/10.lll/1467-8519.00364.

[25] Баронесса Мери Варнок, электронное письмо Роджеру Хай-филду, 21 января 2019 года.

[26] «Законодательное регулирование ЭКО», https://youtu.be/phwVo-W-G_I.

[27] Mary Warnock and the Committee of Inquiry into Human Fertilisation and Embryology, Department of Health and Social Security. Report of the Committee of Inquiry into Human Fertilisation and Embryology, July 1984 (London: Her Majesty’s Stationery Office, 1988). Copy on the Human Fertilisation and Embryology Authority website. URL: www. hfea.gov.uk/media/2608/wamock-report-of-the-committee-of– in-quiry-into-humanfertilisation-and-embryology-1984.pdf.

[28] «Законодательное регулирование ЭКО», https://youtu.be/phwVo-W-GI.

[29] В основном это заслуга невролога Джона Уолтона. «Законодательное регулирование ЭКО», https://youtu.be/phwVo-W-G_I.

[30] «Законодательное регулирование ЭКО», https://youtu.be/phwVo-W-GJ.

[31] Stem Cell Research and Regulations Under the Human Fertilisation and Embryology Act /99(7 (Revised Edition). House of Commons Library, www.files.ethz.ch/isn/44586/rp00-093.pdf.

[32] Fetal Awareness: Review of Research and Recommendations for Practice. Royal College of Obstetricians & Gynaecologists, June 25, 2010, accessed April 4, 2019. URL: www.rcog.org.uk/en/guidelines-re-search-services/guidelines/fetal-awareness–review-of-research-and-recommendations-for-practice.

[33] R. C. Tyser, A. M. Miranda, C. Chen, S. M. Davidson, S. Srinivas, R R. Riley. Calcium Handling Precedes Cardiac Differentiation to Initiate the First Heartbeat. eLife 5 (2016): e 17113. Doi: 10.7554/ eLife.17113.

134] Roger Highfield. First IVF Baby Louise Brown Celebrates 40th at the Science Museum. Science Museum blog, July 26, 2018, accessed April 4,2019. URL: https://blog.sciencemuseum.org.uk/firstivf-baby-louise-brown-celebrates-40th-at-the-science-museum/.

[35] J. Benjamin Hurlbut. Experiments in Democracy: Human Embryo Research and the Politics of Bioethics. New York: Columbia University Press, 2017.

[36] Amy Lee, Ann A. Kiessling. Early Human Embryos Are Naturally An-euploid—Can That Be Corrected? Journal of Assisted Reproduction and Genetics 34. No. 1 (2016): 15-21. Doi: 10.1007/sl0815-016-0845-7.

Глава 8. Саймон

[1] S. Santaguida, A. Tighe, A. M. D’Alise, S. S. Taylor, A. Musac-chio. Dissecting the Role of MPS1 in Chromosome Bi orientation and the Spindle Checkpoint Through the Small Molecule Inhibitor Reversine. Journal of Cell Biology 190 (2010): 73—87.

[2] А. К. Hadjantonakis, V. Е. Papaioannou. Dynamic In Vivo Imaging and Cell Tracking Using a Histone Fluorescent Protein Fusion in Mice. BMC Biotechnology (2004).

[3] Florence Wianny, Magdalena Zernicka-Goetz. Specific Interference with Gene Function by Double-Stranded RNA in Early Mouse Development. Nature Cell Biology 2 (1999): 70—75.

[4] H. Bolton, S. J. L. Graham, N. Van der Aa, P. Kumar, K. Theunis,

E. Fernandez Gallardo, T. Voet, M. Zernicka-Goetz. Mouse Model of Chromosome Mosaicism Reveals Lineage-Specific Depletion of Aneuploid Cells and Normal Developmental Potential. Nature Communications 7 (2016): 11165. Doi:10.1038/ncommsl 1165.

[5] Maria-Elena Torres-Padilla, David-Emlyn Parfitt, Tony Kouzarides, Magdalena Zernicka-Goetz. Histone Arginine Methylation Regulates Pluripotency in the Early Mouse Embryo. Nature 445 (2007): 214—218. Doi:10.1038/nature05458.

Глава 9. Как синтезировать эмбрион

[1] С. R. Woese. A New Biology for a New Century. Microbiology and Molecular Biology Reviews 68. No. 2 (2004): 173-186.

[2] Leroy C. Stevens Jr., С. C. Little. Spontaneous Testicular Teratomas in an Inbred Strain of Mice. Proceedings of the National Academy of Sciences 40 (1954): 1080-1087.

[3] L. C. Stevens. Embryonic Potency of Embryoid Bodies Derived from a Transplantable Testicular Teratoma of the Mouse. Developmental Biology 2 (1960): 285-297.

[4] G. B. Pierce, F. J. Dixon. Testicular Teratomas. I. Demonstration of Teratogenesis by Metamorphosis of Multipotential Cells. Cancer 12 (1959): 573-583.

[5] Martin Evans. Origin of Mouse Embryonal Carcinoma Cells and the Possibility of Their Direct Isolation into Tissue Culture. Journal of Reproduction and Fertility 62 (1981): 625—631, https://doi.org/10.1530/ jrf.0.0620625.

[6] M. J. Evans, M. FI. Kaufman. Establishment in Culture of Pluripotential Cells from Mouse Embryos. Nature 292 (1981): 154—156.

[7] G. R. Martin. Isolation of a Pluripotent Cell Line from Early Mouse Embryos Cultured in Medium Conditioned by Teratocarcinoma Stem Cells. Proceedings of the National Academy of Sciences 78. No. 12 (1981): 7634-7638.

[8] D. ten Berge, W. Koole, C. Fuerer, M. Fish, E. Eroglu, R. Nusse. Wnt Signaling Mediates Self-Organization and Axis Formation in Embryoid Bodies. Cell Stem Cell 3. No. 5 (2008): 508-518. Doi: 10.1016/j. stem.2008.09.013.

[9] I. Bedzhov, M. Zernicka-Goetz. Self-Organizing Properties of Mouse Pluripotent Cells Initiate Morphogenesis upon Implantation. Cell 156 (2014): 1032-1044. Doi: 10.1016/j.cell.2014.01.023.

[10] Ibid.

[11] Susanne C. van den Brink, Peter Baillie-Johnson, Tina Balayo, An-na-Katerina Fladjantonakis, Sonja Nowotschin, David A. Turner, Alfonso Martinez Arias. Symmetry Breaking, Germ Layer Specification and Axial Organisation in Aggregates of Mouse Embryonic Stem Cells. Development 141 (2014): 4231—4242. Doi:10.1242/dev.l 13001.

[12] D. ten Berge, W. Koole, C. Fuerer, M. Fish, E. Eroglu, R. Nusse. Wnt Signaling Mediates Self-Organization and Axis Formation in Embry oid Bodies. Cell Stem Cell 3. No. 5 (2008): 508-518. Doi: 10.1016/j. stem.2008.09.013.

[13] R. S. Beddington, P. Rashbass, V. Wilson. Brachyury – A Gene Affecting Mouse Gastrulation and Early Organogenesis. Development Supplement (1992): 157-165.

[14] S. E. Flarrison, B. Sozen, N. Christodoulou, C. Kyprianou, M. Zernicka-Goetz. Assembly of Embryonic and Extraembryonic Stem Cells to Mimic Embryogenesis In Vitro. Science 356 (2017): eaall810. Doi: 10.1126/science.aall810.

[15] N. C. Rivron, J. Frias-Aldeguer, E. J. Vrij, J.-C. Boisset, J. Korving, J. Vivid, R. K. Truckenmiiller, A. van Oudenaarden, C. A. van Blit-terswijk, N. Geijsen. Blastocyst-Like Structures Generated Solely from Stem Cells. Nature 557 (2018): 106-111. Doi: 10.1038/s41586-018-0051-0.

[16] B. Sozen, G. Amadei, A. Cox, R. Wang, E. Na, S. Czukiewska, L. Chappell, T. Voet, G. Michel, N. Jing, D. M. Glover, M. Zer-nicka-Goetz. Self-Assembly of Embryonic and Two Extra-Embryonic Stem Cell Types into Gastrulating Embryo-Like Structures. Nature Cell Biology 20 (2018): 979-989. Doi: 10.1038/s41556-018-0147-7.

[17] Martin A. N owak. Five Rules for the Evolution of Cooperation. Science 314(2006): 1560-1563. Doi: 10.1126/science.l 133755.

[18] Why Mouse Matters. National Human Genome Research Institute, accessed April 5, 2019. URL: www.genome.gov/10001345/impor-tance-of-mouse-genome/.

[19] Nicolas Rivron, Martin Pera, Janet Rossant, Alfonso Arias, Magdalena Zernicka-Goetz, Jianping Fu, Susanne Van den Brink, Annelien Bredenoord, Wybo Dondorp, Guido de Wert, Insoo Hyun, Megan Munsie, Rosario Isasi. Debate Ethics of Embryo Models from Stem Cells. Nature 564 (2018): 183-185. Doi: 10.1038/d41586-018-07663-9.

[20] I. Martyn, T. Y. Kanno, A. Ruzo, E. D. Siggia, A. H. Brivanlou. Self-Organization of a Human Organizer by Combined Wnt and Nodal Signalling. Nature 558 (2018): 132-135. Doi: 10.1038/s41586-018-0150-y.

[21] John Aach, Jeantine Lunshof, Eswar Iyer, George M. Church. Addressing the Ethical Issues Raised by Synthetic Human Entities with Embryo-Like Features. eLife 6 (2017): e20674. URL: https:// elifesciences.org/articles/20674, doi: 10.7554/eLife.20674.

[22] H. C. Ott, T. S. Matthiesen, S.-K. Goh, L. D. Black, S. M. Kren, T. I. Netoff, D. A. Taylor. Perfusion-Decellularized Matrix: Using Nature’s Platform to Engineer a Bioartificial Heart. Nature Medicine 14 (2008): 213-221. Doi:10.1038/nml684.

[23] Rivron et al. Debate Ethics of Embryo Models, 183—185.

Глава 10. Новая эра синтетической биологии

[1] 3D Atlas of Human Embryology, Carnegie Stage 7, accessed April 5, 2019. URL: http://3datlas.3dembryo.nl/3DAtlas_CS07-8752-v2016-03.pdf; 3D Atlas of Human Embryology, Carnegie Stage 23, accessed April 5, 2019. URL: http://3datlas.3dembryo. nl/3 DAtlas_CS23-9226-v2016-03.pdf; 3D Atlas of Human Embryology, accessed April 5, 2019. URL: www.3dembryoatlas.com/.

[2] В. S. de Ваккег, К. Н. de Jong, J. Hagoort, К. de Bree, С. T. Besselink, F. E. C. de Kanter, T. Veldhuis, B. Bais, R. Schildmeijer, J. M. Rui-jter, R. J. Oostra, V. M. Christoffels, A. F. Moorman. An Interactive Three-Dimensional Digital Atlas and Quantitative Database of Human Development. Science 354 (2016): aag0053. Doi:10.1126/science. aag0053.

[3] D. A. Jackson, R. H. Symons, R Berg. Biochemical Methodfor Inserting New Genetic Information into DNA of Simian Virus 40: Circular SV40 DNA Molecules Containing Lambda Phage Genes and the Galactose Орегон of Escherichia coli. Proceedings of the N ational Academy 69. No. 10 (1972): 2904-2909.

[4] CAR T Cells: Engineering Patients’ Immune Cells to Treat Their Cancers. National Cancer Institute, accessed April 5,2019. URL: www.cancer. gov/about-cancer/treatment/research/car-t-cells.

[5] M. Saitou, H. Miyauchi. Gametogenesisfrom Pluripotent Stem Cells. Cell Stem Cell 18 (2016): 721-735. Doi:10.1016/j.stem.2016.05.001.

[6] O. Hikabe, N. Hamazaki, G. Nagamatsu, Y. Obata, Y. Flirao, N. Hamada, S. Shimamoto, T. Imamura, K. Nakashima, M. Saitou, K. Hayashi. Reconstitution In Vitro of the Entire Cycle of the Mouse Female Germ Line. Nature 539 (2016): 299—303. Doi:10.1038/na-ture20!04.

[7] Z.-K. Li, L.-Y. Wang, L.-B. Wang, G.-FI. Feng, X.-W. Yuan, C. Liu,

K. Xu, Y.-H. Li, H.-F. Wan, Y. Zhang, Y. F. Li, X. Li, W. Li, Q. Zhou, B. Y. Hu. Generation of Bimaternal and Bipaternal Mice from Hy-pomethylated Haploid ESCs with Imprinting Region Deletions. Cell Stem Cell 23 (2018): 665-676, e4. URL: https://doi.Org/10.1016/j. stem.2018.09.004.

[8] Ibid.

[9] J. B. Gurdon. The Developmental Capacity of Nuclei Taken from Intestinal Epithelium Cells of Feeding Tadpoles. Journal of Embryology and Experimental Morphology 10 (1962): 622—640.

[10] J. B. Gurdon. The Egg and the Nucleus: A Battle for Supremacy (Nobel Lecture). Angewandte Chemie (International Edition in English) 52 (2013): 13890-13899. Doi:10.1002/anie.201306722.

[11] Roger Highfield. Scientists ‘Close to Holy Grail’of Stem Cells. Daily Telegraph, August 25, 2006, accessed April 5, 2019. URL: www. telegraph.co.uk/news/1527209/Scientists-closeto-Holy-Grail-of-stem-cells.html.

[12] The Nobel Prize in Physiology or Medicine 1990: Press Release, accessed April 5, 2019. URL: www.nobelprize.org/prizes/rnedicine/1990/ press-release/; E. Donnall Thomas. A History of Haemopoietic Cell Transplantation. British Journal of Haematology 105 (1999): 330-339. Doi:10.1111/j. 1365-2141.1999.01337.x.

[13] N. Amariglio, A. Hirshberg, B. W. Scheithauer, Y. Cohen, R. Loe-wenthal, L. Trakhtenbrot et al. Donor-Derived Brain Tumor Following Neural Stem Cell Transplantation in an Ataxia Telangiectasia Patient. PLOS Medicine 6. No. 2 (2009): el000029. URL: https://doi. org/10.1371/journal.pmed. 1000029.

[14] John Gearhart. Cell Biology: New Potential for Human Embryonic Stem Cells. Science 282 (1998): 1061-1062. Doi:10.1126/sci-ence.282.5391.1061; Eliot Marshall. Cell Biology: A Versatile Cell Line Raises Scientific Hopes, Legal Questions. Science 282 (1998): 1014-1015. Doi:10.1126/science.282.5391.1014.

[15] K. Watanabe, M. Ueno, D. Kamiya, A. Nishiyama, M. Matsumura, T. Wataya, J. B. Takahashi, S. Nishikawa, S. Nishikawa, K. Mugu-ruma et al. A ROCK Inhibitor Permits Survival of Dissociated Human Embryonic Stem Cells. Nature Biotechnology 25 (2007): 681—686. Doi:10.1038/nbtl310.

[16] David Cyranoski. The Cells That Sparked a Revolution. Nature 555 (2018): 429-430.

[17] Roger Highfield. Doug Melton: Finding a Cure for Diabetes. New Scientist, September 3, 2009, accessed April 5, 2019. URL: www. newscientist.com/article/dnl7729-doug-melton-finding-a-cure-for-diabetes/.

[18] A. Plein, A. Fantin, L. Denti, J. W. Pollard, C. Ruhrberg. Erythro-My-eloid Progenitors Contribute Endothelial Cells to Blood Vessels. Nature 562 (2018): 223-228. Doi:10.1038 /s41586-018-0552-x.

[19] S. A. Morris, R. T. Y. Teo, H. Li, P. Robson, D. M. Glover, M. Zer-nicka-Goetz. Origin and Formation of the First Two Distinct Cell Types of the Inner Cell Mass in the Mouse Embryo. Proceedings of the National Academy of Sciences of the United States of America 107 (2010): 6364-6369. Doi:10.1073/pnas.0915063107.

[20] N. Christodoulou, C. Kyprianou, A. Weberling, R. Wang, G. Cui, G. Peng, N. Jing, M. Zernicka-Goetz. Sequential Formation and Resolution of Multiple Rosettes Drive Embryo Remodelling After Implantation. Nature Cell Biology 20 (2018): 1278—1289. Doi: 10.1038/ S41556-018-0211-3.

[21] Ibid.

[22] Katie McDole, Leo Guignard, Fernando Amat, Andrew Berger, Gregoire Malandain, Loi'c A. Royer, Srinivas C. Turaga, Kristin Branson, Philipp J. Keller. In Toto Imaging and Reconstruction of Post-Implantation Mouse Development at the Single-Cell Level. Cell 175 (2018): 859-876, e 33. Doi: 10.1016/j.cell.2018.09.031.

[23] К. C. Eldred, S. E. Hadyniak, K. A. Hussey, B. Brenerman, P.-W. Zhang, X. Chamling, V. M. Sluch, D. S. Welshie, S. Hattar, J. Taylor, K. Wahlin, D. J. Zack, R. J. Johnston Jr. Thyroid Hormone Signaling Specifies Cone Subtypes in Human Retinal Organoids. Science 362 (2018): eaau6348. Doi:10.1126/science.aau6348.

[24] B. J. Wainger, E. D. Buttermore, J. T. Oliveira, C. Mellin, S. Lee, W. A. Saber, A. J. Wang, J. K. Ichida, I. M. Chiu, L. Barrett, E. A. Huebner, C. Bilgin, N. Tsujimoto, C. Brenneis, K. Kapur, L. L. Rubin, K. Eggan, C. J. Woolf. Modeling Pain In Vitro Using Nociceptor Neurons Reprogrammed from Fibroblasts. Nature Neuroscience 18 (2014): 17—24. Doi:10.1038/nn.3886.

[25] Christina R. Muratore, Heather C. Rice, Priya Srikanth, Dana G. Callahan, Taehwan Shin, Lawrence N. P. Benjamin, Dominic M. Walsh, Dennis J. Selkoe, Tracy L. Young-Pearse. The Familial Alzheimer’s Disease APPV7171 Mutation Alters APP Processing and Tau Expression in iPSC-Derived Neurons. Human Molecular Genetics 23. No. 13 (2014): 3523-3536. Doi:10.1093/hmg/ddu064.

[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. Berggren, E. Nunez Delicado, J. Lajara, I. Guillen, P. Guillen, J. M. Campistol, E. A. Martinez, P. J. Ross, J. C. Izpisua Belmonte. Interspecies Chimerism with Mammalian PluripotentStem Cells. Cell 168 (2017): 473-486, el5. Doi: 10.1016/j. cell.2016.12.036.

[42] Tobias Hirsch, Tobias Rothoeft, Norbert Teig, Johann W. Bauer, Graziella Pellegrini, Laura De Rosa, Davide Scaglione, Julia Reichelt, Alfred Klausegger, Daniela Kneisz, Oriana Romano, Alessia Secone Seconetti, Roberta Contin, Elena Enzo, Irena Jurman, Sonia Carulli, Frank Jacobsen, Thomas Luecke, Lehnhardt Marcus, Michele De Luca. Regeneration of the Entire Human Epidermis Using Transgenic Stem Cells. Nature 551 (2017): 327-332. Doi:10.1038/nature24487.

[43] Kelly Servick. A Boy with a Rare Disease Gets New Skin. Thanks to Gene-Corrected Stem Cells. Science, November 8, 2017, accessed April 5, 2019. URL: www.sciencemag.org/news/2017/ll/boy-rare-disease-gets-new-skin-thanks-gene-corrected-tem-cells.

[44] Alan Handyside, E. H. Kontogianni, K. R. M. L. Hardy, Robert Winston. Pregnancies from Biopsied Human Preimplantation Embryos Sexedby Y-Specific DNA Amplification. Nature 344(1990): 768-770. Doi:10.1038/344768a0.

[45] Darshak M. Sanghavi. Wanting Babies Like Themselves, Some Parents Choose Genetic Defects. New York Times, December 5, 2006, accessed April 5, 2019. URL: www.nytimes.com/2006/12/05/health/05essa. html.

[46] Christophe Z. Guilmoto. Sex Imbalances at Birth: Current Trends, Consequences and Policy Implications. Bangkok: United Nations Population Fund Asia, 2012. URL: www.unfpa.org/publications/ sex-imbalances-birth.

[47] Joyce Harper, L. Wilton, Joanne Traeger-Synodinos, Veerle Goossens, Celine Moutou, S. B. SenGupta, T. Pehlivan Budak, Pamela Renwick, Martine De Rycke, Joep Geraedts, Gary Harton. The ESHRE PGD Consortium: 10 Years of Data Collection. Human Reproduction Update 18 (2012): 234-247. Doi:10.1093/humupd/dmr052.

[48] Genome Editing and Human Reproduction: Social and Ethical Issues. London: Nuffield Council on Bioethics, 2018, accessed April 5,2019. URL: http://nuffieldbioethics.org/report/genome-editing-human-reproduction-social-ethical-issues/overview.

[49] Ibid.

[50] Shiyu Luo, С. Alexander Valencia, Jinglan Zhang, Ni-Chung Lee, Jesse Slone, Baoheng Gui, Xinjian Wang, Zhuo Li, Sarah Dell, Jenice Caitlin Brown, S. M. Chen, Y.-H. Chien, W.-L. Hwu, P.-C. Fan, L.-J. Wong, P. S. Atwal, T. Huang. BiparentalInheritance of Mitochondrial DNA in Humans. Proceedings of the National Academy of Sciences 115 (2018): 13039-13044. Doi:10.1073/ pnas. 1810946115.

[51] P. A. Gammage, C. Viscomi, M.-L. Simard, A. S. H. Costa, E. Gaude, C. A. Powell, L. van Haute, B. J. McCann, P. Rebelo-Guiomar, R. Cerutti, L. Zhang, E. J. Rebar, M. Zeviani, C. Frezza, J. B. Stewart, M. Minczuk. Genome Editing in Mitochondria Corrects a Pathogenic mtDNA Mutation In Vivo. Nature Medicine 24 (2018): 1691-1695. Doi:10.1038/s41591-018-0165-9.

[52] S. R. Bacman, J. H. K. Kauppila, С. V. Pereira, N. Nissanka, M. Miranda, M. Pinto, S. L. Williams, N.-G. Larsson, J. B. Stewart, С. T. Moraes. MitoTALEN Reduces Mutant mtDNA Load and Restores tRNAAla Levels in a Mouse Model of Heteroplasmic mtDNA Mutation. Nature Medicine 24 (2018): 1696-1700. Doi:10.1038/s41591-018-0166-8.

[53] X.-H. Zhang, L. Y. Tee, X.-B. Wang, Q.-S. Huang, S.-H. Yang. Off-Target Effects in CRISPR/Cas9-Mediated Genome Engineering. Molecular Therapy-Nucleic Acids 4 (2015): e264. URL: https:// doi.org/10.1038/mtna.2015.37.