Танец жизни. Новая наука о том, как клетка становится человеком
Шрифт:
[21] M. E. Torres-Padilla, D. E. Parfitt, T. Kouzarides, M. Zernicka-Goetz. Histone Arginine Methylation Regulates Plan potency in the Early Mouse Embryo. Nature 445. No 7124 (2007): 214—218. Doi:10.1038/nature05458.
[22] Ibid.
[23] Fernando H. Biase, Xiaoyi Cao, Sheng Zhong. Cell Fate Inclination Within 2-Cell and 4-Cell Mouse Embryos Revealed by Single-Cell RNA Sequencing. Genome Research 24. No. 11 (2014): 1787—1796. Doi: 10.1101/gr. 177725.114; Junchao Shi, Qi Chen, Xin Li, Xiu-deng Zheng, Ying Zhang, Jie Qiao, Fuchou Tang, Yi Tao, Qi Zhou, Enkui Duan. Dynamic Transcriptional Symmetry-Breaking in Pre-implantation Mammalian Embryo Development Revealed by Single-Cell RNA-Seq. Development 142 (2015): 3468—3477. Doi:10.1242/ dev. 123950.
[24]
[25] М. Goolam, A. Scialdone, S. J. L. Graham, I. С. Macaulay, A. Jedrusik, A. Hupalowska, Т. Voet, J. C. Marioni, M. Zernicka-Goetz. Heterogeneity in Oct4 and Sox2 Targets Biases Cell Fate in 4-Cell Mouse Embryos. Cell 165 (2016): 61-74. Dor 10 1016/i cell.2016.01.047.
[26] A. Jedrusik, D.-E. Parfitt, G. Guo, M. Skamagki, J. B. Grabarek, M. H. Johnson, P. Robson, M. Zernicka-Goetz. Role ofCdx2and Cell Polarity in Cell Allocation and Specification of Trophectoderm and Inner Cell Mass in the Mouse Embryo. Genes and Development 22 (2008): 2692-2706. Doi: 10.1101 /gad.486108.
[27] Goolam et al. Heterogeneity in Oct4andSox2 Targets, 61-74.
[28] M D. White, J. F. Angiolini, Y. D. Alvarez, G. Kaur, Z. W. Zhao, E. Mocskos, L. Bruno, S. Bissiere, V. Levi, N. Plachta. Long-Lived Binding of Sox2 to DNA Predicts Cell Fate in the Four-Cell Mouse Embryo. Cell 165 (2016): 75-87. Doi: 10.1016/j.cell.2016.02.032.
[29] Ibid.
[30] S. A. Morris, Y. Guo, M. Zernicka-Goetz. Developmental Plasticity Is Bound by Pluripotency and the Fgfand Wnt Signaling Pathways. Cell Reports 2. No. 4 (2012): 756-765.
[31] N. Plachta, T. Bollenbach, S. Pease, S. E. Fraser, P. Pantazis. Oct4 Kinetics Predict Cell Lineage Patterning in the Early Mammalian Embryo. Nature Cell Biology 13 (2011): 117-123. Doi: 10.1038/ncb2154.
[32] White et al. Long-Lived Binding of Sox2 to DNA, 75-87.
[33] 1. Tabansky, A. Lenarcic, R. W. Draft, K. Loulier, D. B. Keskin, J. Rosains, J. Rivera-Feliciano, J. W. Lichtman, J. Livet, J. N. Stern, J. R. Sanes, K. Eggan. Developmental Bias in Cleavage-Stage Mouse Blastomeres. Current Biology 23 (2013): 21-31. Doi: 10.1016/j cub.2012.10.054.
[34] Ibid.
Глава 6. Вскрытие черного ящика
[1] J. W. Lichtman, S. E. Fraser. The Neuronal Naturalist: Watching Neurons in Their Native Habitat. Nature Neuroscience 4 (2001): 1215-1220. Doi:10.1038/nn754.
[2] Insoo Hyun, Amy Wilkerson, Josephine Johnston. Embryology Policy: Revisit the 14-Day Rule. Nature 533 (2016): 169-171. URL: www. nature.com/news/embryology-policy-revisitthe- 14-day-rule-1.19838.
[3] J. Carver, К. Martin, I. Spyropoulou, D. Barlow, I. Sargent, H. Mar-don. An In-Vitro Model for Stromal Invasion During Implantation of the Human Blastocyst. Human Reproduction 18 (2003): 283-290.
[4] William Richard Rice. The High Abortion Cost of Human Reproduction. bioRxiv (2018): 372193.
[5] A. T. Hertig, J. Rock, E. C. Adams. A Description of 34 Human Ova Within the First 17 Days of Development. American Journal of Anatomy 98. No. 31 (1956): 435-493. URL:aja. 1000980306.
[6] Ibid.
[7] B. Fu, Y. Zhou, X. Ni, X. Tong, X. Xu, Z. Dong, R. Sun, Z. Tian, H. Wei. Natural Killer Cells Promote Fetal Development Through the Secretion of Growth-Promoting Factors. Immunity 47 (2017): 1100-1113. Doi: 10.1016/j.immuni.2017.11.018.
[8] R. Vento-Tormo, M. Efremova, R. A. Botting, M. Y. Turco, M. Ven-to-Tormo, К. B. Meyer, J. E. Park, E. Stephenson, K. Polaski, A. Goncalves, L. Gardner, S. Holmqvist, J. Henriksson, A. Zou, A. M. Sharkey, B. Millar, B. Innes, L. Wood, A. Wilbrey-Clark, R. P. Payne, M. A. Ivarsson, S. Lisgo, A. Filby, D. H. Rowitch, J. N. Bulmer, G. J. Wright, M. J. T. Stubbington, M. Haniffa, A. Moffett, S. A. Teichmann. Single-Cell Reconstruction of the Early Maternal-Fetal Interface in Humans. Nature 563 (2018): 347-353. Doi: 10.1038/s41586-018-0698-6.
[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.