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Systems Biology in Reproductive Medicine Volume 59, 2013 - Issue 3
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INVITED REVIEW

Conception and development of the Second Life® Embryo Physics Course

Richard Gordon Embryogenesis Center, Gulf Specimen Marine Laboratory, Panacea, Florida, USACorrespondence[email protected]
Pages 131-139 | Received 02 Jan 2012, Accepted 02 Feb 2013, Published online: 15 Apr 2013

Bibliography

  • Adamo, L. and Garcia-Cardena, G. (2011) Directed stem cell differentiation by fluid mechanical forces. Antioxidants & Redox Signaling 15:1463–1473.
  • Alicea, B. (2011) The “machinery” of biocomplexity: understanding non-optimal architectures in biological systems, from http://arxiv.org/abs/1104.3559/
  • Anderson, P.F. (2011) Cool Toys Pic of the day - About Writing Books in New and Different Ways. Retrieved January 21, 2011, from http://cooltoys.posterous.com/cool-toys-pic-of-the-day-about- writing-books
  • Avvisato, C.L., Yang, X., Shah, S., Hoxter, B., Li, W., Gaynor, R., (2007) Mechanical force modulates global gene expression and β-catenin signaling in colon cancer cells. J Cell Sci 120:2672–2682.
  • Beloussov, L.V. and Gordon, R. (2006) Preface. Morphodynamics: Bridging the Gap between the Genome and Embryo Physics. Int J Dev Biol 50:79–80.
  • Ben-Ze'ev, A., Farmer, S.R. and Penman, S. (1980) Protein synthesis requires cell-surface contact while nuclear events respond to cell shape in anchorage-dependent fibroblasts. Cell 21:365–372.
  • Bhat, R., Lerea, K.M., Peng, H., Kaltner, H., Gabius, H.J. and Newman, S.A. (2011) A regulatory network of two galectins mediates the earliest steps of avian limb skeletal morphogenesis. BMC Dev Biol 11: Article Number: 6 DOI: 10.1186/1471-213X-11-6
  • Björklund, N.K. and Gordon, R. (2006) A hypothesis linking low folate intake to neural tube defects due to failure of post-translation methylations of the cytoskeleton. Int J Dev Biol 50:135–141.
  • Bohil, C.J., Alicea, B. and Biocca, F.A. (2011) Virtual reality in neuroscience research and therapy. Nat Rev Neurosci 12:752–762.
  • Bond, C. and Harris, A.K. (1988) Locomotion of sponges and its physical mechanism. J. Exp Zool 246:271–284.
  • Brodland, G.W., Conte, V., Cranston, P.G., Veldhuis, J., Narasimhan, S., Hutson, M.S., (2010) Video force microscopy reveals the mechanics of ventral furrow invagination in Drosophila. Proc Natl Acad Sci USA 107:22111–22116.
  • Brodland, G.W., Gordon, R., Scott, M.J., Björklund, N.K., Luchka, K.B., Martin, C.C., (1994) Furrowing surface contraction wave coincident with primary neural induction in amphibian embryos. J Morphol 219:131–142.
  • Brouzés, E. and Farge, E. (2004) Interplay of mechanical deformation and patterned gene expression in developing embryos. Curr Opin Genet Dev 14:367–374.
  • Buckley, W.R. (2008) Computational ontogeny. Biological Theory 3:1–6.
  • Buckley, W.R. (2012) Constructor ontogeny. In Proceedings of the 4th International Conference on Computational Intelligence, Evolutionary Computation Theory and Applications, ECTA’2012, October 5–7, 2012, Barcelona, Spain, http://www.ecta.ijcci.org/Abstracts/2012/ECTA_2012_Abstracts.htm
  • Buckley, W.R. and Gordon, R. (2010) International Embryo Physics Course - An Effort in Reverse Engineering. Retrieved January 1, 2012, from http://embryophysics.org/
  • Buckley, W.R. and Mukherjee, A. (2005) Constructibility of signal-crossing solutions in von Neumann 29-state cellular automata. Lecture Notes in Computer Science 3515:395–403.
  • Chetland, C. (2012) Does biology need a new theory of explanation? A biological perspective on Kant's critique of teleological judgment. In Origin(s) of Design in Nature: A Fresh, Interdisciplinary Look at How Design Emerges in Complex Systems, Especially Life ed. L. Swan, R. Gordon and J. Seckbach Springer, Dordrecht pp. 121–139.
  • Chien, S., Li, S. and Shyy, J.Y.-J. (1998) Effects of mechanical forces on signal transduction and gene expression in endothelial cells. Hypertension 31:162–169.
  • Codd, E.F. (1968) Cellular Automata, Academic Press, New York.
  • Cox, E.J., Willis, L. and Bentley, K. (2012) Integrated simulation with experimentation is a powerful tool for understanding diatom valve morphogenesis. Biosystems 109:450–459.
  • Craddock, T.J., Tuszynski, J.A. and Hameroff, S. (2012) Cytoskeletal signaling: is memory encoded in microtubule lattices by CaMKII phosphorylation? PLoS Comput Biol 8:e1002421.
  • Crawford-Young, S. (2006) Effects of microgravity on cell cytoskeleton and embryogenesis. Int J Dev Biol 50:183–191.
  • Dahl, K.N., Ribeiro, A.J.S. and Lammerding, J. (2008) Nuclear shape, mechanics, and mechanotransduction. Circ Res 102:1307–1318.
  • Damer, B. (1997) Avatars: Exploring and Building Virtual Worlds on the Internet, Peachpit Press, Berkeley.
  • Damer, B., Gordon, R. and Seckbach, J., ed. (2013) Genesis Engines: Computation and Chemistry in the Quest for Life's Origins [in preparation].
  • Damer, B., Newman, P., Gordon, R., Barbalet, T., Deamer, D.W. and Norkus, R. (2010) The EvoGrid: a framework for distributed artificial chemistry cameo simulations supporting origins of life endeavors. In Artificial Life XII. Proceedings of the Twelfth International Conference on the Synthesis and Simulation of Living Systems ed. Fellermann, H., Dorr, M., Hanczyc, M., Laursen, L.L., Maurer, S., Merkle, D., Monnard, P.-A., Sty, K. andRasmussen, S., MIT Press, Cambridge pp. 73–79.
  • Damer, B., Newman, P., Norkus, R., Gordon, R. and Barbalet, T. (2012) Cyberbiogenesis and the EvoGrid: a Twenty-First Century grand challenge. In Genesis - In the Beginning: Precursors of Life, Chemical Models and Early Biological Evolution ed. Seckbach, J., Springer, Dordrecht pp. 267–288.
  • Danilchik, M.V. and Brown, E.E. (2008) Membrane dynamics of cleavage furrow closure in Xenopus laevis. Dev Dyn 237:565–579.
  • Danilchik, M.V., Brown, E.E. and Riegert, K. (2006) Intrinsic chiral properties of the Xenopus egg cortex: an early indicator of left-right asymmetry? Development 133:4517–4526.
  • Davidson, L.A. (2011) The physical mechanical processes that shape tissues in the early embryo. In Cellular and Biomolecular Mechanics and Mechanobiology ed. Gefen A., Springer, Heidelberg pp. 71–97.
  • Deacon, T.W. (2011) Incomplete Nature: How Mind Emerged from Matter, W W Norton & Co Inc, New York.
  • Deichmann, U. (2011) Early 20th-century research at the interfaces of genetics, development, and evolution: Reflections on progress and dead ends. Dev Biol 357:3–12.
  • Deinum, E.E., Tindemans, S.H. and Mulder, B.M. (2011) Taking directions: the role of microtubule-bound nucleation in the self-organization of the plant cortical array. Phys Biol 8:056002.
  • Durston, A.J., Jansen, H.J. and Wacker, S.A. (2010) Review: Time-space translation regulates trunk axial patterning in the early vertebrate embryo. Genomics 95:250–255.
  • Fagan, M.B. (2012) Waddington redux: models and explanation in stem cell and systems biology. Biology & Philosophy 27:179–213.
  • Fleury, V. (2012) Biofluidics of animal morphogenesis: does evolution follow stream lines? Comput Methods Biomech Biomed Engin 15:17–18.
  • Fleury, V. (2009) Clarifying tetrapod embryogenesis, a physicist's point of view. European Physical Journal-Applied Physics 45:54p. Article 30101.
  • Fleury, V. (2011) Dynamic topology of the cephalochordate to amniote morphological transition: A self-organized system of Russian dolls. Comptes Rendus Biologies 334:91–99.
  • Fleury, V. and Gordon, R. (2012) Coupling of growth, differentiation and morphogenesis: an integrated approach to design in embryogenesis. In Origin(s) of Design in Nature: A Fresh, Interdisciplinary Look at How Design Emerges in Complex Systems, Especially Life ed. L. Swan, R. Gordon and J. Seckbach Springer, Dordrecht pp. 385–428.
  • Friedman, D., Karniel, Y. and Dinur, A.L. (2009) Comparing group discussion in virtual and physical environments. Presence-Teleoperators and Virtual Environments 18:286–293.
  • Fu, Q., Zhang, Y., Xu, Y., Li, Y., Guo, L. and Shao, M. (2011) Effect of cytoskeleton on the mechanosensitivity of genes in osteoblasts. In Mechanosensitivity and Mechanotransduction ed. A. K. I. Kamkin pp. 67–76,
  • Gatenby, R.A. and Frieden, B.R. (2010) Coulomb interactions between cytoplasmic electric fields and phosphorylated messenger proteins optimize information flow in cells. PLoS ONE 5:e12084.
  • Gebeshuber, I.C., Chawla, C., Gururaja, K.V. and Gordon, R. (2012) Early development of caecilians/apoda. 1. Translation of Sarasin & Sarasin (1889) “On the Developmental History and Anatomy of the Ceylon Blind Burrower Ichthyophis glutinosu”. in preparation.
  • Gebeshuber, I.C. and Gordon, R. (2011) Bioinspiration for tribological systems on the micro- and nanoscale: dynamic, mechanic, surface and structure related functions. Micro and Nanosystems 3:271–276.
  • Gibson, D.G., Glass, J.I., Lartigue, C., Noskov, V.N., Chuang, R.-Y., Algire, M.A., (2010) Creation of a bacterial cell controlled by a chemically synthesized genome. Science 10.1126/science.1190719.
  • Gieni, R.S. and Hendzel, M.J. (2008) Mechanotransduction from the ECM to the genome: are the pieces now in place? J Cell Biochem 104:1964–1987.
  • Gordon, R. Ninowski, R.Harris, A.K.Levin, S.M.McGrew, S.P.andSwan L. (2013) Global/local communication within the developing organism: Is embryogenesis a hierarchical sequence of cybernetic goal settings?, in preparation. Jacobson, A.G. and Gordon, R. (1976) Changes in the shape of the developing vertebrate nervous system analyzed experimentally, mathematically and by computer simulation J. Exp. Zool. 197:191–246.
  • Gordon, N.K. and Gordon, R. (2013) Embryogenesis Explained [in preparation], World Scientific Publishing Company, Singapore.
  • Gordon, R. (2011a) Cosmic Embryo #1: My Erdös Number Is 2i. from http://www.science20.com/cosmic_embryo/cosmic_embryo_1_my_erd%C3%B6s_number_2i-75020
  • Gordon, R. (2010) Diatoms and nanotechnology: early history and imagined future as seen through patents. In The Diatoms: Applications for the Environmental and Earth Sciences ed. Smol, J.P. and Stoermer, E.F. Cambridge University Press, Cambridge pp. 585–602.
  • Gordon, R. (2011b) Epilogue: the diseased breast lobe in the context of X-chromosome inactivation and differentiation waves. In Breast Cancer: A Lobar Disease ed. Tot, T., Springer, London pp. 205–210.
  • Gordon, R. (2009) Google Embryo for building quantitative understanding of an embryo as it builds itself: II. Progress toward an embryo surface microscope. Biological Theory: Integrating Development, Evolution, and Cognition 4:396–412.
  • Gordon, R. (1999) The Hierarchical Genome and Differentiation Waves: Novel Unification of Development, Genetics and Evolution, World Scientific & Imperial College Press, Singapore & London.
  • Gordon, R. (2001) Making waves: the paradigms of developmental biology and their impact on artificial life and embryonics. Cybernetics & Systems 32:443–458.
  • Gordon, R. (2006) Mechanics in embryogenesis and embryonics: prime mover or epiphenomenon? Int J Dev Biol 50:245–253.
  • Gordon, R. (1966) On stochastic growth and form. Proc Natl Acad Sci USA 56:1497–1504.
  • Gordon, R. (1985) A review of the theories of vertebrate neurulation and their relationship to the mechanics of neural tube birth defects. J Embryol Exp Morph 89:229–255.
  • Gordon, R. (2011c) Stop breast cancer now! Imagining imaging pathways towards search, destroy, cure and watchful waiting of premetastasis breast cancer. In Breast Cancer - A Lobar Disease ed. Tot, T., Springer, London 167–203.
  • Gordon, R. (2012) Walking the tightrope: the dilemmas of hierarchical instabilities in Turing's morphogenesis [invited]. In The Once and Future Turing - Computing the World ed. Cooper, S.B. and Hodges, A., Cambridge University Press, in press.
  • Gordon, R., Bender, R. and Herman, G.T. (1970) Algebraic Reconstruction Techniques (ART) for three-dimensional electron microscopy and x-ray photography. J Theor Biol 29:471–481.
  • Gordon, R. and Björklund, N.K. (1996) How to observe surface contraction waves on axolotl embryos. Int J Dev Biol 40:913–914.
  • Gordon, R., Björklund, N.K. and Nieuwkoop, P.D. (1994) Appendix: dialogue on embryonic induction and differentiation waves. Int Rev Cytol 150:373–420.
  • Gordon, R., Björklund, N.K., Smith, R.J. and Blyden, E.R. (2009) Halting HIV/AIDS with avatars and havatars: a virtual world approach to modelling epidemics. BMC Public Health 9:S13 (16 pages).
  • Gordon, R., Goel, N.S., Steinberg, M.S. and Wiseman, L.L. (1975) A rheological mechanism sufficient to explain the kinetics of cell sorting. In Mathematical Models for Cell Rearrangement ed. Mostow G.D. Yale University Press, New Haven 196–230.
  • Gordon, R., Goel, N.S., Steinberg, M.S. and Wiseman, L.L. (1972) A rheological mechanism sufficient to explain the kinetics of cell sorting. J Theor Biol 37:43–73.
  • Gordon, R. and Jacobson, A.G. (1978) The shaping of tissues in embryos. Scientific American 238:106–113.
  • Gordon, R., Levin, S.M. and Gebeshuber, I.C. (2011) Triggered, nanostructured biodegradables (TNBs) for surgical implants. Micro and Nanosystems 3:284–289.
  • Gordon, R. and Melvin, C.A. (2003) Reverse engineering the embryo: a graduate course in developmental biology for engineering students at the University of Manitoba, Canada. Int J Dev Biol 47:183–187.
  • Gordon, R. and Poulin, B.J. (2009a) Cost of the NSERC science grant peer review system exceeds the cost of giving every qualified researcher a baseline grant. Accountability in Research: Policies and Quality Assurance 16:1–28.
  • Gordon, R. and Poulin, B.J. (2009b) Indeed: Cost of the NSERC science grant peer review system exceeds the cost of giving every qualified researcher a baseline grant. Accountability in Research: Policies and Quality Assurance 16:232–233.
  • Gordon, R. and Tiffany, M.A. (2011) Possible buckling phenomena in diatom morphogenesis. In The Diatom World ed. Seckbach, J. and Kociolek, J.P., Springer, Dordrecht, The Netherlands pp. 245–272.
  • Gordon, R. and Westfall, J.E. (2009) Google Embryo for building quantitative understanding of an embryo as it builds itself: I. Lessons from Ganymede and Google Earth. Biological Theory: Integrating Development, Evolution, and Cognition 4:390–395+Supplementary Appendix.
  • Gordon, R., Witkowski, A., Gebeshuber, I.C. and Allen, C.S. (2010) The diatoms of Antarctica and their potential roles in nanotechnology. In Antarctica: Time of Change ed. Masó, M., Editions ACTAR, Barcelona pp. 84–95.
  • Gordon, R., Ninowski, R., Harris, A.K., Levin, S.M., McGrew, S.P. and Swan, L. (2013) Global/local communication within the developing organism: Is embryogenesis a hierarchical sequence of cybernetic goal settings?, in preparation.
  • Gray, J.A. (2004) Consciousness: Creeping Up on the Hard Problem, Oxford University Press, Inc., New York.
  • Hanczyc, M.M. and Ikegami, T. (2010) Chemical basis for minimal cognition. Artificial Life 16:233–243.
  • Harris, A.K. (1999) A dozen questions about how tissue cells crawl. Biochem Soc Symp 65:315–341.
  • Harris, A.K. (1976) Is cell sorting caused by differences in the work of intercellular adhesion? A critique of the Steinberg hypothesis. J Theor Biol 61:267–285.
  • Harrison, L.G., Adams, R.J. and Holloway, D.M. (2012) Dynamic regulation of growing domains for elongating and branching morphogenesis in plants. Biosystems 109:488–497.
  • Hill, T.L. (1963) Thermodynamics of Small Systems, Part I, W.A. Benjamin, New York.
  • Hill, T.L. (1964) Thermodynamics of Small Systems, Part II, W.A. Benjamin, New York.
  • His, W. (1888) On the principles of animal morphology. Roy Soc Edinburgh Proc 15:287–298.
  • His, W. (1894) Über mechanische Grundvorgänge thierischer Formbildung [On the mechanical basis of animal morphogenesis]. Arch Anat Physiol u wiss Med: Anat Abth 1–80.
  • His, W. (1874) Unsere Körperform und das Problem ihrer Entstehung, Briefe an einen befreundeten Naturforscher/Our Body Form and the Problem of its Emergence, Letters to a Friendly Natural Scientist, F.C.W. Vogel, Leipzig.
  • Igamberdiev, A.U., Beloussov, L.V. and Gordon, R. (2012) Editorial. Special Issue: Biological Morphogenesis: Theory and Computation. BioSystems 109:241–242.
  • Jacobson, A.G. and Gordon, R. (1976) Changes in the shape of the developing vertebrate nervous system analyzed experimentally, mathematically and by computer simulation. J. Exp. Zool. 197:191–246.
  • Jeon, K.W., Lorch, I.J. and Danielli, J.F. (1970) Reassembly of living cells from dissociated components. Science 167:1626–1627.
  • Kawamura, M. and Kubota, S. (2008) Influences of temperature and salinity on asexual budding by hydromedusa Proboscidactyla ornata (Cnidaria: Hydrozoa: Proboscidactylidae). Journal of the Marine Biological Association of the United Kingdom 88:1601–1606.
  • Kerney, R., Wassersug, R. and Hall, B.K. (2010) Skeletal advance and arrest in giant non-metamorphosing African clawed frog tadpoles (Xenopus laevis: Daudin). J Anat 216:132–143.
  • Keller, R.E. (1984) The cellular basis of gastrulation in Xenopus laevis: active, postinvolution convergence and extension by mediolateral interdigitation. Am. Zool. 24:589–603.
  • Keller, R.E. (2007) The cellular basis of gastrulation in Xenopus laevis: active, postinvolution convergence and extension by mediolateral interdigitation. Am. Zool 24:589–603.
  • Komuro, I. and Yazaki, Y. (1993) Control of cardiac gene expression by mechanical stress. In Annual Review of Physiology ed. Hoffman, J.F., pp. 55–75.
  • Lakhtakia, A., Demirel, M.C., Horn, M.W. and Xu, J. (2008) Six emerging directions in sculptured-thin-film research. In Advances in Solid State Physics 46 ed. Haug, R., Springer-Verlag Berlin, Berlin pp. 285–296.
  • Lee, S.-C., Mietchen, D., Cho, J.-H., Kim, Y.-S., Kim, C., Hong, K.S., (2007) In vivo magnetic resonance microscopy of differentiation in Xenopus laevis embryos from the first cleavage onwards. Differentiation 75:84–92.
  • Levin, S.M. (1995) The importance of soft tissues for structural support of the body. Spine: State of the Art Reviews 9:357–363.
  • Levin, S.M. (2003) A new model for biologic constructs: Biotensegrity. In ASME 2003 International Mechanical Engineering Congress and Exposition, Advances in Bioengineering Interrepro AG, Washington, DC, USA, November 15–21, 2003 ed. American Society of Mechanical Engineers, New York pp. 123–124.
  • Levin, S.M. (2005) The tensegrity-truss as a model for spine mechanics: biotensegrity. J Mech Med Biol 2:375–388.
  • Linde-Medina, M. (2010) Natural selection and self-organization: A deep dichotomy in the study of organic form. Ludus Vitalis 18:25–56.
  • Linden Research. Second Life Wiki > Official Policies > Third Party Viewer Directory. (2011) Retrieved January 1, 2012, from http://wiki.secondlife.com/wiki/Third_Party_Viewer_Directory
  • Linnemann, A.K., Platts, A.E., Doggett, N., Gluch, A., Bode, J. and Krawetz, S.A. (2007) Genomewide identification of nuclear matrix attachment regions: an analysis of methods. Biochem Soc Trans 35:612–617.
  • Lu, K., Gordon, R. and Cao, T. (2013) Reverse engineering the mechanical and molecular pathways in stem cell morphogenesis. J Tissue Eng Regen Med DOI: 10.1002/term.1672.
  • Lu, K., Tong, C. and Gordon, R. (2012) A cell state splitter and differentiation wave working-model for embryonic stem cell development and somatic cell epigenetic reprogramming. BioSystems 109:390–396.
  • Martínez, G.J., Adamatzky, A., Seck-Tuoh-Mora, J.C. and Alonso-Sanz, R. (2010) How to make dull cellular automata complex by adding memory: rule 126 case study. Complexity 15:34–49.
  • Martínez, G.J., McIntosh, H.V., Seck Tuoh Mora, J.C. and Chapa Vergara, S.V. (2008) Determining a regular language by glider-based structures called phases f i_1 in rule 110. Journal of Cellular Automata 3:231–270.
  • Maruyama, M. (1963) The second cybernetics: deviation-amplifying mutual causal processes. Amer Sci 51:164–179.
  • McGrew, S. (2013) I of Nature, Marquette Books, Spokane.
  • McGrew, S.P. (2012) Creativity in nature. In Origin(s) of Design in Nature ed. Swan, L., Gordon, R. and Seckbach J., Springer, Dordrecht pp. 45–55.
  • Mietchen, D. and Gaser, C. (2009) Computational morphometry for detecting changes in brain structure due to development, aging, learning, disease and evolution. Front Neuroinform 3:Article 25.
  • Muñoz, J.J., Barrett, K. and Miodownik, M. (2007) A deformation gradient decomposition method for the analysis of the mechanics of morphogenesis. J Biomech 40:1372–1380.
  • Murray, N., Roberts, D., Steed, A., Sharkey, P., Dickerson, P. and Rae, J. (2007) An assessment of eye-gaze potential within immersive virtual environments. ACM Trans. Multimedia Comput. Commun. Appl. 3:1–17.
  • Newman, S.A. (2011a) Animal egg as evolutionary innovation: a solution to the “embryonic hourglass” puzzle. J Exp Zool Part B Mol Dev Evol 316B:467–483.
  • Newman, S.A. (2011b) The developmental specificity of physical mechanisms. Ludus Vitalis 19:343–351.
  • Newman, S.A. and Bhat, R. (2008) Dynamical patterning modules: physico-genetic determinants of morphological development and evolution. Phys Biol 5:015008 (015014pp).
  • Newman, T.J. (2011c) Life and death in biophysics. Phys Biol 8:010201.
  • Nouri, C., Tuszynski, J.A., Wiebe, M. and Gordon, R. (2012) Simulation of the effects of microtubules in the cortical rotation of amphibian embryos in normal and zero gravity. BioSystems 109:444–449.
  • Obladen, M. (2011) Cats, frogs, and snakes: early concepts of neural tube defects. J Child Neurol 26:1452–1461.
  • Ogryzko, V.V. (2008) Erwin Schroedinger, Francis Crick and epigenetic stability. Biol Direct 3:15.
  • Oh, C. and Frieden, B.R. (2009) Restoration of a Poisson distributed image using a principle of extreme physical information. Opt Commun 282:2489–2494.
  • Oster, G.F., Murray, J.D. and Harris, A.K. (1983) Mechanical aspects of mesenchymal morphogenesis. J Embryol Exp Morphol 78:83–125.
  • Papageorgiou, S. (2012) Comparison of models for the collinearity of Hox genes in the developmental axes of vertebrates. Current Genomics 13:245–251.
  • Pietak, A.M. (2012) Structural evidence for electromagnetic resonance in plant morphogenesis. Biosystems 109:367–380.
  • Pollack, G.H., Cameron, I. and Wheatley, D. (2006) Water and the Cell, Springer, Dordecht, The Netherlands.
  • Roux, W. (1888, translated 1964) 1888: Contributions to the developmental mechanics of the embryo. On the artificial production of half-embryos by destruction of one of the first two blastomeres, and the later development (postgeneration) of the missing half of the body. In Foundations of Experimental Embryology ed. Willier, B.H. and Oppenheimer, J. M., Prentice-Hall, Englewood Cliffs, New Jersey pp. 2–37.
  • Rudnyi, E. (2011) Embryo Physics Course – An Effort in Reverse Engineering the Embryo. Retrieved January 1, 2012, from http://embryogenesisexplained.com/course
  • Rudnyi, E. and Gordon, R. (2012) Is the brain in the world or the world in the brain? from http://blog.rudnyi.ru/2012/05/brain-and-world.html
  • Rudnyi, E.B. and Korvink, J.G. (2006) Model order reduction for large scale engineering models developed in ANSYS. Lecture Notes in Computer Science 3732:349–356.
  • Ruse, M. (2013) From organicism to mechanism—and halfway back? In Beyond Mechanism: Putting Life Back Into Biology ed. Henning, B G. and Scarfe, A. Lexington Books/Rowman & Littlefield, USA pp. 409–430.
  • Sandersius, S.A., Weijer, C.J. and Newman, T.J. (2011) Emergent cell and tissue dynamics from subcellular modeling of active biomechanical processes. Phys Biol 8:045007.
  • Schreer, O., Englert, R., Eisert, P. and Tanger, R. (2008) Real-time vision and speech driven avatars for multimedia applications. IEEE Transactions on Multimedia 10:352–360.
  • Serra-Picamal, X., Conte, V., Vincent, R., Anon, E., Tambe, D.T., Bazellieres, E., (2012) Mechanical waves during tissue expansion. Nature Physics 8:628–634.
  • Sharov, A.A. (2010) Functional information: towards synthesis of biosemiotics and cybernetics. Entropy (Basel) 12:1050–1070.
  • Sharov, A.A. (2012) The origin of mind. In Biosemiotics Turning Wild: Essays in Honour of Kalevi Kull on the Occasion of His 60th Birthday ed. Maran, T., Lindström, K., Magnus, R. and Tønnensen, M., University of Tartu Press, Tartu, Estonia pp. 63–69.
  • Sinnott, E.W. (1962) The Biology of The Spirit, The Viking Press, New York.
  • Sinnott, E.W. (1966) The Bridge of Life, From Matter to Spirit, Simon and Schuster, New York.
  • Sinnott, E.W. (1950) Cell and Psyche; the Biology of Purpose, Harper, New York.
  • Sinnott, E.W. (1960) Plant Morphogenesis, McGraw-Hill Book Co., New York.
  • Smith, R.J. and Gordon, R. (2009) The OptAIDS project: towards global halting of HIV/AIDS [Preface]. BMC Public Health 9:S1 (5 pages).
  • Sober, E. (1993) Philosophy of Biology, Westview Press, Boulder, Colorado, USA.
  • Souza, G.R., Molina, J.R., Raphael, R.M., Ozawa, M.G., Stark, D.J., Levin, C.S., (2010) Three-dimensional tissue culture based on magnetic cell levitation. Nat Nanotechnol 5:291–296.
  • Spemann, H. and Mangold, H. (2001) Induction of embryonic primordia by implantation of organizers from a different species (Reprinted from Archiv Mikroskopische Anatomie Entwicklungsmechanik, vol 100, pg 599–638, 1924) Int J Dev Biol 45:13–38.
  • Stillwaggon Swan, L., Newman, S.A. and Gordon, R. (2013) Morphogenesis and mind: same problem? The legacy of Edmund W. Sinnott, in preparation.
  • Swan, L.S., Gordon, R. and Seckbach, J., ed. (2012) Origin(s) of Design in Nature: A Fresh, Interdisciplinary Look at How Design Emerges in Complex Systems, Especially Life, Springer, Dordrecht.
  • Tempesti, G., Mange, D., Mudry, P.-A., Rossier, J. and Stauffer, A. (2007) Self-replicating hardware for reliability: the embryonics project. ACM Journal on Emerging Technologies in Computing Systems 3:1–21.
  • Tuszynski, J.A., ed. (2006) The Emerging Physics of Consciousness, Springer Verlag, Heidelberg.
  • Tuszynski, J.A. and Gordon, R. (2012) A mean field Ising model for cortical rotation in amphibian one-cell stage embryos. BioSystems 109:381–389.
  • Tzschentke, B. and Plagemann, A. (2006) Imprinting and critical periods in early development. Worlds Poultry Science Journal 62:626–637.
  • Ulam, S. (1962) On some mathematical problems connected with patterns of growth of figures. Symposium in Applied Mathematics 14:215–224.
  • Vidal, C. (2012a) Artificial cosmogenesis: a new kind of cosmology. In Irreducibility and Computational Equivalence: Wolfram Science 10 Years After the Publication of A New Kind of Science ed. Zenil, H. pp. http://arxiv.org/abs/1205.1407.
  • Vidal, C. (2012b) Black holes: attractors for intelligence?, from http://arxiv.org/abs/1104.4362
  • von Dassow, M. and Davidson, L.A. (2011) Physics and the canalization of morphogenesis: a grand challenge in organismal biology. Phys Biol 8:045002.
  • von Neumann, J. (1966) Theory of Self-Reproducing Automata, University of Illinois Press, Urbana.
  • Wade, A.J. Gemini. (2010) from http://conwaylife.com/wiki/index.php?title=Gemini
  • Wang, G., Manning, M.L. and Amack, J.D. (2012) Regional cell shape changes control form and function of Kupffer's vesicle in the zebrafish embryo. Dev Biol 370:52–62.
  • Wieser, M.J., Pauli, P., Grosseibl, M., Molzow, I. and Mühlberger, A. (2010) Virtual social interactions in social anxiety - the impact of sex, gaze, and interpersonal distance. Cyberpsychology Behavior and Social Networking 13:547–554.
  • Wikipedia contributors. (2011) Chicken or the egg. Retrieved January 1, 2012, from http://en.wikipedia.org/wiki/Chicken_or_the_egg
  • Yee, N., Bailenson, J.N., Urbanek, M., Chang, F. and Merget, D. (2007) The unbearable likeness of being digital: the persistence of nonverbal social norms in online virtual environments. Cyberpsychology & Behavior 10:115–121.
  • Yin, C., Ciruna, B. and Solnica-Krezel, L. (2009) Convergence and extension movements during vertebrate gastrulation. In Tissue Remodeling and Epithelial Morphogenesis ed. T. Lecuit pp. 163–192.

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