1. Bassingthwaighte, J. B. (2000) Strategies for the Physiome project. Annals of Biomedical Engineering 28, 1043-1058.

2. Merks, R. M. H., Newman, S. A., and Glazier, J. A. (2004) Cell-oriented modeling of in vitro capillary development. Lecture Notes in Computer Science 3305, 425-434.

3. Turing, A. M. (1953) The Chemical Basis of Morphogenesis. Philosophical Transactions of the Royal Society B 237, 37-72.

4. Merks, R. M. H. and Glazier, J. A. (2005) A cell-centered approach to developmental biology. Physica A 352, 113-130.

5. Dormann, S. and Deutsch, A. (2002) Modeling of self-organized avascular tumor growth with a hybrid cellular automaton. In Silico Biology 2, 1-14.

6. dos Reis, A. N., Mombach, J. C. M., Walter, M., and de Avila, L. F. (2003) The interplay between cell adhesion and environment rigidity in the morphology of tumors. Physica A 322, 546-554.

7. Drasdo, D. and Hohme, S. (2003) Individual-based approaches to birth and death in avascular tumors. Mathematical and Computer Modelling 37, 1163-1175.

8. Holm, E. A., Glazier, J. A., Srolovitz, D. J., and Grest, G. S. (1991) Effects of Lattice Anisotropy and Temperature on Domain Growth in the Two-Dimensional Potts Model. Physical Review A 43, 2662-2669.

9. Turner, S. and Sherratt, J. A. (2002) Intercellular adhesion and cancer invasion: A discrete simulation using the extended Potts model. Journal of Theoretical Biology 216, 85-100.

10. Drasdo, D. and Forgacs, G. (2000) Modeling the interplay of generic and genetic mechanisms in cleavage, blastulation, and gastrulation. Developmental Dynamics 219, 182-191.

11. Drasdo, D., Kree, R., and McCaskill, J. S. (1995) Monte-Carlo approach to tissue-cell populations. Physical Review E 52, 6635-6657.

12. Longo, D., Peirce, S. M., Skalak, T. C., Davidson, L., Marsden, M., and Dzamba, B. (2004) Multicellular computer simulation of morphogenesis: blastocoel roof thinning and matrix assembly in Xenopus laevis. Developmental Biology 271, 210-222.

13. Collier, J. R., Monk, N. A. M., Maini, P. K., and Lewis, J. H. (1996) Pattern formation by lateral inhibition with feedback: A mathematical model of Delta-Notch intercellular signaling. Journal of Theoretical Biology 183, 429-446.

14. Honda, H. and Mochizuki, A. (2002) Formation and maintenance of distinctive cell patterns by coexpression of membrane-bound ligands and their receptors. Developmental Dynamics 223, 180-192.

15. Moreira, J. and Deutsch, A. (2005) Pigment pattern formation in zebrafish during late larval stages: A model based on local interactions. Developmental Dynamics 232, 33-42.

16. Wearing, H. J., Owen, M. R., and Sherratt, J. A. (2000) Mathematical modelling of juxtacrine patterning. Bulletin of Mathematical Biology 62, 293-320.

17. Zhdanov, V. P. and Kasemo, B. (2004) Simulation of the growth of neurospheres. Europhysics Letters 68, 134-140.

18. Ambrosi, D., Gamba, A., and Serini, G. (2005) Cell directional persistence and chemotaxis in vascular morphogenesis. Bulletin of Mathematical Biology 67, 195-195.

19. Gamba, A., Ambrosi, D., Coniglio, A., de Candia, A., di Talia, S., Giraudo, E., Serini, G., Preziosi, L., and Bussolino, F. (2003) Percolation, morphogenesis, and Burgers dynamics in blood vessels formation. Physical Review Letters 90, 118101.

20. Novak, B., Toth, A., Csikasz-Nagy, A., Gyorffy, B., Tyson, J. A., and Nasmyth, K. (1999) Finishing the cell cycle. Journal of Theoretical Biology 199, 223-233.

21. Peirce, S. M., van Gieson, E. J., and Skalak, T. C. (2004) Multicellular simulation predicts microvascular patterning and in silico tissue assembly. FASEB Journal 18, 731-733.

22. Merks, R. M. H., Brodsky, S. V., Goligorksy, M. S., Newman, S. A., and Glazier, J. A. (2006) Cell elongation is key to in silico replication of in vitro vasculogenesis and subsequent remodeling. Developmental Biology 289, 44-54.

23. Merks, R. M. H. and Glazier, J. A. (2005) Contact-inhibited chemotactic motility can drive both vasculogenesis and sprouting angiogenesis. q-bio/0505033.

24. Kesmir, C. and de Boer., R. J. (2003) A spatial model of germinal center reactions: cellular adhesion based sorting of B cells results in efficient affinity maturation. Journal of Theoretical Biology 222, 9-22.

25. Meyer-Hermann, M., Deutsch, A., and Or-Guil, M. (2001) Recycling probability and dynamical properties of germinal center reactions. Journal of Theoretical Biology 210, 265-285.

26. Nguyen, B., Upadhyaya, A. van Oudenaarden, A., and Brenner, M. P. (2004) Elastic instability in growing yeast colonies. Biophysical Journal 86, 2740-2747.

27. Walther, T., Reinsch, H., Grosse, A., Ostermann, K., Deutsch, A., and Bley, T. (2004) Mathematical modeling of regulatory mechanisms in yeast colony development. Journal of Theoretical Biology 229, 327-338.

28. Borner, U., Deutsch, A., Reichenbach, H., and Bar, M. (2002) Rippling patterns in aggregates of myxobacteria arise from cell-cell collisions. Physical Review Letters 89, 078101.

29. Bussemaker, H. J., Deutsch, A., and Geigant, E. (1997) Mean-field analysis of a dynamical phase transition in a cellular automaton model for collective motion. Physical Review Letters 78, 5018-5021.

30. Dormann, S., Deutsch, A., and Lawniczak, A. T. (2001) Fourier analysis of Turing-like pattern formation in cellular automaton models. Future Generation Computer Systems 17, 901-909.

31. Börner, U., Deutsch, A., Reichenbach, H., and Bär, M. (2002) Rippling patterns in aggregates of myxobacteria arise from cell-cell collisions. Physical Review Letters 89, 078101.

32. Zhdanov, V. P. and Kasemo, B. (2004) Simulation of the growth and differentiation of stem cells on a heterogeneous scaffold. Physical Chemistry Chemical Physics 6, 4347-4350.

33. Knewitz, M. A. and Mombach, J. C. (2006) Computer simulation of the influence of cellular adhesion on the morphology of the interface between tissues of proliferating and quiescent cells. Computers in Biology and Medicine 36, 59-69.

34. Marée, A. F. M. and Hogeweg, P. (2001) How amoeboids self-organize into a fruiting body: Multicellular coordination in Dictyostelium discoideum. Proceedings of the National Academy of Sciences of the USA 98, 3879-3883.

35. Marée, A. F. M. and Hogeweg, P. (2002) Modelling Dictyostelium discoideum morphogenesis: the culmination. Bulletin of Mathematical Biology 64, 327-353.

36. Marée, A. F. M., Panfilov, A. V., and Hogeweg, P. (1999) Migration and thermotaxis of Dictyostelium discoideum slugs, a model study. Journal of Theoretical Biology 199, 297-309.

37. Savill, N. J. and Hogeweg, P. (1997) Modelling morphogenesis: From single cells to crawling slugs. Journal of Theoretical Biology 184, 229-235.

38. Hogeweg, P. (2000) Evolving mechanisms of morphogenesis: on the interplay between differential adhesion and cell differentiation. Journal of Theoretical Biology 203, 317-333.

39. Johnston, D. A. (1998) Thin animals. Journal of Physics A 31, 9405-9417.

40. Groenenboom, M. A. and Hogeweg, P. (2002) Space and the persistence of male-killing endosymbionts in insect populations. Proceedings in Biological Sciences 269, 2509-2518.

41. Groenenboom, M. A., Maree, A. F., and Hogeweg, P. (2005) The RNA silencing pathway: the bits and pieces that matter. PLoS Computational Biology 1, 155-165.

42. Kesmir, C., van Noort, V., de Boer, R. J., and Hogeweg, P. (2003) Bioinformatic analysis of functional differences between the immunoproteasome and the constitutive proteasome. Immunogenetics 55, 437-449.

43. Pagie, L. and Hogeweg, P. (2000) Individual- and population-based diversity in restriction-modification systems. Bulletin of Mathematical Biology 62, 759-774.

44. Silva, H. S. and Martins, M. L. (2003) A cellular automata model for cell differentiation. Physica A 322, 555-566.

45. Zajac, M., Jones, G. L., and Glazier, J. A. (2000) Model of convergent extension in animal morphogenesis. Physical Review Letters 85, 2022-2025.

46. Zajac, M., Jones, G. L., and Glazier, J. A. (2003) Simulating convergent extension by way of anisotropic differential adhesion. Journal of Theoretical Biology 222, 247-259.

47. Savill, N. J. and Sherratt, J. A. (2003) Control of epidermal stem cell clusters by Notch-mediated lateral induction. Developmental Biology 258, 141-153.

48. Mombach, J. C. M, de Almeida, R. M. C., Thomas, G. L., Upadhyaya, A., and Glazier, J. A. (2001) Bursts and cavity formation in Hydra cells aggregates: experiments and simulations. Physica A 297, 495-508.

49. Rieu, J. P., Upadhyaya, A., Glazier, J. A., Ouchi, N. B. and Sawada, Y. (2000) Diffusion and deformations of single hydra cells in cellular aggregates. Biophysical Journal 79, 1903-1914.

50. Mochizuki, A. (2002) Pattern formation of the cone mosaic in the zebrafish retina: A cell rearrangement model. Journal of Theoretical Biology 215, 345-361.

51. Takesue, A., Mochizuki, A., and Iwasa, Y. (1998) Cell-differentiation rules that generate regular mosaic patterns: Modelling motivated by cone mosaic formation in fish retina. Journal of Theoretical Biology 194, 575-586.

52. Dallon, J., Sherratt, J., Maini, P. K., and Ferguson, M. (2000) Biological implications of a discrete mathematical model for collagen deposition and alignment in dermal wound repair. IMA Journal of Mathematics Applied in Medicine and Biology 17, 379-393.

53. Maini, P. K., Olsen, L., and Sherratt, J. A. (2002) Mathematical models for cell-matrix interactions during dermal wound healing. International Journal of Bifurcations and Chaos 12, 2021-2029.

54. Kreft, J. U., Picioreanu, C., Wimpenny, J. W. T., and van Loosdrecht, M. C. M. (2001) Individual-based modelling of biofilms. Microbiology 147, 2897-2912.

55. Picioreanu, C., van Loosdrecht, M. C. M., and Heijnen, J. J. (2001) Two-dimensional model of biofilm detachment caused by internal stress from liquid flow. Biotechnology and Bioengineering 72, 205-218.

56. van Loosdrecht, M. C. M., Heijnen, J. J., Eberl, H., Kreft, J., and Picioreanu, C. (2002) Mathematical modelling of biofilm structures. Antonie Van Leeuwenhoek International Journal of General and Molecular Microbiology 81, 245-256.

57. Popławski, N. J., Shirinifard, A., Swat, M., and Glazier, J. A. (2008) Simulations of single-species bacterial-biofilm growth using the Glazier-Graner-Hogeweg model and the CompuCell3D modeling environment. Mathematical Biosciences and Engineering 5, 355-388.

58. Chaturvedi, R., Huang, C., Izaguirre, J. A., Newman, S. A., Glazier, J. A., Alber, M. S. (2004) A hybrid discrete-continuum model for 3-D skeletogenesis of the vertebrate limb. Lecture Notes in Computer Science 3305, 543-552.

59. Popławski, N. J., Swat, M., Gens, J. S., and Glazier, J. A. (2007) Adhesion between cells, diffusion of growth factors, and elasticity of the AER produce the paddle shape of the chick limb. Physica A 373, 521-532.

60. Glazier, J. A. and Weaire, D. (1992) The Kinetics of Cellular Patterns. Journal of Physics: Condensed Matter 4, 1867-1896.

61. Glazier, J. A. (1993) Grain Growth in Three Dimensions Depends on Grain Topology. Physical Review Letters 70, 2170-2173.

62. Glazier, J. A., Grest, G. S., and Anderson, M. P. (1990) Ideal Two-Dimensional Grain Growth. In Simulation and Theory of Evolving Microstructures, M. P. Anderson and A. D. Rollett, editors. The Minerals, Metals and Materials Society, Warrendale, PA, pp. 41-54.

63. Glazier, J. A., Anderson, M. P., and Grest, G. S. (1990) Coarsening in the Two-Dimensional Soap Froth and the Large-Q Potts Model: A Detailed Comparison. Philosophical Magazine B 62, 615-637.

64. Grest, G. S., Glazier, J. A., Anderson, M. P., Holm, E. A., and Srolovitz, D. J. (1992) Coarsening in Two-Dimensional Soap Froths and the Large-Q Potts Model. Materials Research Society Symposium 237, 101-112.

65. Jiang, Y. and Glazier, J. A. (1996) Extended Large-Q Potts Model Simulation of Foam Drainage. Philosophical Magazine Letters 74, 119-128.

66. Jiang, Y., Levine, H., and Glazier, J. A. (1998) Possible Cooperation of Differential Adhesion and Chemotaxis in Mound Formation of Dictyostelium. Biophysical Journal 75, 2615-2625.

67. Jiang, Y., Mombach, J. C. M., and Glazier, J. A. (1995) Grain Growth from Homogeneous Initial Conditions: Anomalous Grain Growth and Special Scaling States. Physical Review E 52, 3333-3336.

68. Jiang, Y., Swart, P. J., Saxena, A., Asipauskas, M., and Glazier, J. A. (1999) Hysteresis and Avalanches in Two-Dimensional Foam Rheology Simulations. Physical Review E 59, 5819-5832.

69. Ling, S., Anderson, M. P., Grest, G. S., and Glazier, J. A. (1992) Comparison of Soap Froth and Simulation of Large-Q Potts Model. Materials Science Forum 94-96, 39-47.

70. Mombach, J. C. M. (2000) Universality of the threshold in the dynamics of biological cell sorting. Physica A 276, 391-400.

71. Weaire, D. and Glazier, J. A. (1992) Modelling Grain Growth and Soap Froth Coarsening: Past, Present and Future. Materials Science Forum 94-96, 27-39.

72. Weaire, D., Bolton, F., Molho, P., and Glazier, J. A. (1991) Investigation of an Elementary Model for Magnetic Froth. Journal of Physics: Condensed Matter 3, 2101-2113.

73. Glazer, J. A., Balter, A., Popławski, N. (2007) Magnetization to Morphogenesis: A Brief History of the Glazier-Graner-Hogeweg Model. In Single-Cell-Based Models in Biology and Medicine. Anderson, A. R. A., Chaplain, M. A. J., and Rejniak, K. A., editors. Birkhauser Verlag Basel, Switzerland. pp. 79-106.

74. Walther, T., Reinsch, H., Ostermann, K., Deutsch, A. and Bley, T. (2005) Coordinated growth of yeast colonies: experimental and mathematical analysis of possible regulatory mechanisms. Engineering Life Sciences 5, 115-133.

75. Keller, E. F. and Segel., L. A. (1971) Model for chemotaxis. Journal of Theoretical Biology 30, 225-234.

76. Glazier, J. A. and Upadhyaya, A. (1998) First Steps Towards a Comprehensive Model of Tissues, or: A Physicist Looks at Development. In Dynamical Networks in Physics and Biology: At the Frontier of Physics and Biology, D. Beysens and G. Forgacs editors. EDP Sciences/Springer Verlag, Berlin, pp. 149-160.

77. Glazier, J. A. and Graner, F. (1993) Simulation of the differential adhesion driven rearrangement of biological cells. Physical Review E 47, 2128-2154.

78. Glazier, J. A. (1993) Cellular Patterns. Bussei Kenkyu 58, 608-612.

79. Glazier, J. A. (1996) Thermodynamics of Cell Sorting. Bussei Kenkyu 65, 691-700.

80. Glazier, J. A., Raphael, R. C., Graner, F., and Sawada, Y. (1995) The Energetics of Cell Sorting in Three Dimensions. In Interplay of Genetic and Physical Processes in the Development of Biological Form, D. Beysens, G. Forgacs, F. Gaill, editors. World Scientific Publishing Company, Singapore, pp. 54-66.

81. Graner, F. and Glazier, J. A. (1992) Simulation of biological cell sorting using a 2-dimensional extended Potts model. Physical Review Letters 69, 2013-2016.

82. Mombach, J. C. M and Glazier, J. A. (1996) Single Cell Motion in Aggregates of Embryonic Cells. Physical Review Letters 76, 3032-3035.

83. Mombach, J. C. M., Glazier, J. A., Raphael, R. C., and Zajac, M. (1995) Quantitative comparison between differential adhesion models and cell sorting in the presence and absence of fluctuations. Physical Review Letters 75, 2244-2247.

84. Cipra, B. A. (1987) An Introduction to the Ising-Model. American Mathematical Monthly 94, 937-959.

85. Metropolis, N., Rosenbluth, A., Rosenbluth, M. N., Teller, A. H., and Teller, E. (1953) Equation of state calculations by fast computing machines. Journal of Chemical Physics 21, 1087-1092.

86. Forgacs, G. and Newman, S. A. (2005). Biological Physics of the Developing Embryo. Cambridge Univ. Press, Cambridge.

87. Alber, M. S., Kiskowski, M. A., Glazier, J. A., and Jiang, Y. On cellular automation approaches to modeling biological cells. In Mathematical Systems Theory in Biology, Communication and Finance. J. Rosenthal, and D. S. Gilliam, editors. Springer-Verlag, New York, pp. 1-40.

88. Alber, M. S., Jiang, Y., and Kiskowski, M. A. (2004) Lattice gas cellular automation model for rippling and aggregation in myxobacteria. Physica D 191, 343-358.

89. Novak, B., Toth, A., Csikasz-Nagy, A., Gyorffy, B., Tyson, J. A., and Nasmyth, K. (1999) Finishing the cell cycle. Journal of Theoretical Biology 199, 223-233.

90. Upadhyaya, A., Rieu, J. P., Glazier, J. A., and Sawada, Y. (2001) Anomalous Diffusion in Two-Dimensional Hydra Cell Aggregates. Physica A 293, 549-558.

91. Cickovski, T., Aras, K., Alber, M. S., Izaguirre, J. A., Swat, M., Glazier, J. A., Merks, R. M. H., Glimm, T., Hentschel, H. G. E., Newman, S. A. (2007) From genes to organisms via the cell: a problem-solving environment for multicellular development. Computers in Science and Engineering 9, 50-60.

92. Izaguirre, J.A., Chaturvedi, R., Huang, C., Cickovski, T., Coffland, J., Thomas, G., Forgacs, G., Alber, M., Hentschel, G., Newman, S. A., and Glazier, J. A. (2004) CompuCell, a multi-model framework for simulation of morphogenesis. Bioinformatics 20, 1129-1137.

93. Armstrong, P. B. and Armstrong, M. T. (1984) A role for fibronectin in cell sorting out. Journal of Cell Science 69, 179-197.

94. Armstrong, P. B. and Parenti, D. (1972) Cell sorting in the presence of cytochalasin B. Journal of Cell Science 55, 542-553.

95. Glazier, J. A. and Graner, F. (1993) Simulation of the differential adhesion driven rearrangement of biological cells. Physical Review E 47, 2128-2154.

96. Glazier, J. A. and Graner, F. (1992) Simulation of biological cell sorting using a two-dimensional extended Potts model. Physical Review Letters 69, 2013-2016.

97. Ward, P. A., Lepow, I. H., and Newman, L. J. (1968) Bacterial factors chemotactic for polymorphonuclear leukocytes. American Journal of Pathology 52, 725-736.

98. Lutz, M. (1999) Learning Python. Sebastopol, CA: O’Reilly & Associates, Inc.

99. Balter, A. I., Glazier, J. A., and Perry, R. (2008) Probing soap-film friction with two-phase foam flow. Philosophical Magazine, submitted.

100. Dvorak, P., Dvorakova, D., and Hampl, A. (2006) Fibroblast growth factor signaling in embryonic and cancer stem cells. FEBS Letters 580, 2869-2287.