Computer simulation of engulfment and other movements of embryonic tissues.

Abstract Using a model proposed earlier by Goel et al. and a set of plausible motility rules, a computer simulation of engulfment of two or more intact embryonic tissues is successfully carried out. The same motility rules are used to simulate the rounding up of a tissue, centralization of one tissue within another tissue (a phenomenon not yet observed), and phase inversion, a process which may have relevance to differentiation. The finnal structures bear a good resemblance to those observed experimentally. The software, in conjunction with an appropriate hardware configuration, allows a visual display of the dynamics of cellular movement. These simulations indicate that the range of inter-cellular interactions controlling these tissue rearrangements extends only one or two cell diameters.

[1]  S. G. Mason,et al.  Coalescence of Two Immiscible Liquid Drops , 1969, Science.

[2]  T D Rogers,et al.  Geometry and the exchange principle in cell aggregation kinetics. , 1973, Journal of theoretical biology.

[3]  M. S. Steinberg,et al.  Experimental modulation of intercellular cohesiveness: reversal of tissue assembly patterns. , 1972, Developmental biology.

[4]  M Ycas,et al.  Self-sorting of isotropic cells. , 1970, Journal of theoretical biology.

[5]  Herbert Hellerman,et al.  Apl/360 Programming and Applications , 1976 .

[6]  D. Garrod,et al.  Cell locomotion within a contact-inhibited monolayer of chick embryonic liver parenchyma cells. , 1975, Journal of cell science.

[7]  H. M. Phillips,et al.  Self vs nonself in tissue assembly. Correlated changes in recognition behavior and tissue cohesiveness. , 1977, Developmental biology.

[8]  N S Goel,et al.  A rheological mechanism sufficient to explain the kinetics of cell sorting. , 1972, Journal of theoretical biology.

[9]  J. Trinkaus Cells into organs , 1969 .

[10]  D. Garrod,et al.  Observations on the sorting-out of embryonic cells in monolayer culture. , 1975, Journal of cell science.

[11]  H. V. Wilson On some phenomena of coalescence and regeneration in sponges , 1907 .

[12]  N. Goel Cooperative Processes in Biological Systems , 1972 .

[13]  S. G. Mason,et al.  Three-phase interactions in shear and electrical fields , 1970 .

[14]  M. S. Steinberg,et al.  Does differential adhesion govern self-assembly processes in histogenesis? Equilibrium configurations and the emergence of a hierarchy among populations of embryonic cells. , 1970, The Journal of experimental zoology.

[15]  M. S. Steinberg,et al.  Adhesion-guided multicellular assembly: a commentary upon the postulates, real and imagined, of the differential adhesion hypothesis, with special attention to computer simulations of cell sorting. , 1975, Journal of theoretical biology.

[16]  N S Goel,et al.  Computer simulation of cellular movements: cell-sorting, cellular migration through a mass of cells and contact inhibition. , 1978, Journal of theoretical biology.

[17]  Dennis P. Geller,et al.  Structured programming in APL , 1976 .