List of Publications

List of Publications: John J. Tyson

Number in brackets at the end of a reference indicates the total number of citations to this publication as listed in SCI through 1996. The total number of citations for all publications through 1996 = 2550.

Books

Book Chapters

Journal Articles

Technical Reports, Book Reviews, etc.

A. Books:

1. J.J. Tyson, The Belousov-Zhabotinskii Reaction, Lecture Notes in Biomathematics, Vol. 10, 128 p. (Springer-Verlag, Berlin, 1976). [189]

B. Book Chapters:

1974-1981 1982-1988 1988-present

1. J.J. Tyson, "Competition, selection and evolution in chemical networks," in Lectures in Mathematics in the Life Sciences (S.A. Levin, Ed.) Vol. 7, pp. 43-67 (Amer. Math. Soc., Providence RI, 1974). [12]

2. J.J. Tyson et al., "Group report: mathematical background," in The Molecular Basis of Circadian Rhythms (J.W. Hastings & H-G. Schweiger, Eds.) Life Sciences Research Report 1, pp. 85-108 (Dahlem Konferenzen, Berlin, 1976). [19]

3. J.J. Tyson & H.G. Othmer, "The dynamics of feedback control circuits in biochemical pathways," in Progress in Theoretical Biology (R. Rosen & F.M. Snell, Eds.) Vol. 5, pp. 1-62 (Academic Press, New York, 1978). [71]

4. J.J. Tyson, "Nonlinear analysis of simple metabolic control circuits," in Bifurcation Theory: Applications of Nonlinear Analysis in the Physical Sciences (H. Amann, N. Bazley & K. Kirchgassner, Eds.) pp. 310-322 (Pitman, London, 1981). [2]

5. J.J. Tyson & K.B. Hannsgen, "Analysis of a deterministic/probabilistic model of the cell division cycle," in Biomathematics and Cell Kinetics (M. Rotenberg, Ed.) pp. 167-176 (Elsevier/North Holland, Amsterdam, 1981). [4]

6. J.J. Tyson, "On scaling the Oregonator equations," in Non-Linear Phenomena in Chemical Dynamics (C. Vidal & A. Pacault, Eds.) pp. 222-227 (Springer-Verlag, Berlin, 1981). [12]

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7. J.J. Tyson, "Periodic phenomena in Physarum," in Cell Biology of Physarum and Didymium, Vol. I (H.C. Aldrich & J.W. Daniel, Eds.) pp. 61-110 (Academic Press, New York, 1982). [29]

8. T.E. Evans, J.W. Daniel, H.H. Evans, H.R. Matthews, J.M. Mohberg & J.J. Tyson, "Annotated cell cycle," in Cell Biology of Physarum and Didymium, Vol. II (H.C. Aldrich & J.W. Daniel, Eds.) pp. 351-360 (Academic Press, New York, 1982). [9]

9. P.R. Painter & J.J. Tyson, "Periodic enzyme synthesis and the cell division cycle," in Cell Cycle Clocks (L.N. Edmunds, Ed.) pp. 173-192 (Marcel Dekker, New York, 1984). [5]

10. J.J. Tyson & W. Sachsenmaier, "The control of nuclear division in Physarum polycephalum ," in Cell Cycle Clocks (L.N. Edmunds, Ed.) pp. 253-270 (Marcel Dekker, New York, 1984). [7]

11. J.J. Tyson, "Control of nuclear division in Physarum polycephalum," in The Microbial Cell Cycle (P. Nurse & E. Streiblova, Eds.) pp. 175-190 (CRC Press, Boca Raton, FL, 1984). [3]

12. J.J. Tyson & V.S. Manoranjan, "The speed of propagation of oxidizing and reducing wave fronts in the Belousov-Zhabotinskii reaction," in Non-Equilibrium Dynamics in Chemical Systems (C. Vidal & A. Pacault, Eds.) pp. 89-93 (Springer-Verlag, Berlin, 1984). [13]

13. J.J. Tyson, "A quantitative account of oscillations, bistability and traveling waves in the Belousov-Zhabotinskii reaction," in Oscillations and Traveling Waves in Chemical Systems (R.J. Field & M. Burger, Eds.) pp. 93-144 (Wiley Interscience, New York, 1985). [114]

14. J.J. Tyson, "The coordination of cell growth and division: a comparison of models," in Temporal Order (L. Rensing & N.I. Jaeger, Eds.) pp. 291-295 (Springer-Verlag, Berlin, 1985).

15. T.G. Laffler & J.J. Tyson, "The Physarum cell cycle," in The Molecular Biology of Physarum polycephalum (W.F. Dove, Ed.) pp. 79-109 (Plenum, New York, 1986). [15]

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16. J.J. Tyson & M.L. Kagan, "Spatiotemporal organization in biological and chemical systems," in From Chemical to Biological Organization (M. Markus, S.C. Mueller & G. Nicolis, Eds.) pp. 14-21 (Springer-Verlag, Berlin, 1988).

17. J.J. Tyson, "Spiral waves in the Belousov-Zhabotinskii reaction," in Structure, Coherence and Chaos (P.L. Christiansen & R.D. Parmentier, Eds.) pp. 457-463 (Manchester Univ. Press, 1988).

18. J.J. Tyson, "Traveling waves in excitable media," in Ordinary and Partial Differential Equations, Volume II (B.D. Sleeman & R.J. Jarvis, Eds.) pp. 218-227 (Longman Scientific & Technical, Harlow UK, 1989).

19. J.J. Tyson, "Cyclic AMP waves in Dictyostelium: specific models and general theories," in Cell to Cell Signalling: From Experiments to Theoretical Models (A. Goldbeter, Ed.) pp. 521-537 (Academic Press, London, 1989). [1]

20. J.R. Weimar, L.T. Watson & J.J. Tyson, "Cellular automaton models for reaction-diffusion equations," in Proceedings of the Sixth Distributed Memory Computing Conference (Q. Stout & M. Wolfe, Eds.) pp. 431-434 (IEEE Computer Soc., Los Alamitos CA, 1991).

21. J.R. Weimar, J.J. Tyson & L.T. Watson, "Third generation cellular automaton for modeling excitable media," in Parallel Processing for Scientific Computing (J. Dongarra, K. Kennedy, P. Messina, D.C. Sorensen & R.G. Voigt, Eds.) pp. 376-381 (SIAM, Phila. PA, 1992).

22. J.J. Tyson, "What everyone should know about the Belousov-Zhabotinsky reaction," in Lecture Notes in Biomathematics (S.A. Levin, Ed.) Vol. 100, pp. 569-587 (Springer-Verlag, New York, 1994).

23. B. Novak & J.J. Tyson, "Mathematical modeling of the cell division cycle," in Mathematical Population Dynamics: Analysis of Heterogeneity (O. Arino, D. Axelrod & M. Kimmel, Eds.) Vol. 2, pp. 155-169 (Wuerz Publ., Winnipeg, 1995).

24. J.J. Tyson & J.P. Keener, "A theory of rotating scroll waves in excitable media," in Chemical Waves and Patterns (R. Kapral & K. Showalter, Eds.) pp. 93-118 (Kluwer, Dordrecht, 1995). [1]

25. J.J. Tyson, B. Novak, K. Chen & J. Val, "Checkpoints in the cell cycle from a modeler's perspective," in Progress in Cell Cycle Research (L. Meijer S. Guidet & H.Y. L. Tung, Eds.) Vol. 1, pp. 1-8 (Plenum Press, New York, 1995).

26. J. Val & J.J. Tyson, "A purely deterministic model for the population dynamics of budding yeast," in Advances in Mathematical Population Dynamics: Molecules, Cells and Man (O. Arino, D. Axelrod & M. Kimmel, Eds.) pp. (World Scientific, Singapore, 1997).

27. J.J. Tyson, K.C. Chen & B. Novak, "The eukaryotic cell cycle: molecules, mechanisms, and mathematical models," in Case Studies in Mathematical Modeling: Ecology, Physiology, and Cell Biology (H.G. Othmer, F.R. Adler, M.A. Lewis & J.C. Dallon, Eds.) pp. 127-147 (Prentice Hall, Upper Saddle River, 1997).

28. J.J. Tyson, M.T. Borisuk, K. Chen & B. Novak, "Computational models of cell cycle control in frog eggs and cell-free extracts," (in press).

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C. Journal Articles:

1970-1977 1978-1983 1984-1986 1987-1989 1990-1994 1995-present

1. H. Selig, J.H. Holloway, J. Tyson & H.H. Claassen, "Raman spectra of AsF₅ and VF₅ and force constants of PF₅, AsF₅ and VF₅," J. Chem. Phys. 53:2559-2564 (1970). [45]

2. J. Tyson, H.H. Claassen & H.Y. Kim, "Molecular potential functions expressed in cartesian coordinates: application to the orbital valency force field," J. Chem. Phys. 54:3142-3156 (1971). [34]

3. J.J. Tyson, "Some further studies of nonlinear oscillations in chemical systems," J. Chem. Phys. 58:3919-3930 (1973). [96]

4. J.J. Tyson, R.P. Saxon & J.C. Light, "Semiclassical studies of planar reactive H + H₂," J. Chem. Phys. 59:363-368 (1973). [27]

5. J.J. Tyson & J.C. Light, "Properties of two component bimolecular and trimolecular chemical reaction systems," J. Chem. Phys. 59:4164-4173 (1973). [98]

6. J.J. Tyson, "Classification of instabilities in chemical reaction systems," J. Chem. Phys. 62:1010-1015 (1975). [57]

7. J. Tyson & S. Kauffman, "Control of mitosis by a continuous biochemical oscillator: synchronization and spatially inhomogeneous oscillations," J. Math. Biol.1:289-310 (1975). [58]

8. J.J. Tyson, "On the existence of oscillatory solutions in negative feedback cellular control processes," J. Math. Biol.1:311-315 (1975). [40]

9. J.J. Tyson, "Analytic representation of oscillations, excitability and traveling waves in a realistic model of the Belousov-Zhabotinskii reaction," J. Chem. Phys. 66:905-915 (1977). [69]

10. S. Hastings, J. Tyson & D. Webster, "Existence of periodic solutions for negative feedback cellular control systems," J. Diff. Eq.25:39-64 (1977). [39]

11. J.J. Tyson, "Multiple stationary states in the Oregonator," J. Chem. Phys. 67:4297-4298 (1977). [8]

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12. J.J.Tyson, "On the appearance of chaos in a model of the Belousov reaction," J. Math. Biol. 5:351-362 (1978). [47]

13. J. Tyson & W. Sachsenmaier, "Is nuclear division in Physarum controlled by a continuous limit Cycle oscillator?" J. Theor. Biol. 73:723-738 (1978). [19]

14. J.J. Tyson, "Oscillations, bistability and echo waves in models of the Belousov-Zhabotinskii reaction," Ann. N.Y. Acad. Sci. 316:279-295 (1979). [49]

15. J. Tyson, G. Garcia-Herdugo & W. Sachsenmaier, "Control of nuclear division in Physarum polycephalum: comparison of cycloheximide pulse treatment, UV irradiation, and heat shock," Exp. Cell Res. 119:87-98 (1979). [51]

16. J.J. Tyson & W. Sachsenmaier, "Derepression as a model for control of the DNA-division cycle in eukaryotes," J. Theor. Biol. 79:275-280 (1979). [3]

17. J.J. Tyson, "Periodic enzyme synthesis: reconsideration of the theory of oscillatory repression," J. Theor. Biol. 80:27-38 (1979). [7]

18. J.J. Tyson, "Comment on 'Stable limit cycles in a two-component bimolecular reaction system'," J. Chem. Phys. 72:2898-2899 (1980). [1]

19. J.J. Tyson & P.C. Fife, "Target patterns in a realistic model of the Belousov-Zhabotinskii reaction," J. Chem. Phys.73:2224-2237 (1980). [111]

20. J.J. Tyson, "Scaling and reducing the Field-Koros-Noyes mechanism of the Belousov-Zhabotinskii reaction," J. Phys. Chem. 86:3006-3012 (1982). [41]

21. M. Pahlic & J.J. Tyson, "Identification and changes in activity of five thymidine kinase forms during the cell cycle of Physarum polycephalum," Exp. Cell Res. 144:159-164 (1983). [4]

22. M. Pahlic & J.J. Tyson, "A cell cycle-dependent protein of Physarum polycephalum revealed by two-dimensional gel electrophoresis," Biochem. J. 212:245-247 (1983). [7]

23. J.J. Tyson, "Periodic enzyme synthesis and oscillatory repression: why is the period of oscillation close to the cell cycle time?" J. Theor. Biol. 103:313-328 (1983). [17]

24. J.J. Tyson, "Unstable activator models for size control of the cell cycle," J. Theor. Biol. 104:617-631 (1983). [8]

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25. J.J. Tyson, "Relaxation oscillations in the revised Oregonator," J. Chem. Phys. 80:6079-6082 (1984). [23]

26. G. Garcia-Herdugo & J.J. Tyson, "Induction of polyploid nuclei in Physarum polycephalum by cycloheximide treatment in prophase," Exp. Cell Res. 153:570-573 (1984). [1]

27. J.J. Tyson, "Evolution of eusociality in diploid species," Theor. Pop. Biol. 26:283-295 (1984). [3]

28. J.J. Tyson & K.B. Hannsgen, "The distributions of cell size and generation time in a model of the cell cycle incorporating size control and random transitions," J. Theor. Biol. 113:29-62 (1985). [22]

29. J.J. Tyson, "The coordination of cell growth and division -- intentional or incidental?" BioEssays 2:72-77 (1985). [18]

30. K.B. Hannsgen, J.J. Tyson & L.T. Watson, "Steady-state size distributions in probabilistic models of the cell division cycle," SIAM J. Appl. Math. 45:523-540 (1985). [11]

31. J.J. Tyson & K.B. Hannsgen, "Global asymptotic stability of the size distribution in probabilistic models of the cell cycle," J. Math. Biol. 22:61-68 (1985). [7]

32. K.B. Hannsgen & J.J. Tyson, "Stability of the steady-state size distribution in a model of cell growth and division," J. Math. Biol. 22:293-301 (1985). [7]

33. M. Pahlic & J.J. Tyson, "Analysis of Physarum proteins throughout the cell cycle by two-dimensional polyacrylamide gel electrophoresis," Exp. Cell Res. 161:533-540 (1985). [8]

34. J.J. Tyson & K.B. Hannsgen, "Cell growth and division: a deterministic/probabilistic model of the cell cycle," J. Math. Biol. 23:231-246 (1986). [11]

35. J.J. Tyson & O. Diekmann, "Sloppy size control of the cell division cycle," J. Theor. Biol. 118:405-426 (1986). [20]

36. J.J. Tyson & R.H. Haralick, "Computer analysis of two-dimensional gels by a general image processing system," Electrophoresis 7:107-113 (1986). [10]

37. C.J. Burger, K.D. Elgert, J.J. Tyson & J.B. Birch, "An improved data analysis method for interleukin 2 microassay," Comput. Biol. Med. 16:377-390 (1986). [10]

38. J.P. Keener & J.J. Tyson, "Spiral waves in the Belousov-Zhabotinskii reaction," Physica D. 21:307-324 (1986). [141]

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39. J.J. Tyson, "Size control of cell division," J. Theor. Biol. 126:381-391 (1987). [20]

40. K. Showalter & J.J. Tyson, "Luther's 1906 discovery and analysis of chemical waves," J. Chem. Educ. 64:742-744 (1987). [27]

41. W. Alt & J.J. Tyson, "A stochastic model of cell division (with application to fission yeast)," Math. Biosci. 84:159-187 (1987). [3]

Awarded the second Bellman Prize for the best paper published in Mathematical Biosciences in 1986 and 1987. Announced in Math. Biosci. 94:159-160 (1989).

42. J.J. Tyson & J.P. Keener, "Spiral waves in a model of myocardium," Physica D 29:215-222 (1987). [28]

43. J.J. Tyson, "Singular perturbation theory of target patterns in the Belousov-Zhabotinskii reaction," J. Chim. Physique 84:1359-1365 (1987). [19]

44. J.D. Dockery, J.P. Keener & J.J. Tyson, "Dispersion of traveling waves in the Belousov-Zhabotinskii reaction," Physica D 30:177-191 (1988). [62]

45. J.P. Keener & J.J. Tyson, "The motion of untwisted untorted scroll waves in excitable media," Science 239:1284-1286 (1988). [26]

46. J.J. Tyson & J.P. Keener, "Singular perturbation theory of traveling waves in excitable media (a review)," Physica D 32:327-361 (1988). [231]

Identified as a "hot paper" by the Science Citation Index; see The Scientist, 22 January 1990, p. 15.

47. J.J. Tyson, K.A. Alexander, V.S. Manoranjan & J.D. Murray, "Spiral waves of cyclic AMP in a model of slime mold aggregation," Physica D 34:193-207 (1989). [34]

48. J.J. Tyson & J.D. Murray, "Cyclic-AMP waves during aggregation of Dictyostelium amoebae," Development 106:421-426 (1989). [25]

49. Z. Nagy-Ungvarai, J.J. Tyson & B. Hess, "Experimental study of the chemical waves in the Ce-catalyzed Belousov-Zhabotinskii reaction. I. Velocity of trigger waves," J. Phys. Chem. 93:707-713 (1989). [24]

50. Z. Nagy-Ungvarai, S.C. Mueller, J.J. Tyson & B. Hess, "Experimental study of the chemical waves in the Ce-catalyzed Belousov-Zhabotinskii reaction. II. Concentration profiles," J. Phys. Chem. 93:2760-2764 (1989). [23]

51. J.J. Tyson, "Effects of asymmetric division on a stochastic model of the cell division cycle," Math. Biosci. 96:165-184 (1989). [2]

52. K.C. Chen, J.J. Tyson, M. Lederman, E.R. Stout & R.C. Bates, "A kinetic hairpin transfer model for parvoviral DNA replication," J. Molec. Biol. 208:283-296 (1989). [15]

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53. J.J. Tyson, K.C. Chen, M. Lederman & R.C. Bates, "Analysis of the kinetic hairpin transfer model for parvoviral DNA replication," J. Theor. Biol. 144:155-169 (1990). [4]

54. M. Gerhardt, H. Schuster & J.J. Tyson, "A cellular automaton model of excitable media including curvature and dispersion," Science 247:1563-1566 (1990). [70]

55. J.P. Keener & J.J. Tyson, "Helical and circular scroll wave filaments," Physica D 44:191-202 (1990). [11]

56. M. Gerhardt, H. Schuster & J.J. Tyson, "A cellular automaton model of excitable media II. Curvature, dispersion, rotating waves and meandering waves," Physica D 46:392-415 (1990). [27]

57. M. Gerhardt, H. Schuster & J.J. Tyson, "A cellular automaton model of excitable media III. Fitting the Belousov-Zhabotinskii reaction," Physica D 46:416-426 (1990). [17]

58. Z. Nagy-Ungvarai, J.J. Tyson, S.C. Mueller, L.T. Watson & B. Hess, "Experimental study of spiral waves in the cerium-catalyzed Belousov-Zhabotinskii reaction," J. Phys. Chem. 94:8677-8682 (1990). [5]

59. M. Gerhardt, H. Schuster & J.J. Tyson, "A cellular automaton model of excitable media IV. Untwisted scroll rings," Physica D 50:189-206 (1991). [7]

60. J.J. Tyson, "Modeling the cell division cycle: cdc2 and cyclin interactions," Proc. Natl. Acad. Sci. U.S.A. 88:7328-7332 (1991). [29]

61. J.P. Keener & J.J. Tyson, "The dynamics of helical scroll waves in excitable media," Physica D 53:151-161 (1991). [2]

62. J.J. Tyson & S.H. Strogatz, "The differential geometry of scroll waves," Internatl. J. Bifur. Chaos 1:723-744 (1991). [9]

63. J.P. Keener & J.J. Tyson, "The dynamics of scroll waves in excitable media," SIAM Rev. 34:1-39 (1992). [18]

64. J.R. Weimar, J.J. Tyson & L.T. Watson, "Diffusion and wave propagation in cellular automaton models of excitable media," Physica D 55:309-327 (1992). [10]

65. J.R. Weimar, J.J. Tyson & L.T. Watson, "Third generation cellular automaton for modeling excitable media," Physica D 55:328-339 (1992). [4]

66. B. Novak & J.J. Tyson, "Modeling the cell division cycle: M-phase trigger, oscillations, and size control," J. Theor. Biol. 165:101-134 (1993). [10]

67. B. Novak & J.J. Tyson, "Numerical analysis of a comprehensive model of M-phase control in Xenopus oocyte extracts and intact embryos," J. Cell Sci. 106:1153-1168 (1993). [17]

Highlighted by "News and Views", Nature, 9 June 1994, p. 437

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68. B. Novak & J.J. Tyson, "Quantitative analysis of a molecular model of mitotic control in fission yeast," J. Theor. Biol. 173:283-305 (1995). [7]

69. J.J. Tyson, B. Novak, G.M. Odell, K. Chen & C.D. Thron, "Chemical kinetic theory: understanding cell-cycle regulation," Trends in Biochem. Sci. 21:89-96 (1996).

70. C. Henze & J.J. Tyson, "A cellular automaton model of three-dimensional excitable media," J. Chem. Soc. (UK) Faraday Trans. 92:2883-2895 (1996).

71. P. Brazhnik & J.J. Tyson, "Propagation of waves through a line of discontinuity in two-dimensional excitable media: refraction and reflection of autowaves," Phys. Rev. E 54:1958-1968 (1996). [1]

72. P. Brazhnik & J.J. Tyson, "Nonspiral excitation waves beyond the eikonal approximation," Phys. Rev. E 54:4338-4346 (1996).

73. P. Brazhnik & J.J. Tyson, "Steady-state autowave patterns in a two-dimensional excitable medium with a band of different excitability," Physica D 102:300-312 (1997).

74. C.I. Hong & J.J. Tyson, "A proposal for temperature compensation of the circadian rhythm in Drosophila based on dimerization of the PER protein," Chronobiol. Internatl. 14:521-529 (1997).

75. B. Novak & J.J. Tyson, "Modeling the control of DNA replication in fission yeast," Proc. Natl. Acad. Sci. USA 94:9147-9152 (1997).

76. B. Novak, A. Csikasz-Nagy, B. Gyorffy & J.J. Tyson, "Model scenarios for evolution of the eukaryotic cell cycle," Phil. Trans. Roy. Soc. Lond. B (in press).

77. G. Marlovits, C.J. Tyson, B. Novak & J.J. Tyson, "Modeling M-phase control in Xenopus oocyte extracts: the surveillance mechanism for unreplicated DNA," Biophys. Chem. 72:169-184 (1998).

78. B. Novak, A. Csikasz-Nagy, B. Gyorffy, K. Chen & J.J. Tyson, "Mathematical model of the fission yeast cell cycle with checkpoint controls at the G1/S, G2/M and metaphase/anaphase transitions," Biophys. Chem. 72:185-200 (1998).

79. M. Borisuk & J.J. Tyson, "Bifurcation analysis of a model of mitotic control in frog eggs," J. Theor. Biol. (in press).

80. P. Brazhnik & J.J. Tyson, "On travelling wave solutions of Fisher's equation in two spatial dimensions," SIAM J. Appl. Math. (in press).

81. P.K. Brazhnik & J.J. Tyson, "The velocity-curvature dependence for chemical waves in the Belousov-Zhabotinsky reaction: theory explains experimental observations," Phys. Rev. Lett. (submitted).

82. J.J. Tyson, C.I. Hong, C.D. Thron & B. Novak, "A simple model of circadian rhythms based on dimerization and proteolysis of PER and TIM," (submitted).

83. B. Novak, A. Toth, A. Czikasz-Nagy, B. Gyorffy, J.J. Tyson & K. Nasmyth, "Finishing the cell cycle," (in preparation).

84. K. Chen, A. Czikasz-Nagy, B. Gyorffy, J. Val, B. Novak & J.J. Tyson, "Kinetic analysis of a molecular model of the budding yeast cell cycle," (in preparation).

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D. Technical Reports, Book Reviews, etc.:

1. P.C. Fife & J.J. Tyson, "Propagating waves and target patterns in chemical systems," University of Wisconsin Mathematics Research Center Technical Summary Report No. 2074, May 1980.

2. J.J. Tyson, "Steady-state solutions of plasmid replication equations," Appendix to Bremer & Lin-Chao (1986) J. Theor. Biol. 123:453-470.

3. J.J. Tyson, "Pattern and rhythm," a review of A. Babloyantz' Molecules, Dynamics & Life: An Introduction to the Self-Organization of Matter, in Nature 327:290 (1987).

4. R. Arnold, K. Showalter & J.J. Tyson, a translation of R. Luther's "Propagation of chemical reactions in space," J. Chem. Educ. 64:740-742 (1987). [22]

5. J.J. Tyson, a review of N.F. Britton's Reaction-Diffusion Equations and Their Applications to Biology, in Bull. Math. Biol. 49:764-765 (1987).

6. J.J. Tyson, "Biological clocks and heartbreaking failures," a review of A.T. Winfree's When Time Breaks Down, in Physics Today 41:107-109 (1988). A longer review also appears in Bull. Math. Biol. 52:591-596 (1990).

7. J.J. Tyson, a review of A.T. Winfree's The Timing of Biological Clocks, in Quart. Rev. Biol. 63:450 (1988).

8. J.J. Tyson, a review of D. Beach, C. Basilico & J. Newport's Cell Cycle Control in Eukaryotes, in Bull. Math. Biol. 51:649-651 (1989).

9. J.J. Tyson, H. Schuster & M. Gerhardt, a review of V.S. Zykov's Simulation of Wave Processes in Excitable Media, in Bull. Math. Biol. 52:697-708 (1990).

10. M. Gerhardt & J.J. Tyson, "Boundary effects on rotating spirals in a cellular automaton model of excitable media," Technical Report of the University of Bielefeld, Sonderforschungsbereich 343.

11. J.J. Tyson, "Unpredictable reactions," a review of S.K. Scott's Chemical Chaos, in Nature 356:394-395 (1992).

12. L. Segel & J.J. Tyson, "Law of mass action," a letter to the editor of Nature 357:106 (1992).

13. J.J. Tyson, "About time," a review of A. Goldbeter's Biochemical Oscillations and Cellular Rhythms: The Molecular Bases of Periodic and Chaotic Behaviour, in Nature 380:213-214 (1996).