Issues

 / 

1994

 / 

October

  

Reviews of topical problems


From the dynamics of population autowaves generated by living cells to neuroinformatics

, ,
Institute for Theoretical and Experimental Biophysics, Russian Academy of Sciences, Institutskaya str. 3, Pushchino, Moscow Region, 142290, Russian Federation

Research into living cells and their communities can be extended to more general problems, e.g., what is the algorithm of data processing in living systems, or what is the difference between living systems and computers. It has been shown that a computerised system simulating cell behaviour, i.e., multiplication, motility, memory, and taxis, can be better at image processing than video-based automatic devices. Study of the dynamics of population waves formed by living cells is of special interest for autowave physics since population waves differ essentially from the ’classical’ waves in active media. Mathematical models of population waves are found to feature an additional term describing not a chaotic but a directed motion of individual cells (’the effect of chemotaxis’). Detailed analysis of models like these and related phenomena (e.g., pattern formation as a result of population wave interaction, or symmetry bursting of population wave patterns) should be the subject of further research.

Fulltext is available at IOP
PACS: 87.22.-q, 89.70.+c
DOI: 10.1070/PU1994v037n10ABEH000049
URL: https://ufn.ru/en/articles/1994/10/b/
Citation: Ivanitskii G R, Medvinskii A B, Tsyganov M A "From the dynamics of population autowaves generated by living cells to neuroinformatics" Phys. Usp. 37 961–989 (1994)
BibTexBibNote ® (generic)BibNote ® (RIS)MedlineRefWorks

Оригинал: Иваницкий Г Р, Медвинский А Б, Цыганов М А «От динамики популяционных автоволн, формируемых живыми клетками, к нейроинформатике» УФН 164 1041–1072 (1994); DOI: 10.3367/UFNr.0164.199410b.1041

References (172) ↓ Cited by (53) Similar articles (20)

  1. Ivanitskii G R Neiroinformatika i Mozg (M.: Znanie, 1991)
  2. Ashby W R Design For A Brain (London: Chapman and Hall, 1960); Translated into Russian, Ashby W R Design For A Brain (Moscow: Izd. Inostr. Lit., 1962)
  3. Turing A M ""Can the machine think?", in" The World Of Mat Hematics Vol. 4 (Ed. J R Newman) (New York: Simon and Schuster, 1956) p. 2099; Translated into Russian, Turing A M The World Of Mat Hematics (Moscow: Izd. Inostr. Lit., 1960)
  4. Searle J R Sci. Am. 262 ((1)) 9 (1990)
  5. Godel K Monatsh. Math. Phys. 38 173 (1931)
  6. Nagel E, Newman J R Godel's Proof (London: Routledge & Kegan Paul, 1958)
  7. Kolmogorov A N Probl. Peredachi Inf. ((1)) 3 (1965)
  8. Kolmogorov A N Probl. Peredachi Inf. ((5)) 3 (1965)
  9. Shuster H G Deterministic Chaos (Weinheim: Physik-Verlag, 1984)
  10. Kravtsov Yu A Usp. Fiz. Nauk 158 93 (1989); Kravtsov Yu A Sov. Phys. Usp. 32 (1989)
  11. Abu-Mostafa Ya S, Psaltis D Sci. Am. 256 ((3)) 66 (1987)
  12. Tank D W, Hopfield JJ Sci. Am. 257 ((6)) 62 (1987)
  13. Ivanitskii G R, Medvinskii A B, Tsyganov M A Usp. Fiz. Nauk 161 13 (1991); Ivanitskii G R, Medvinskii A B, Tsyganov M A Sov. Phys. Usp. 34 ((4)) 289 (1991)
  14. Cross M New Sci. (26 January 1991 51
  15. Cohn F Beitr. Biol. Pflanz. 1 127 (1875)
  16. Engelman T W Pflugers Arch. Gesamte Physiol. Menschen Tiere 25 285 (1881)
  17. Engelman T W Pflugers Arch. Gesamte Physiol. Menschen Tiere 26 537 (1881)
  18. Engelman T W Pflugers Arch. Gesamte Physiol. Menschen Tiere 30 95 (1883)
  19. Pfeffer W Unters. Bot. Inst. Tubingen 1 363 (1884)
  20. Lengeler J W La Recherche 21 20 (1990)
  21. Berg H C Sci. Am. 233 ((1)) 36 (1975)
  22. Berg H C Nature (London) 254 389 (1975)
  23. Berg H C, Brown D A Nature (London) 239 500 (1972)
  24. Macnab R M Trends Biochem. Sci. 4 10 (1979)
  25. Adler J Sci. Am. 234 ((4)) 40 (1976)
  26. Koshland D E Jr Physiol. Rev. 59 811 (1979)
  27. Tsang N, Macnab R M, Koshland D E Jr Science 181 60 (1973)
  28. Macnab R M, Koshland D E Jr Proc. Nat. Acad. Sci. USA 69 2509 (1972)
  29. Koshland D E Jr FEBS Lett. 40 S3 (1974)
  30. Glagolev A N Usp. Mikrobiol. 18 163 (1983)
  31. Adler J Science 166 1588 (1969)
  32. Adler J, Hazelbauer G L, Dahl MMJ Bacteriol. 115 824 (1973)
  33. Mesibov R E, Adler J J. Bacteriol. 112 315 (1972)
  34. Hazelbauer G L, Mesibov R E, Adler J Proc. Nat. Acad. Sci. USA 64 1300 (1969)
  35. Adler J Primitive Sensory And Communication Systems: The Taxes And Tropisms Of Micro-Organisms And Cells (Ed. M J Carlile) (London: Academic Press, 1975) p. 92
  36. Tso W-W, Adler J J. Bacteriol. 118 560 (1974)
  37. Macnab R M, Koshland D E Jr J. Mo L. Biol. 84 399 (1974)
  38. Taylor B L, Koshland D E Jr J. Bacteriol. 123 557 (1975)
  39. Taylor B L, Miller J B, Warrick H M, Koshland D E Jr J. Bacteriol. 140 567 (1979)
  40. Carlile M J p. 1, in Ref. [35]
  41. Lenci F, Colombetti G Ann. Rev. Bioengin. 7 341 (1978)
  42. Nultsch W p. 30, in Ref. [35]
  43. Adler J J. Gen. Microbiol. 74 77 (1973)
  44. Imae Y, Mizuno T, Maeda K J. Bacteriol. 159 368 (1984)
  45. Imae Y Sensing And Response In Microorganisms (Eds M Eisenbach, M Balaban) (Amsterdam: Elsevier, 1985) p. 73
  46. Ingraham J Escherichia Coli And Salmonella Typhimorium. Cellular And Molecular Biology Vol. 1 (Ed. F C Neidhardt) (Washington: American Society for Microbiology, 1981) p. 1543
  47. Miller J B, Koshland D E Jr J. Mol. Biol. 111 183 (1977)
  48. Frankel R B, Blakemore R P Bioelectromagnetics 10 223 (1989)
  49. Eckert R Science 176 473 (1972)
  50. Eisenbach M, Zimmerman J R, Ciobotariu A, Fischler H, Korenstein R Bioelectrochem. Bioenerg. 10 499 (1983)
  51. Plesset M S, Whipple C G, Winet H J. Theor. Biol. 59 331 (1976)
  52. Plesset M S, Winet H Nature (London) 248 441 (1974)
  53. Kessler J O Comm. Theor. Biol. 1 85 (1989)
  54. Kessler J O Nature (London) 313 218 (1985)
  55. Kessler J O J. Fluid Mech. 173 191 (1986)
  56. Kessler J O Contemp. Phys. 26 147 (1985)
  57. Macnab R M p. 732, in Ref. [46]
  58. Taylor B L, Koshland D E Jr J. Supramol. Struct. 4 343 (1976)
  59. Poglazov B F, Metlina F L, Novikov V V Izv. Akad. Nauk SSSR Ser. Biol. (5, 1981) p. 672
  60. Berg H C Ann. Rev. Biophys. Bioengin. 4 119 (1975)
  61. Adler J J. Supramol. Struct. 4 305 (1976)
  62. Russo A F, Koshland D E Jr Science 220 1016 (1983)
  63. Russo A F, Koshland D E Jr p. 27, in Ref. [45]
  64. Strange P G, Koshland D E Jr Proc. Nat. Acad. Sci. USA 73 762 (1976)
  65. Zukin R S, Koshland D E, Jr Science 193 405 (1976)
  66. Zukin R S Biochemistry 18 2139 (1979)
  67. Dahlquist F W, Elwell R A, Lovely PSJ Supramol. Struct. 4 329 (1976)
  68. Brown D A, Berg H C Proc. Nat. Acad. Sci. USA 71 1388 (1974)
  69. Block S M, Segall J E, Berg H C J. Bacteriol. 154 312 (1983)
  70. Delbruck M, Reichardt W Cellular Mechanisms In Differentiation And Growth (Ed. D Rudnick) (Princeton, NJ: Princeton University Press, 1956) p. 3
  71. Manson M D Adv. Microb. Physiol. 33 277 (1992)
  72. Springer M S, Goy M F, Adler J Nature (London) 280 279 (1979)
  73. Crutchfield J P, Packard N H Int. J. Theor. Phys. 21 433 (1982)
  74. Ivanitskii G R Nauka I Chelovechestvo (Science And Mankind) (Moscow: Znanie, 1982) p. 211
  75. Ivanitsky G R, Krinsky V I, Zaikin A N, Zhabotinsky A M Sov. Sci. Rev. D 2 279 (1981)
  76. Krinskii V I, Zhabotinskii A M Avtovolnovye Protsessy v Sistemakh s Diffuziei (Autowave Processes in Systems with Diffusion, Ed. M T Grekhova, V A Antonets, V I Krinskii, L A Ostrovskii, M I Rabinovich, V G Yakhno) (Gorky: Inst. Appl. Phys. Acad. Sci. USSR, 1981) p. 6
  77. Romanovskii Yu M, Stepanov N V, Chernavskii D S Mat Ematicheskaya Biofizika (Mathematical Biophysics) (Moscow: Nauka, 1984)
  78. Kolmogorov A N, Petrovskii I E, Piskunov N S Vopr. Kibern. (12, 1975) p. 3
  79. Krinskii V I, Medvinskii A B, Panfilov A V Evolyutsiya Avtovolnovykh Vikhrei (Volny v Serdtse); Krinskii V I, Medvinskii A B, Panfilov A V Evolution Of Auto-wave Vortices (Waves In The Heart) (Moscow: Znanie, 1986)
  80. Franck U F Biological And Biochemical Oscillators (Eds B Chance, E K Pye, A K Ghosh, B Hess) (New York: Academic Press, 1973) p. 7
  81. Kerner B S, Osipov V V Usp. FIZ. Nauk 160 ((9)) 1 (1990); Kerner B S, Osipov V V Sov. Phys. Usp. 679 33 (1990)
  82. Kerner B S, Krinskii V I, Osipov V V Thermodynamics And Pattern Formation In Biology (Berlin: De Gruyter, 1988) p. 265
  83. Gierer A, Meinhardt H Kybernetics 12 30 (1972)
  84. Meinhardt H, Gierer A J. Cell Sci. 15 321 (1974)
  85. Meinhardt H J. Cell Sci. 23 117 (1977)
  86. Gierer A Naturwissenschaften 68 245 (1981)
  87. Nicolis G, Prigogine I Self-Organization In Non-equilibrium Systems (New York: Wiley, 1977)
  88. Nagumo J, Yoshizawa S, Arimoto S IEEE Trans. Commun. Technol. 12 400 (1965)
  89. Khramov R N Biofizika 23 871 (1978)
  90. Khramov R N, Krinskii V I Biofizika 22 512 (1978)
  91. Medvinskii A B, Tsyganov M A, Kutyshenko V P, Shakhbazyan V Yu, Kresteva I B, Kuzmin S V, Lisanskaya V Ya, Ivanitskii G R Dokl. Akad. Nauk SSSR 323 236 (1993)
  92. Adler J J. Bacteriol. 92 121 (1966)
  93. Adler J Science 153 708 (1966)
  94. Adler J, Dahl MMJ Gen. Microbiol. 46 161 (1967)
  95. Adler J, Templeton B J. Gen. Microbiol. 46 175 (1967)
  96. Keller E F, Segel LAJ Theor. Biol. 30 225 (1971)
  97. Keller E F, Segel LAJ Theor. Biol. 30 235 (1971)
  98. Chandrasekhar S Rev. Mod. Phys. 15 57 (1943)
  99. Keller E F, Segel LAJ Theor. Biol. 26 399 (1970)
  100. Dalquist F W, Lovely P, Koshland D E Jr Nature (London) New Biol. 236 120 (1972)
  101. Scribner T L, Segel L A, Rogers EHJ Theor. Biol. 46 189 (1974)
  102. Lapidus I R, Schiller R Biophys. J. 16 779 (1976)
  103. Mesibov R, Ordal G W, Adler J J. Gen. Physiol. 62 203 (1973)
  104. Clarke S, Koshland D E Jr J. Biol. Chem. 254 9695 (1979)
  105. Segel L A Physical And Chemical Aspects Of Cell Surface Events In Cellular Regulation (Eds C De Lisi, R Blumenthal) (New York: Elsevier, 1979) p. 293
  106. Boon J-P, Herpigny B Bull. Math. Biol. 48 1 (1986)
  107. Zavalskii L Yu, Svetogorov D E, Brezgunov V N, Popov V G Dokl. Akad. Nauk SSSR 279 488 (1984)
  108. Zavalskii L Yu, Svetogorov D E, Brezgunov V N Biofizika 30 93 (1985)
  109. Zavalskii L Yu Biofizika 33 328 (1988)
  110. Rivero M A, Tranquillo R T, Buettner H M, Lauffenburger D A Chem. Eng. Sci. 44 2881 (1989)
  111. Segel L A SIAM J. Appl. Math. 32 653 (1977)
  112. Nossal R, Chen S H Nature (London) New Biol. 244 253 (1973)
  113. Alt W J. Math. Biol. 9 147 (1980)
  114. Ford R M, Lauffenburger D A Bull. Math. Biol. 53 721 (1991)
  115. Macnab R M Biological Regulation And Development (Ed. R Goldberger) (New York: Plenum Press, 1980) p. 377
  116. Ford R M, Quinn J A, Phillips B R, Lauffenburger D A Biotechnol. Bioeng. 37 647 (1991)
  117. Ford R M, Lauffenburger D A Biotechnol. Bioeng. 37 ((61)) 154 (1991)
  118. Medvinsky A B, Tsyganov M A, Shakhbazian V Yu, Kresteva I B, Ivanitsky G R Physica D 64 267 (1993)
  119. Budrene E O Dokl. Akad. Nauk SSSR 283 470 (1985)
  120. Budrene E O Biofizika 33 373 (1988)
  121. Ivanitskii G R, Krinskii V I, Tsyganov M A, Agladze K I Biofizika 33 372 (1988)
  122. Agladze K I, Budrene E, Ivanitsky G R, Krinsky V I, Tsyganov M A, Shakhbazian V Yu Proc. Roy. Soc. London B 253 131 (1993)
  123. Medvinskii A B Doctoral Thesis Phys.-Math. Sciences (Pushchino: Inst. Theor. Exptl. Biophys. (1993)
  124. Tsyganov M A, Medvinskii A B, Ponomareva V M, Ivanitskii G R Dokl. Akad. Nauk SSSR 306 731 (1989)
  125. Shakhbazyan V Yu, Medvinskii A B, Agladze K I, Tsyganov M A, Ivanitskii G R Dokl. Akad. Nauk SSSR 310 737 (1990)
  126. Reshetilov A N, Medvinskii A B, Eliseeva T R, Shakhbazyan V Yu, Tsyganov M A, Boronin A M, Ivanitskii G R Dokl. Akad. Nauk SSSR 323 971 (1992)
  127. Reshetilov A N, Medvinsky A B, Eliseeva T P, Shakhbazian V Yu, Boronin A M, Ivanitsky G R FEMS Microbiol. Lett. 94 59 (1992)
  128. Holz M, Chen S-H Biophys. J. 26 243 (1979)
  129. Zhabotinskii A M Kontsentratsionnye Avtokolebaniya (Concentration Autooscillations) (Moscow: Nauka, 1974)
  130. Krinskii V I, Mikhailov A S Avtovolny (Autowaves) (Moscow: Znanie, 1984)
  131. Vol'kenstein M V Biofizika (Biophysics) (Moscow: Nauka, 1981)
  132. Winfree A T The Geometry Of Biological Time (Berlin: Springer, 1980)
  133. Winfree A T When Time Breaks Down. The Three-Dimensional Dynamics Of Electrochemical Waves And Cardiac Arrhythmias (Princeton, NJ: Princeton University Press, 1987)
  134. Vasilev V A, Romanovskii Yu M, Chernavskii D S, Yakhno V G Autowave Processes in Kinetic Systems (Dordrecht, Holland: Kluwer, 1987)
  135. Kerner B S, Osipov V V Usp. Fiz. Nauk 157 201 (1989); Kerner B S, Osipov V V Sov. Phys. Usp. 32 101 (1989)
  136. Medvinsky A B, Shakhbazian V Yu, Tsyganov M A, Ivanitsky G R FEMS Microbiol. Lett. 84 279 (1991)
  137. Lauffenburger D, Kennedy C R, Aris R Bull. Math. Biol. 46 19 (1984)
  138. Medvinskii A B, Shakhbazyan V Yu, Tsyganov M A, Baryshnikova L M, Ivanitskii G R Dokl. Akad. Nauk SSS R 317 1001 (1991)
  139. Tsyganov M A, Kresteva I B, Medvinskii A B, Ivanitskii G R Dokl. Akad. Nauk SSSR 333 532 (1993)
  140. Belintsev B J, Belousov L V, Zaraisky A G J. Theor. Biol. 129 369 (1987)
  141. Busa W B, Nuccitelli R J. Cell. Biol. 100 1324 (1985)
  142. Robertson A D, Grutsch J F Cell. 24 603 (1981)
  143. Siegert F, Weijer C J Physica D 49 224 (1991)
  144. Steinbock O, Hashimoto H, Muller S C Physica D 49 223 (1991)
  145. Turing A M Phil. Trans. Roy. Soc. London B 237 37 (1952)
  146. Kokochashvili V I Candidate Thesis, Phys-Math. Sciences (Moscow: Inst. Chem. Phys. Acad. Sci. USSR, Tbilisi Univ., 1942)
  147. Zeldovich Ya B Teoriya Goreniya I Detonatsii Gazov (The Theory Of Combustion And Detonation Of Gases) (Moscow: Izd. Akad. Nauk SSSR, 1944)
  148. Kuramoto Y, Yamada T Prog. Theor. Phys. 55 679 (1976)
  149. Kuramoto Y Prog. Theor. Phys. 63 1885 (1980)
  150. Kuramoto Y, Koga S Phys. Lett. A 92 1 (1982)
  151. Kuramoto Y Chemical Oscillations, Waves, And Turbulence (Berlin: Springer, 1984)
  152. Kolebaniya i Begushchie Volny v Khimicheskikh Sistemakh "(Oscillations and Travelling Waves in Chemical Systems)" Translated Into Russian (Moscow: Mir, 1988)
  153. Yamada T, Kuramoto Y Prog. Theor. Phys. 56 681 (1976)
  154. Kuramoto Y Prog. Theor. Phys. Suppl. 64 346 (1978)
  155. Kerner B S, Osipov V V Avtosolitony (Autosolitons) (Moscow: Nauka, 1991)
  156. Mornev O A Candidate Thesis, Phys-Math. Sciences (Pushchino: Inst. Biol. Phys. Acad. Sci. USSR, 1989)
  157. Merkin V S, Pastushenko V F, Chizmadzhev Yu A Teoriya Vozbudimykh Sred (The Theory Of Excitable Media) (Moscow: Nauka, 1981)
  158. Medvinskii A B, Fishov I L, Tsyganov M A, Ivanitskii G R Dokl. Akad. Nauk 311 1479 (1990)
  159. Medvinsky A B, Tsyganov M A, Kutyshenko V P, Shakhbaz-ian V Yu, Kresteva I B, Ivanitsky G R FEMS Microbiol. Lett. 311 287 (1993)
  160. Levine H, Reynolds W Phys. Rev. Lett. 66 2400 (1991)
  161. Medvinskii A B, Shakhbazyan V Yu, Kresteva I B, Tsyganov M A, Kuzmin S V, Ivanitskii G R Dokl. Akad. Nauk SSSR 326 194 (1992)
  162. Medvinskii A B, Fishov I L, Karpov V A, Tsyganov M A, Milonova I N, Ivanitskii G R Dokl. Akad. Nauk SSSR 318 454 (1991)
  163. Wolf A J, Berg H C Proc. Nat. Acad. Sci. USA 86 6973 (1989)
  164. Lee K J, McCormick W D, Quyang Q, Swinney H L Science 261 192 (1993)
  165. Ivanitskii G R Mir Glazami Biofizika (The World In The Eyes Of A Biophysicist) (Moscow: Pedagogika, 1985)
  166. Ivanitskii G R (Ed.) Biotekhnika — Novoe Napravlenie Komp'yuterizatsii (Biotechnics — A Novel Strategy Of Computerisation) (Moscow: Nauka, 1990)
  167. Agadzhanian D, Ivanitsky G, Shamarov A "Scanning method and a scan microscope for its realization", US Pat. 3 780 298 (1973)
  168. Lee C Y IRE Trans. Elec. Comput. EC-10 346 (1961)
  169. Frobenius L Kulturgeschichte Afrikas. Prolegomena Zu Einer Historischen Gestaltlehre (Phaidon-Verlag, 1933)
  170. Huizinga Y "Homo Ludens in Deschaduwen van Morgen (Haarlem, 1938)" Translated Into Russian (Moscow: Progress; Academia, 1992)
  171. Morimoto B H, Koshland D E Jr FASEB J. 5 2061 (1991)
  172. Tsyganov M A, Kresteva I B, Medvinskii A B, Ivanitskii G R Dokl. Ross. Akad. Nauk., in press

© 1918–2021 Uspekhi Fizicheskikh Nauk
Email: ufn@ufn.ru Editorial office contacts About the journal Terms and conditions