PACS numbers

36.20.Fz Constitution (chains and sequences) 87.14.Ee Proteins 87.15.By Structure and bonding 87.15.He Dynamics and conformational changes 87.16.−b Subcellular structure and processes 87.23.Kg Dynamics of evolution
  1. S.S. Shakhidzhanov, F.A. Balabin et alCalcium oscillations in blood platelets and their possible role in 'interpreting' extracellular information by cells62 660–674 (2019)
    87.10.Ed, 87.16.−b, 87.19.−j (all)
  2. G.R. Ivanitskii “X-men: humans with an unusual interaction between receptor systems who construct a world of new images within themselves (on the 140th anniversary of the birth of Academician P.P. Lazarev)62 711–734 (2019)
    01.65.+g, 87.18.Sn, 87.19.−j, 87.19.La, 87.23.Kg (all)
  3. Yu.N. Korystov “Life originated as a genetic code (contribution to the discussion of the paper by G.R. Ivanitskii "21st century: what is life from the perspective of physics" [Usp. Fiz. Nauk. 180 337 (2010); Phys. Usp. 53 327 (2010); Usp. Fiz. Nauk. 182 1235 (2012); Phys. Usp. 55 1152 (2012); Usp. Fiz. Nauk 182 1238 (2012); Phys. Usp. 55 1155 (2012)])60 219–224 (2017)
    87.14.−g, 87.18.−h, 87.23.kg (all)
  4. P.N. Zakharov, V.K. Arzhanik et alMicrotubule: a dynamically unstable stochastic phase switching polymer59 773–786 (2016)
    87.10.−e, 87.16.−b, 87.16.A− (all)
  5. V.I. Klyatskin “Spatial structures can form in stochastic dynamic systems due to near-zero-probability events (comment on “21st century: what is life from the perspective of physics?” (Usp. Fiz. Nauk 180 337 (2010) [Phys. Usp. 53 327 (2010)]) by G R Ivanitskii)55 1152–1154 (2012)
    05.45.−a, 05.65.+b, 87.23.Kg (all)
  6. G.R. Ivanitskii “Memory about the past is beneficial for survival and reproduction (reply to comment (Usp. Fiz. Nauk 182 1235 (2012) [Phys. Usp. 55 1152 (2012)]) by V I Klyatskin on “21st century: what is life from the perspective of physics” (Usp. Fiz. Nauk 180 337 (2010) [Phys. Usp. 53 327 (2010)]) by G R Ivanitskii)55 1155–1160 (2012)
    05.45.−a, 05.65.+b, 87.23.Kg (all)
  7. G.R. Ivanitskii “Remembering a random choice kills alternatives (reply to comment on “21st century: what is life from the perspective of physics?”)54 431–433 (2011)
    01.70.+w, 87.23.Kg (all)
  8. Yu.M. Romanovsky, A.N. Tikhonov “Molecular energy transducers of the living cell. Proton ATP synthase: a rotating molecular motor53 893–914 (2010)
    87.10.−e, 87.15.−v, 87.16.−b (all)
  9. V.P. Tychinskii “Dynamic phase microscopy: is a “dialogue” with the cell possible?50 513–528 (2007)
    07.60.−j, 87.16.−b, 87.64.−t (all)
  10. V.E. Ostrovskii, E.A. Kadyshevich “Generalized hypothesis of the origin of the living-matter simplest elements, transformation of the Archean atmosphere, and the formation of methane-hydrate deposits50 175–196 (2007)
    87.15.−v, 87.23.Kg, 92.60.Iv, 91.45.Nc (all)
  11. Yu.F. Krupyanskii, V.I. Gol’danskii “Dynamical properties and energy landscape of simple globular proteins45 1131–1151 (2002)
    87.10.+e, 87.15.By, 87.15.He, 87.80.−y (all)
  12. V.P. Tychinskii “Coherent phase microscopy of intracellular processes44 617–629 (2001)
    42.30.−d, 87.16.−b, 87.64.Rr (all)
  13. A.V. Savin, L.I. Manevich et alNonlinear dynamics of zigzag molecular chains42 245–260 (1999)
    02.40.−k, 36.20.−r, 43.25.Rq, 87.15.He (all)
  14. V.I. Gol’danskii, V.V. Kuz’min “Spontaneous breaking of mirror symmetry in nature and the origin of life32 1–29 (1989)
    87.14.Ee, 87.15.By, 36.20.Fz (all)
  15. E.I. Volkov “Biophysical effects of steady magnetic fields31 179–180 (1988)
    87.50.Mn, 01.30.Cc, 01.30.Vv, 87.15.Mi, 87.15.Rn, 87.16.−b (all)
  16. M.D. Frank-Kamenetskii, V.V. Anshelevich, A.V. Lukashin “Polyelectrolyte model of DNA30 317–330 (1987)
    87.14.Gg, 87.15.Tt, 87.15.He, 87.15.Kg, 87.15.By, 82.35.Rs (all)
  17. É.L. Andronikashvili, G.M. Mrevlishvili “Low-temperature heat capacity of DNA29 1151–1152 (1986)
    87.14.Gg, 87.15.By, 87.15.Nn, 87.15.He, 05.70.Ce (all)
  18. A.Yu. Grosberg, A.R. Khokhlov “Phase transitions in polymer and biopolymer systems29 797–799 (1986)
    87.15.By, 36.20.Fz, 87.15.He, 87.14.Ee, 87.14.Gg, 87.15.Rn (all)
  19. M.V. Vol’kenshtein “Evolution ofbiopolymers and biological evolution29 799–800 (1986)
    87.15.By, 87.15.He, 87.23.Kg, 87.14.Ee, 87.16.−b, 36.20.Fz (all)
  20. M.D. Frank-Kamenetskii “Topology and structural transitions in DNA29 800–802 (1986)
    87.14.Gg, 87.15.By, 87.15.La, 36.20.Hb (all)
  21. M.V. Vol’kenshtein “The essence of biological evolution27 515–537 (1984)
    87.23.−n, 87.14.Ee, 87.14.Gg, 87.15.By (all)
  22. D.S. Chernavskii “Tunneling transport of electrons in biology27 460–461 (1984)
    87.15.Mi, 87.15.By, 87.16.Uv, 87.16.Sr, 87.15.Rn (all)
  23. A.B. Rubin “Molecular mechanisms for electron transport in biological systems27 461–462 (1984)
    87.15.Mi, 87.16.Uv, 87.14.Ee, 87.64.Pj, 42.62.Fi (all)
  24. V.I. Gol’danskii, Yu.F. Krupyanskii “Dynamics of biopolymers and the glass model of proteins and DNA27 462–463 (1984)
    87.68.+z, 87.14.Ee, 87.14.Gg, 87.15.By, 87.15.Mi (all)
  25. A.I. Ansel’m, V.L. Ginzburg et alSemen Efimovich Bresler (Obituary)27 316–317 (1984)
    01.60.+q, 01.30.Ee, 36.20.Fz, 82.35.−x, 87.14.Ee, 01.30.M− (all)
  26. B.N. Belintsev “Dissipative structures and the problem of biological pattern formation26 775–800 (1983)
    87.10.+e, 87.15.He (all)
  27. A.S. Davydov “Solitons in quasi-one-dimensional molecular structures25 898–918 (1982)
    87.15.By, 31.90.+s (all)
  28. Yu.M. Ostanevich, I.N. Serdyuk “Neutron-diffraction studies of the structure of biological macromolecules25 323–339 (1982)
    87.15.By, 87.15.Da, 87.80.+s
  29. M.D. Frank-Kamenetskii, A.V. Vologodskii “Topological aspects of the physics of polymers: The theory and its biophysical applications24 679–696 (1981)
    36.20.Fz, 87.15.By (all)
  30. V.A. Kizel’ “Optical activity and dissymmetry in living systems23 277–295 (1980)
    87.15.By
  31. I.M. Lifshits, A.Yu. Grosberg, A.R. Khokhlov “Volume interactions in the statistical physics of a polymer macromolecule22 123–142 (1979)
    36.20.Fz
  32. S.E. Bresler “Physics and biology18 62–73 (1975)
    87.15.−v, 87.19.La, 87.16.−b, 03.65.Ge (all)
  33. S.E. Manoilov, E.N. Chistyakova et alEffects of Millimeter-band Electromagnetic Waves on Certain Aspects of Protein Metabolism in Bacteria16 573–574 (1974)
    87.50.Jk, 87.15.Rn, 87.14.Ee (all)
  34. B.K. Vainshtein “Three-dimensional electron microscopy of biological macromolecules16 185–206 (1973)
    87.64.Ee, 36.20.Ey, 87.14.Ee, 87.15.By (all)
  35. M.V. Vol’kenshtein “Physics and biology16 207–216 (1973)
    87.15.By, 36.20.Ey, 87.14.Ee, 02.10.Ud (all)
  36. A.A. Vedenov, A.M. Dykhne, M.D. Frank-Kamenetskii “The helix-coil transition in DNA14 715–736 (1972)
    87.14.Gg, 87.15.By, 87.15.Nn, 87.16.Tb (all)
  37. S.E. Bresler “PROBLEMS OF BIOPHYSICS12 534–564 (1970)
    87.16.Tb, 87.16.Dg, 87.14.Cc, 87.15.By, 87.15.Mi, 87.14.Ee (all)
  38. M.V. Vol’kenshtein “Physics of muscle contraction13 269–288 (1970)
    87.19.Ff, 87.19.Rr, 87.14.Ee, 87.15.By, 87.15.La, 87.15.Nn (all)
  39. B.K. Vainshtein “X-ray structure analysis of globular proteins9 251–275 (1966)
    87.14.Ee, 87.15.By, 87.15.Nn, 87.64.Gb (all)
  40. S.E. Bresler “Some problems of molecular biology and physics7 789–796 (1965)
    87.15.Rn, 87.14.Ee, 87.15.By, 87.15.Cc, 87.17.Ee (all)
  41. V.N. Tsvetkov “Flow birefringence and the structure of macromolecules6 639–681 (1964)
    78.20.Fm, 61.25.Hq, 87.14.Ee, 87.14.Gg, 87.15.By, 87.15.Mi (all)
  42. V.Yu. Gavrilov, Yu.N. Zograf “The nature of the biochemical code5 634–648 (1963)
    87.14.Gg, 87.15.By, 36.20.Fz, 87.15.Rn, 87.14.Ee (all)
  43. B.I. Sedunov, D.A. Frank-Kamenetskii “Dielectric constants of biological objects6 279–293 (1963)
    87.19.Nn, 87.15.By, 87.16.Dg, 82.39.Wj (all)
  44. N.M. Chernavskaya, D.S. Chernavskii “Periodic phenomena in photosynthesis3 850–865 (1961)
    87.15.Mi, 87.16.−b, 87.15.Rn (all)
  45. O.B. Ptitsyn “Intramolecular interactions in polymer chains2 797–830 (1960)
    36.20.Fz, 36.20.Ng (all)
  46. M.V. Vol’kenshtein “Problems in the theoretical physics of polymers2 59–81 (1959)
    36.20.Hb, 36.20.Fz, 62.20.Dc, 81.40.Jj, 64.70.Pf (all)
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