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Literatura

  1. B.Alberts, D.Bray, J.Lewis, M.Raff, K.Roberts, J.D.Watson, Molecular Biology of the Cell, 2nd.Ed., Garland, New York 1989.
  2. L.Stryer, Biochemistry, 3rd Ed., W.H.Freeman, New York 1988.
  3. H.Heller, M.Schaefer, K.Schulten, Molecular Dynamics Simulation of a Bilayer of 200 Lipids in the Gel and in the Liquid Crystal Phases, J.Phys.Chem. 97 (1993) 8343-8360.
  4. S.Svetina, B.Žekš, Membrane Bending Energy and Shape Determinition of Phospholipid Vesicles and Red Blood Cells, Eur.Biophys.J. 17 (1989) 101-111.
  5. W.Helfrich, Deformation of Lipid Bilayer Spheres by Electric Field, Z.Naturforsch. 29c (1974) 182-183.
  6. W.Harbich, W.Helfrich, Alignment and Opening of Giant Lecithin Vesicles by Electric Field, Z.Naturforsch. 34a (1979) 1063-1065.
  7. G.Bryant, J.Wolfe, Electromechanical Stresses Produced in Plasma Membranes of Suspended Cells by Applied Electric Fields, J.Membrane Biol. 96 (1987) 129-139.
  8. M.Winterhalter, W.Helfrich, Deformation of Spherical Vesicles by Electric Field, J.Coll.Int.Sci. 122 (1988) 583-586.
  9. F.Sevšek, S.Sukharev, S.Svetina, B.Žekš, The Shapes of Phospholipid Vesicles in Electric Field as Determined by Video Microscopy, Stud.Biophys. 138 (1990) 143-146.
  10. B.Žekš, S.Svetina, V.Pastushenko, The Shapes of Phospholipid Vesicles in an External Electric Field - A Theoretical Approach, Stud.Biophys. (1990) 138 137-142.
  11. M.Kummrow, W.Helfrich, Deformation of Giant Lipid Vesicles by Electric Fields, Phys.Rev. A44 (1991) 8356-8360.
  12. M.D.Mitov, P.Méléard, M.Winterhalter, M.I.Angelova, P.Bothorel, Electric-Field-Dependent Thermal Fluctuations of Giant Vesicles, Phys.Rev. E48 (1993) 628-631.
  13. H.Hyuga, K.Kinosita Jr., N.Wakabayashi, Transient and Steady-State Deformations of a Vesicle with an Insulating Membrane in Response to Step-Function or Alternating Electric Field, Jpn.J.Appl.Phys. 30 (1991) 2649-2656.
  14. A.Sokirko, V.Pastushenko, S.Svetina, B.Žekš, Deformation of a Lipid Vesicle in an Electrical Field: a Theoretical Model, Bioelectrochem.Bioenerg. 34 (1994) 101-107.
  15. H.Hyuga, K.Kinosita Jr., N.Wakabayashi, Steady-State Deformation of a Vesicle in Alternating Electric Fields, Bioelectrochem.Bioenerg. 32 (1993) 15-25.
  16. W.Helfrich, Elastic Properties of Lipid Bilayers: Theory and Possible Experiments, Z.Naturforsch. 28c (1973) 693-703.
  17. S.Svetina, M.Brumen, B.Žekš, Lipid Bilayer Elasticity and the Bilayer Couple Interpretation of Red Cell Shape Transformation and Lysis, Stud.Biophys. 110 (1985) 177-184.
  18. S.Svetina, B.Žekš, The Elastic Deformability of Closed Multilayered Membranes is the same as that of a Bilayer Membrane, Eur.Biophys.J. 21 (1992) 251-255.
  19. R.E.Waugh, J.Song, S.Svetina, B.Žekš, Local and Non-local Curvature Elasticity in Bilayer Membranes by Tether Formation from Lecithin Vesicles, Biophys.J. 61 (1992) 974-982.
  20. R.M.Servuss, W.Harbich, W.Helfrich, Measurement of the Curvature-Elastic Modulus of Egg Lecithin Bilayers, Biochim.Biophys.Acta 436 (1976) 900-903.
  21. G.R.Beblik, R.M.Servuss, W.Helfrich, Bilayer Bending Rigidity of Some Synthetic Lecithin, J.Phys.France 10 (1984) 1773-1778.
  22. M.B.Schneider, J.T.Jenkins, W.W.Webb, Thermal Fluctuations of Large Cylindrical Phospholipid Vesicles, Biophys.J. 45 (1984) 891-898.
  23. L.Bo, R.E.Waugh, Determination of Bilayer Membrane Bending Stiffness by Tether Formation from Giant, Thin Walled Vesicles, Biophys.J. 55 (1989) 509-517.
  24. H.Engelhardt, H.P.Duwe, E.Sackmann, Bilayer Bending Elasticity Measured by Fourier Analysis of Thermally Excited Surface Undulations of Flaccid Vesicles, J.Phys.Lett.France 46 (1985) 395-400.
  25. J.F.Faucon, M.Mitov, P.Méléard, I.Bivas, P.Bothorel, Bending Elasticity and Thermal Fluctuations of Lipid Membranes, J.Phys.France 50 (1989) 2389-2414.
  26. H.P.Duwe, J.Käs, E.Sackmann, Bending Elastic Moduli of Lipid Bilayers: Modulation by Solutes, J.Phys.France 51 (1990) 945-962.
  27. R.Kwok, E.Evans, Thermoelasticity of Large Lecithin Bilayer Vesicles, Biophys.J. 35 (1981) 637-652.
  28. E.Evans, D.Needham, Physical Properties of Surfactant Bilayer Membranes, J.Phys.Chem. 19 (1987) 4219-4227.
  29. E.Evans, W.Rawicz, Entropy Driven Tension and Bending Elasticity in Condensed Fluid Membranes, Phys.Rev.Lett. 64 (1990) 2094-2097.
  30. M.do Carmo, Differential Geometry of Curves and Surfaces, Prentice-Hall, Englewood Cliffs 1976.
  31. H.T.Tien, Bilayer Lipid Membranes, Marcel Dekker, New York 1974.
  32. J.A.Stratton, Electromagnetic Theory, McGraw-Hill, New York 1941.
  33. F.Križanič, Navadne diferencialne enačbe in variacijski račun, Državna založba Slovenije, Ljubljana 1974.
  34. W.H.Press, B.P.Flannery, S.A.Teukolsky, W.T.Vetterling, Numerical Recipes: The Art of Scientific Computing, Cambridge University Press, Cambridge 1986.
  35. J.P.Reeves, R.M.Dowben, Formation and Properties of Thin-walled Phospholipid Vesicles, J.Cell.Biol. 73 (1969) 49-60.
  36. D.Needham, E.Evans, Structure and Mechanical Properties of Giant Lipid (DMPC) Vesicle Bilayers from 20C below to 10C above the Liquid Crystal-Crystalline Phase Transition at 24C, Biochemistry 27 (1988) 8261-8269.
  37. G.Niggemann, M.Kummrow, W.Helfrich, The Bending Rigidity of Phosphatidylcholine Bilayers: Dependences on Experimental Method, Sample Cell Sealing and Temperature, J.Phys.II France 5 (1995) 413-425.
  38. J.Majhenc, Analiza termičnih fluktuacij fosfolipidnih mehurčkov, Diplomsko delo, Univerza v Ljubljani, 1991.
  39. J.Majhenc, Merjenje termičnih fluktuacij fosfolipidnih mehurčkov in določitev elastične upogibne konstante fosfolipidne membrane, Magistrsko delo, Univerza v Ljubljani, 1995.
  40. R.C.Gonzales, R.E.Woods, Digital Image Processing, Addison-Wesley, Reading (Mass.) 1992.
  41. F.Sevšek, J.Majhenc, Podobar, program za analizo slik presekov fosofolipidnih mehurčkov (verzija 1.32), Inštitut za biofiziko, Ljubljana.
  42. P.Peterlin, F.Sevšek, S.Svetina, B.Žekš, Observations of Giant Phospholipid Vesicles Deformed by Electric Field, Acta Pharm. 43 (1993) 143-145.
  43. R.E.Waugh, J.Song, S.Svetina, B.Žekš, Local and Nonlocal Curvature Elasticity in Bilayer Membranes by Tether Formation From Lecithin Vesicles, Biophys.J. 61 (1992) 974-982.
  44. J.Käs, E.Sackmann, R.Podgornik, S.Svetina, B.Žekš, Thermally Induced Budding of Phospholipid Vesicles - a Discontinuous Process, J.Phys.II France 3 (1993) 631-645.
  45. P.M.Morse, H.Feshbach, Methods of Theoretical Physics, McGraw-Hill, New York 1953.
  46. M.Abramowitz, I.A.Stegun, Handbook of Mathematical Functions with Formulas, Graphs and Mathematical Tables, Dover, New York 1965.
  47. J.Israelachvili, Intramolecular and Surface Forces, 2nd Ed., Academic Press, London 1991.

Obnovljeno: 16.oktober 1995 (P.Peterlin)