PUBLICATION LIST for ARNE MIKKELSEN.

Last updated: 28 May 2018

Project, diploma and dr.ing. thesis:

  1. Mikkelsen A (1977) Optisk filtrering (Prosjektarbeid). Inst. for fysikk, NTH, Trondheim, Norway.
  2. Mikkelsen A (1978) En undersøkelse av strukturen til humant spektrin ved måling av Kerr-effekt og opptak av røntgenfiberdiagram (Diploma thesis). NTH, University of Trondheim., Trondheim, Norway.
  3. Mikkelsen A (1983) Physical properties and functional mechanism of human erythrocyte spectrin and human bronchial mucin studied using electro-optic methods, viscometry, and electron microscopy (Dr.ing. thesis). NTH, University of Trondheim., Trondheim, Norway.

Articles in peer-reviewed journals:

  1. Mikkelsen A, Elgsaeter A (1978) Human spectrin. II. An electro-optic study. Biochim Biophys Acta 536:245-251 [ScienceDirect]
  2. Mikkelsen A, Elgsaeter A (1978) Human spectrin. IV. A preliminary X-ray study. Acta Chem Scand Ser A 32:1017-1018 [pdf]
  3. Mikkelsen A, Elgsaeter A (1981) Human Spectrin V. A comparative electro-optic study of heterotetramers and heterodimers. Biochim Biophys Acta 668:74-80 [ScienceDirect]
  4. Elgsaeter A, Espevik T, Kopstad G, Mikkelsen A, Stokke BT (1984) Freeze-etching of macromolecules. In: Science of Biological Specimen Preparation, SEM. pp 195-201
  5. Mikkelsen A, Stokke BT, Elgsaeter A (1984) An electro-optic study of human erythrocyte spectrin dimers. The presence of calcium ions does not alter spectrin flexibility. Biochim Biophys Acta 786:95-102. [ScienceDirect]
  6. Mikkelsen A, Stokke BT, Christensen BE, Elgsaeter A (1985) Flexibility and length of human bronchial mucin studied using low-shear viscometry, birefringence relaxation analysis, and electron microscopy. Biopolymers 24:1683-1704 [Wiley]
  7. Mikkelsen A, Stokke BT, Elgsaeter A (1985) A practical, high-resolution, microcomputer-based method for the analysis of relaxation data exhibiting multicomponent exponential decays. Int J Biomed Comput 16:35-57 [ScienceDirect]
  8. Mikkelsen A, Stokke BT, Elgsaeter A (1985) A computerized low-shear pendulum viscoelastometer, stress-relaxation, shear creep, and dynamic elastic moduli measurements of soft biogels. Int J Biomed Comput 17:215-226 [ScienceDirect]
  9. Stokke BT, Mikkelsen A, Elgsaeter A (1985) An electrophoretic device concentrating charged macromolecules to a predetermined final solution volume. Anal Biochem 148:527-532 [ScienceDirect]
  10. Stokke BT, Mikkelsen A, Elgsaeter A (1985) Human erythrocyte spectrin dimer intrinsic viscosity: temperature dependence and implications for the molecular basis of the erythrocyte membrane free energy. Biochim Biophys Acta 816:102-110 [ScienceDirect]
  11. Stokke BT, Mikkelsen A, Elgsaeter A (1985) Some viscoelastic properties of human erythrocyte spectrin networks end-linked in vitro. Biochim Biophys Acta 816:111-121 [ScienceDirect]
  12. Elgsaeter A, Mikkelsen A, Stokke BT (1986) Spectrin and the mechanochemical properties of the erythrocyte membrane. In: Clarkson TW, Sager PR, Syversen,T L M (eds) The Cytoskeleton: Target toxic agents. Rochester International Conference on Environmental Toxicity. Plenum Publ. Corp. 16, pp 187-197
  13. Elgsaeter A, Stokke BT, Mikkelsen A, Branton D (1986) The molecular basis of erythrocyte shape. Science 234:1217-1223 [Science]
  14. Mikkelsen A, Stokke BT, Elgsaeter A (1986) Physical chemistry of the red cell cytoskeleton: the spectrin network. Biorheology 23:213-213 [IOS]
  15. Stokke BT, Mikkelsen A, Elgsaeter A (1986) Spectrin, human erythrocyte shapes and mechanochemical properties. Biophys J 49:319-327 [ScienceDirect]
  16. Stokke BT, Mikkelsen A, Elgsaeter A (1986) The human erythrocyte membrane skeleton may be an ionic gel. III. Micropipette aspiration of unswollen erythrocytes. J Theor Biol 123:205-211 [ScienceDirect]
  17. Stokke BT, Mikkelsen A, Elgsaeter A (1986) The human erythrocyte membrane skeleton may be an ionic gel. I. Membrane mechanochemical properties. Eur Biophys J 13:203-218 [Springer]
  18. Stokke BT, Mikkelsen A, Elgsaeter A (1986) The human erythrocyte membrane skeleton may be an ionic gel. II. Numerical analyses of cell shapes and shape transformations. Eur Biophys J 13:219-233 [Springer]
  19. Sandvold ML, Mikkelsen A, Elgsaeter A (1989) Frequency dependence of the shear moduli of spectrin studied using a Multiple Lumped Resonator viscoelastometer. Acta Chem Scand 43:783-786 [pdf]
  20. Elgsaeter A, Mikkelsen A (1990) Molecular basis for erythrocyte shape. In: Paillotin G (ed) The living cell in four dimensions. American Institute of Physics, New York. pp 349-366
  21. Sandvold ML, Mikkelsen A, Elgsaeter A (1990) A multiple lumped resonator (MLR) viscoelastometer study of spectrin molecular dynamics. In: Burchard W, Ross-Murphy SB (eds) Physical Networks. Polymers and gels. Elsevier Applied Science, London & N.Y. pp 371-378
  22. Elgsaeter A, Mikkelsen A (1991) Shape and shape changes in vitro in normal red blood cells. Biochim Biophys Acta 1071:273-290 [ScienceDirect]
  23. Ellingsrud S, Knudsen KD, Mikkelsen A, Elgsaeter A, Malmo JT (1992) Torsional dynamics of the Birnboim-Schrag multiple lump resonator studied using TV-holography. Rheol Acta 31:459-470 [Springer]
  24. Knudsen KD, Mikkelsen A, Elgsaeter A (1992) Mathematical analysis of rheometer dynamics using multi-segment models. Rheol Acta 31:431-439 [Springer]
  25. Mikkelsen A, Knudsen KD, Elgsaeter A (1992) Characteristic mechanical impedance of rheometers with axial symmetry. A theoretical and numerical analysis. Rheol Acta 31:421-430 [Springer]
  26. Mikkelsen A, Knudsen KD, Elgsaeter A (1992) Measurement of the dynamic viscoelastic properties of polymer solutions using the Birnboim-Schrag multiple lump resonator. A theoretical and numerical study. Rheol Acta 31:440-458 [Springer]
  27. Nakken T, Nyland GH, Knudsen KD, Mikkelsen A, Elgsaeter A (1994) A new torsional rod instrument for high frequency dynamic measurements. Journal of Non-Newtonian Fluid Mechanics 52:217-232 [ScienceDirect]
  28. Knudsen KD, Mikkelsen A, Elgsaeter A (1995) An automated high pressure, high temperature, low frequency viscometer. Rheol Acta 34:248-258 [Springer]
  29. Mikkelsen A, Elgsaeter A (1995) Density distribution of calcium-induced alginate gels. A numerical study. Biopolymers 36:17-41 [Wiley]
  30. Nakken T, Knudsen KD, Mikkelsen A, Elgsaeter A (1995) Dynamics of coaxial torsional resonators consisting of segments with different radii, material properties and surrounding media. Rheol Acta 34:235-247 [Springer]
  31. Fuglestad GA, Mikkelsen A, Elgsaeter A, Stokke BT (1996) Transient electric birefringence study of rod-like triple-helical polysaccharide schizophyllan. Carbohydrates Polymers 29:277-283 [ScienceDirect]
  32. Nyland GH, Skjetne P, Mikkelsen A, Elgsaeter A (1996) Brownian dynamics simulation of needle chains. Journal of Chemical Physics 105:1198-1207 [AIP]
  33. Bjørkøy A, Elgsaeter A, Mikkelsen A (1998) Electrooptic analysis of macromolecule dipole moments using asymmetric reversing electric pulses. Biophys Chem 72:247-264 [ScienceDirect]
  34. Mikkelsen A, Knudsen KD, Elgsaeter A (1998) Brownian dynamics simulation of needle-spring chains. Physica A 253:66-76 [ScienceDirect]
  35. Bjørkøy A, Mikkelsen A, Elgsaeter A (1999) Electric birefringence of recombinant spectrin segments 14, 14-15, 14-16 and 14-17 from Drosophila alpha-spectrin. Biochim Biophys Acta 1430:323-340 [ScienceDirect]
  36. Bjørkøy A, Mikkelsen A, Elgsaeter A (1999) Transient electric birefringence of human erythroid spectrin dimers and tetramers at ionic strengths 4 and 53 mM. Eur Biophys J 28:269-278 [Springer]
  37. Mikkelsen A, Bjørkøy A and Elgsaeter A (2000) Deconvolution can be used in electrooptic studies to correct for non-ideal electric excitation pulses only when the electric dipole moment of the studied molecules is predominantly induced. J Biochem Biophys Methods 42, 83-96 [ScienceDirect]
  38. Thu B, Gåserød O, Paus D, Mikkelsen A, Skjåk-Bræk G, Toffanin R, Vittur F, Rizzo R (2000) Inhomogeneous alginate gel spheres: An assessment of the polymer gradients by synchrotron radiation-induced x-ray emission, magnetic resonance microimaging, and mathematical modelling. Biopolymers 53:60-71 [Wiley]
  39. Naess, SN, Adland, HM, Mikkelsen, A and Elgsaeter, A (2001) Brownian dynamics simulation of rigid bodies and segmented polymer chains. Use of Cartesian rotation vectors as the generalized coordinates describing angular orientation. Physica A, 294:323-339 [ScienceDirect]
  40. Bakk, Audun, Fossum, Jon O., da Silva, Geraldo J., Adland, Hans M., Mikkelsen, Arne and Elgsaeter, Arnljot (2002) Viscosity and transient electric birefringence study of clay colloidal aggregation. Physical Review E (Statistical, Nonlinear, and Soft Matter Physics) 65: 021407 [APS]
  41. Ådland, Hans Magne and Mikkelsen, Arne (2003) Rotational diffusion of two-segmented macromolecules with a ball-socket joint: A kinetic theory approach. Journal of Chemical Physics 118:3376-3391 [AIP]
  42. Ådland, Hans Magne and Mikkelsen, Arne (2004) Brownian dynamics simulations of needle chain and nugget chain polymer models -- Rigid constraint conditions versus infinitely stiff springs. Journal of Chemical Physics 120:9848-9858 [AIP]

Lecture notes etc.

  1. A. Elgsæter, A. Mikkelsen og B.T. Stokke: "Molekylær biofysikk", kompendium for fag 74635 Molekylær biofysikk Siste revisjon høst 1999. 358 sider.
  2. A. Elgsæter og A. Mikkelsen: "Transportteori", kompendium for fag 74336 Klassisk transportteori. Siste revisjon høst 1999.
  3. A. Elgsaeter and A. Mikkelsen: "Nanoparticle and Polymer Physics", lecture notes for courses DIF4997/SIF40AH Polymerfysikk. Last revision February 2003. Aprox. 310 pages (English).