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Publications

  1. N. M. Balsgart and T. Vosegaard, J. Magn. Reson. 223, 164-169 (2012).
    Fast Forward Maximum Entropy Reconstruction of Sparsely Sampled Data

  2. C. Hjørringgaard, B. Vad, V. Matchkov, S. Nielsen, T. Vosegaard, N. C. Nielsen, D. Otzen, and T. Skrydstrup , J. Phys. Chem. B 116, 7652-7659 (2012).
    Cyclodextrin-Scaffolded Alamethicin with Remarkably Efficient Membrane Permeabilizing Properties and Membrane Current Conductance

  3. K. Bertelsen, J. Dorosz, S. K. Hansen, N. C. Nielsen, and T. Vosegaard, PLOS ONE 7, e47745 (2012).
    Mechanisms of Peptide-Induced Pore Formation in Lipid Bilayers Investigated by Oriented 31P Solid-State NMR Spectroscopy

  4. K. Bertelsen, B. Vad, E. H. Nielsen, S. K. Hansen, T. Skrydstrup, D. E. Otzen, T. Vosegaard, and N. C. Nielsen, J. Phys. Chem. B 115, 1767-1774 (2011).
    Long-Term-Stable Ether-Lipid vs Conventional Ester- Lipid Bicelles in Oriented Solid-State NMR: Altered Structural Information in Studies of Antimicrobial Peptides

  5. B. S. Vad, L. A. Thomsen, K. Bertelsen, M. Franzmann, J. M. Pedersen, S. B. Nielsen, T. Vosegaard, Z. Valnickova, T. Skrydstrup, J. J. Enghild, R. Wimmer, N. C. Nielsen, and D. E. Otzen, Biochim. Biophys. Acta 1804, 806-820 (2010).
    Divorcing Folding from Function: How Acylation Affects the Membrane-perturbing Properties of an Anti-microbial Peptide

  6. T. Vosegaard, Z. Tosner, and N.C. Nielsen, Encyclopedia of Magnetic Resonance, eds. R. K. Harris and R. E. Wasylishen , (2010).
    Numerical Simulations in Solid-State NMR with SIMPSON

  7. S. Jespersen, C. R. Bjarkam,, J. R. Nyengaard, M. M. Chakravarty, B. Hansen, T. Vosegaard, L. Østergaard, D. Yablonskiy, and N. C. Nielsen and P. Vestergaard-Poulsen, NeuroImage 49, 205-216 (2010).
    Neurite density from magnetic resonance diffusion measurements at ultrahigh field: comparison with light microscopy and electron microscopy

  8. T. Vosegaard, Solid State Nucl. Magn. Reson. 38, 77-83 (2010).
    Challenges in Numerical Simulations of Solid-State NMR Experiments: Spin Exchange Pulse Sequences

  9. J. T. Nielsen, M. Bjerring, M. D. Jeppesen, R. O. Pedersen, J. M. Pedersen, K. L. Hein, T. Vosegaard, T. Skrydstrup, D. E. Otzen, and N. C. Nielsen, Angew. Chem. Intl. Ed. 48, 2118-2121 (2009).
    Unique identification of supramolecular structures in amyloid fibrils by solid-state NMR spectroscopy

  10. K. Bertelsen, B. Paaske, L. Thøgersen, E. Tajkhorshid, B. Schiøtt, T. Skrydstrup, N. C. Nielsen, and T. Vosegaard, J. Am. Chem. Soc. 131, 18335-18342 (2009).
    Residue-Specific Information about the Dynamics of Antimicrobial Peptides from 1H-15N and 2H Solid-State NMR Spectroscopy

  11. T. Vosegaard and N. C. Nielsen, J. Magn. Reson. 199, 146-158 (2009).
    Defining the sampling space in multidimensional NMR experiments: What should the maximum sampling time be?

  12. Z. Tosner, T. Vosegaard, C. T. Kehlet, N. Khaneja, S. Glaser, and N. C. Nielsen, J. Magn. Reson. 197, 120-134 (2009).
    Optimal Control in NMR Spectroscopy: Numerical implementation in SIMPSON

  13. C. U. Hjørringgaard, J. M. Pedersen, T. Vosegaard, N. C. Nielsen, and T. Skrydstrup, J. Org. Chem. 74, 1329-1332 (2009).
    An Automatic Solid Phase Synthesis of Peptaibols

  14. J. Dittmer, L. Thøgersen, J. Underhaug, K. Bertelsen, T. Vosegaard, J. M. Pedersen, B. Schiøtt, E. Tajkhorshid, T. Skrydstrup, and N. C. Nielsen, J. Phys. Chem. B 113, 6928-2937 (2009).
    Incorporation of Antimicrobial Peptides into Membranes: A Combined Liquid-State NMR and Molecular Dynamics Study of Alamethicin in DMPC/DHPC Bicelles

  15. L. Thøgersen, B. Schiøtt, T. Vosegaard, N. C. Nielsen, and E. Tajkhorshid, Biophys. J. 95, 4337-4347 (2008).
    Peptide Aggregation and Pore Formation in a Lipid Bilayer - A Combined Coarse Grained and All Atom Molecular Dynamics Study

  16. T. Vosegaard, M. Kamihira-Ishijima, A. Watts, and N. C. Nielsen, Biophys. J. 94, 241-250 (2008).
    Helix conformations in 7TM membrane proteins determined using oriented-sample solid-state NMR with multiple residue specific 15N labeling

  17. T. Vosegaard, K. Bertelsen, J. M. Pedersen, L. Thøgersen, B. Schiøtt, E. Tajkhorshid, T. Skrydstrup, and N. C. Nielsen, J. Am. Chem. Soc. 130, 5028-5029 (2008).
    Resolution Enhancement in Solid-State NMR of Oriented Membrane Proteins by Anisotropic Differential Linebroadening

  18. J. Ø. Hansen, C. Kehlet, M. Bjerring, T. Vosegaard, S. J. Glaser, N. Khaneja, and N. C. Nielsen, Chem. Phys. Lett. 447, 154-161 (2007).
    Optimal control based design of composite dipolar recoupling experiments by analogy to single-spin inversion pulses

  19. T. Vosegaard and D. Massiot, Chem. Phys. Lett. 437, 120-125 (2007).
    High-resolution two-dimensional NMR spectra of half-integer-spin quadrupolar nuclei from one-dimensional projections

  20. K. Bertelsen, J. M. Pedersen, B. S. Rasmussen, T. Skrydstrup, N. C. Nielsen, and T. Vosegaard, J. Am. Chem. Soc. 129, 14717-14723 (2007).
    Membrane-Bound Conformation of Peptaibols with Methyl-Deuterated a-Amino Isobutyric Acids by 2H MAS Solid-State NMR Spectroscopy

  21. K. Bertelsen, J. M. Pedersen, N. C. Nielsen, and T. Vosegaard, J. Magn. Reson. 184, 273-279 (2007).
    2D separated-local field spectra from projections of 1D experiments

  22. N. C. Nielsen, T. Vosegaard, and A. Malmendal, , 679-687 (2006).
    Analytical and Numerical Tools for Experiment Design in Solid-State NMR Spectroscopy

  23. A.C. Sivertsen, M. Bjerring, C.T. Kehlet, T. Vosegaard, N.C. Nielsen, Annu. Rep. NMR Spectrosc. 54, 243-293 (2005).
    Numerical Simulations in Biological Solid-State NMR Spectroscopy

  24. C. T. Kehlet, T. Vosegaard, N. Khaneja, S. J. Glaser, and N. C. Nielsen, Chem. Phys. Lett. 414, 204-209 (2005).
    Low-power homonuclear dipolar recoupling in solid-state NMR developed using optimal control theory

  25. T. Vosegaard, C. T. Kehlet, N. Khaneja, S. J. Glaser, and N. C. Nielsen, J. Am. Chem. Soc. 127, 13768-13769 (2005).
    Improved excitation schemes for multiple-quantum magic-angle spinning for quadrupolar nuclei designed using optimal control theory

  26. M. Kamihira, T. Vosegaard, A. J. Mason, S. Straus, N. C. Nielsen, and A. Watts, J. Struct. Biol. 149, 7-16 (2005).
    Structural and orientational constraints of bacteriorhodopsin in purple membranes determined by oriented-sample solid-state NMR spectroscopy

  27. M. R. Hansen, T. Vosegaard, H. J. Jakobsen, and J. Skibsted, J. Phys. Chem. A 108, 586-594 (2004).
    11B Chemical Shift Anisotropies in Borates from 11B MAS, MQMAS, and Single-Crystal NMR Spectroscopy

  28. T. Vosegaard and N. C. Nielsen, Magn. Reson. Chem. 42, 285-290 (2004).
    Improved pulse sequences for pure exchange solid-state NMR spectroscopy

  29. N.C. Nielsen, A. Malmendal, and T. Vosegaard, Mol. Membr. Biol. 21, 129-141 (2004).
    Techniques and Applications of NMR to Membrane Proteins

  30. M. Bjerring, T. Vosegaard, A. Malmendal, and N. C. Nielsen, Concepts Magn. Reson. 18A, 111-129 (2003).
    Methodological Development of Solid-State NMR for Characterization of Membrane Proteins

  31. A. Goldbach, F. Fayon, T. Vosegaard, M. Wachhold, M. G. Kanatzidis, D. Massiot, and M.-L. Saboungi, Inorg. Chem. 42, 6996-7000 (2003).
    77Se and 87Rb Solid State NMR Study of the Structure of Rb2[Pd(Se4)2]·Se8

  32. T. Vosegaard, A. Malmendal, and N. C. Nielsen, Chem. Monthly 133, 1555-1574 (2002).
    The Flexibility of SIMPSON and SIMMOL for Numerical Simulations in Solid and Liquid-State NMR Spectroscopy

  33. T. Vosegaard and N. C. Nielsen, J. Biomol. NMR 22, 225-247 (2002).
    Towards high-resolution solid-state NMR on large uniformly 15N- and [13C,15N]-labeled membrane proteins in oriented lipid bilayers

  34. M. Bak, R. Schultz, T. Vosegaard, and N. C. Nielsen, J. Magn. Reson. 154, 28-45 (2002).
    Specification and visualization of anisotropic interaction tensors in polypeptides and numerical simulations in biological solid-state NMR

  35. T. Vosegaard, P. Florian, D. Massiot, and P. J. Grandinetti, J. Chem. Phys. 114, 4618-4624 (2001).
    Multiple Quantum Magic-Angle Spinning using Rotary Resonance Excitation

  36. T. Vosegaard, D. Massiot, and P. J. Grandinetti, Chem. Phys. Lett. 326, 454-460 (2000).
    Sensitivity enhancements in MQ-MAS NMR of spin-5/2 nuclei using modulated rf mixing pulses

  37. T. R. Jensen, R. G. Hazell, T. Vosegaard, and H. J. Jakobsen, Inorg. Chem. 39, 2026-2032 (2000).
    New Rubidium Zinc Hydrogen Phosphate, Rb2Zn2(HPO4)3: Synthesis, Crystal Structure, and 31P Single-Crystal NMR

  38. T. Vosegaard, P. Florian, P. J. Grandinetti, and D. Massiot, J. Magn. Reson. 143, 217-222 (2000).
    Pure Absorption-Mode Spectra using a Modulated RF Mixing Period in MQMAS Experiments

  39. T. Vosegaard, E. Hald, P. Daugaard, and H. J. Jakobsen, J. Magn. Reson. 142, 379-381 (2000).
    Small Crystals and Small Coils in Variable Temperature Single-Crystal NMR

  40. T. Vosegaard, U. Andersen, and H. J. Jakobsen, J. Am. Chem. Soc. 121, 1970-1971 (1999).
    Improved 67Zn Solid-State NMR from Single-Crystal Studies. Zn(CH3COO)2·H2O

  41. T. Vosegaard, J. Skibsted, and H. J. Jakobsen, J. Phys. Chem. A 103, 9144-9149 (1999).
    Characterization of Mo(CO)6 by 95Mo Single-Crystal NMR Spectroscopy

  42. T. Vosegaard, E. Hald, P. Daugaard, and H. J. Jakobsen, Rev. Sci. Instrum. 70, 1771-1779 (1999).
    A Two-Axis Goniometer for Sensitivity Enhancement in Single-Crystal NMR Spectroscopy

  43. D. Massiot, T. Vosegaard, N. Magneron, D. Trumeau, V. Montouillout, P. Berthet, T. Loiseau, and B. Bujoli, Solid State Nucl. Magn. Reson. 15, 159-169 (1999).
    71Ga NMR of reference GaIV, GaV, and GaVI compounds by MAS and QPASS, extension of gallium/aluminum NMR parameter correlation

  44. T. Vosegaard, J. Skibsted, H. Bildsøe, and H. J. Jakobsen, Solid State Nucl. Magn. Reson. 14, 203-210 (1999).
    Solid-State 87Rb NMR of RbVO3. A Comparison of Experiments for Retrieving Chemical Shielding and Quadrupole Coupling Tensorial Interactions

  45. T. Vosegaard, I. P. Byriel, D. A. Pawlak, K. Wozniak, and H. J. Jakobsen, J. Am. Chem. Soc. 120, 7900-7904 (1998).
    Crystal Structure Studies on the Garnet Y3Al5O12 by 27Al Single-Crystal NMR Spectroscopy

  46. T. Vosegaard, I. P. Byriel, L. Binet, D. Massiot, and H. J. Jakobsen, J. Am. Chem. Soc. 120, 8184-8188 (1998).
    Crystal Structure Studies by Single-Crystal NMR Spectroscopy. 71Ga and 69Ga Single-Crystal NMR of β-Ga2O3 Twins

  47. T. Vosegaard, E. Hald, V. Langer, H. J. Skov, P. Daugaard, H. Bildsøe, and H. J. Jakobsen, J. Magn. Reson. 135, 126-132 (1998).
    Improved Hardware and Software for Single-Crystal NMR Spectroscopy

  48. T. Vosegaard, D. Massiot, N. Gautier, and H. J. Jakobsen, Inorg. Chem. 36, 2446-2450 (1997).
    71Ga Chemical Shielding and Quadrupole Coupling Tensors of the Garnet Y3Ga5O12 from Single-Crystal 71Ga NMR

  49. T. Vosegaard, F. H. Larsen, H. J. Jakobsen, P. D. Ellis, and N. C. Nielsen, J. Am. Chem. Soc. 119, 9055-9056 (1997).
    Sensitivity-Enhanced Multiple-Quantum MAS NMR of Half-Integer Quadrupolar Nuclei

  50. T. Vosegaard and H. J. Jakobsen, J. Magn. Reson. 128, 135-137 (1997).
    27Al Chemical Shielding Anisotropy

  51. Thomas Vosegaard, Inger P. Byriel, and Hans J. Jakobsen, J. Phys. Chem. B 101, 8955-8958 (1997).
    Characterization of the Two Rubidium Sites in Rb2CrO4 by 87Rb Single-Crystal NMR

  52. T. Vosegaard, J. Skibsted, H. Bildsøe, and H. J. Jakobsen, J. Magn. Reson. A 122, 111-119 (1996).
    Quadrupole Coupling and Anisotropic Shielding from Single-Crystal NMR of the Central Transition for Quadrupolar Nuclei. 87Rb NMR of RbClO4 and Rb2SO4

  53. J. Skibsted, T. Vosegaard, H. Bildsøe, and H. J. Jakobsen, J. Phys. Chem. 100, 14872-14881 (1996).
    133Cs Chemical Shielding Anisotropies and Quadrupole Couplings from Magic-Angle Spinning NMR of Cesium Salts

  54. T. Vosegaard, V. Langer, P. Daugaard, E. Hald, H. Bildsøe, and H. J. Jakobsen, Rev. Sci. Instrum. 67, 2130-2133 (1996).
    A New Goniometer Design for Single-Crystal Nuclear Magnetic Resonance Spectroscopy

  55. T. Vosegaard, J. Skibsted, H. Bildsøe, and H. J. Jakobsen, J. Phys. Chem. 99, 10731 (1995).
    Combined Effect of Second-Order Quadrupole Coupling and Chemical Shielding Anisotropy on the Central Transition in MAS NMR of Quadrupolar Nuclei. 87Rb MAS NMR of RbClO4

   
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