Biblio

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Journal Article
Heteronuclear proton assisted recoupling, G. De Paëpe, Lewandowski, J. R., Loquet, A., Eddy, M. T., Megy, S., Böckmann, A., and Griffin, R. G., , The Journal of Chemical Physics, vol. 134, p. 095101, 2011.
Heteronuclear proton assisted recoupling, G. De Paëpe, Lewandowski, J. R., Loquet, A., Eddy, M. T., Megy, S., Böckmann, A., and Griffin, R. G., , The Journal of Chemical Physics, vol. 134, p. 095101, 2011.
High Resolution Structural Characterization of Aβ42Amyloid Fibrils by Magic Angle Spinning NMR, M. T. Colvin, Silvers, R., Frohm, B., Su, Y., Linse, S., and Griffin, R. G., , Journal of the American Chemical Society, vol. 137, pp. 7509–7518, 2015.
Higher Order Amyloid Fibril Structure by MAS NMR and DNP Spectroscopy, G. T. Debelouchina, Bayro, M. J., Fitzpatrick, A. W., Ladizhansky, V., Colvin, M. T., Caporini, M. A., Jaroniec, C. P., Bajaj, V. S., Rosay, M., MacPhee, C. E., and al., et, , Journal of the American Chemical Society, vol. 135, pp. 19237–19247, 2013.
High-Field Dynamic Nuclear Polarization with High-Spin Transition Metal Ions, B. Corzilius, Smith, A. A., Barnes, A. B., Luchinat, C., Bertini, I., and Griffin, R. G., , Journal of the American Chemical Society, vol. 133, pp. 5648–5651, 2011.
High-Resolution Solid-State NMR Structure of a 17.6 kDa Protein, I. Bertini, Bhaumik, A., De Paëpe, G., Griffin, R. G., Lelli, M., Lewandowski, J. R., and Luchinat, C., , Journal of the American Chemical Society, vol. 132, pp. 1032–1040, 2010.
High-Resolution Solid-State NMR Structure of a 17.6 kDa Protein, I. Bertini, Bhaumik, A., De Paëpe, G., Griffin, R. G., Lelli, M., Lewandowski, J. R., and Luchinat, C., , Journal of the American Chemical Society, vol. 132, pp. 1032–1040, 2010.
High-Resolution Solid-State NMR Structure of a 17.6 kDa Protein, I. Bertini, Bhaumik, A., De Paëpe, G., Griffin, R. G., Lelli, M., Lewandowski, J. R., and Luchinat, C., , Journal of the American Chemical Society, vol. 132, pp. 1032–1040, 2010.
Insight into the Mechanism of Inactivation of Ribonucleotide Reductase by Gemcitabine 5′-Diphosphate in the Presence or Absence of Reductant, E. Artin, Wang, J., Lohman, G. J. S., Yokoyama, K., Yu, G., Griffin, R. G., Bar, G., and Stubbe, J. A., , Biochemistry, vol. 48, pp. 11622–11629, 2009.
In-Situ Characterization of Pharmaceutical Formulations by Dynamic Nuclear Polarization Enhanced MAS NMR, Q. Zhe Ni, Yang, F., Can, T. V., Sergeyev, I. V., D’Addio, S. M., Jawla, S. K., Li, Y., Lipert, M. P., Xu, W., Williamson, R. Thomas, Leone, A., Griffin, R. G., and Su, Y., , The Journal of Physical Chemistry B, vol. 121, no. 34, pp. 8132-8141, 2017.
In-Situ Characterization of Pharmaceutical Formulations by Dynamic Nuclear Polarization Enhanced MAS NMR, Q. Zhe Ni, Yang, F., Can, T. V., Sergeyev, I. V., D’Addio, S. M., Jawla, S. K., Li, Y., Lipert, M. P., Xu, W., Williamson, R. Thomas, Leone, A., Griffin, R. G., and Su, Y., , The Journal of Physical Chemistry B, vol. 121, no. 34, pp. 8132-8141, 2017.
In-Situ Characterization of Pharmaceutical Formulations by Dynamic Nuclear Polarization Enhanced MAS NMR, Q. Zhe Ni, Yang, F., Can, T. V., Sergeyev, I. V., D’Addio, S. M., Jawla, S. K., Li, Y., Lipert, M. P., Xu, W., Williamson, R. Thomas, Leone, A., Griffin, R. G., and Su, Y., , The Journal of Physical Chemistry B, vol. 121, no. 34, pp. 8132-8141, 2017.
Metal-free class Ie ribonucleotide reductase from pathogens initiates catalysis with a tyrosine-derived dihydroxyphenylalanine radical, E. J. Blaesi, Palowitch, G. M., Hu, K., Kim, A. J., Rose, H. R., Alapati, R., Lougee, M. G., Kim, H. Jong, Taguchi, A. T., Tan, K. Ooi, Laremore, T. N., Griffin, R. G., Krebs, C., Matthes, M. L., Silakov, A., J. Jr., M. Bollinger, Allen, B. D., and Boal, A. K., , Proceedings of the National Academy of Sciences, vol. 115, pp. 10022–10027, 2018.
Metal-free class Ie ribonucleotide reductase from pathogens initiates catalysis with a tyrosine-derived dihydroxyphenylalanine radical, E. J. Blaesi, Palowitch, G. M., Hu, K., Kim, A. J., Rose, H. R., Alapati, R., Lougee, M. G., Kim, H. Jong, Taguchi, A. T., Tan, K. Ooi, Laremore, T. N., Griffin, R. G., Krebs, C., Matthes, M. L., Silakov, A., J. Jr., M. Bollinger, Allen, B. D., and Boal, A. K., , Proceedings of the National Academy of Sciences, vol. 115, pp. 10022–10027, 2018.
One-pot solvothermal synthesis of a well-ordered layered sodium aluminoalcoholate complex: a useful precursor for the preparation of porous Al2O3 particles, X. Li, Michaelis, V. K., Ong, T. - C., Smith, S. J., McKay, I., Müller, P., Griffin, R. G., and Wang, E. N., , CrystEngComm, vol. 16, pp. 2950–2958, 2014.
One-pot synthesis of MWW zeolite nanosheets using a rationally designed organic structure-directing agent, H. Y. Luo, Michaelis, V. K., Hodges, S., Griffin, R. G., and Román-Leshkov, Y., , Chem. Sci., vol. 6, pp. 6320–6324, 2015.
Photonic-Band-Gap Traveling-Wave Gyrotron Amplifier, E. A. Nanni, Lewis, S. M., Shapiro, M. A., Griffin, R. G., and Temkin, R. J., , Physical Review Letters, vol. 111, 2013.
Properties of dinitroxides for use in dynamic nuclear polarization (DNP), C. Ysacco, Rizzato, E., Virolleaud, M. - A., Karoui, H., Rockenbauer, A., Le Moigne, F., Siri, D., Ouari, O., Griffin, R. G., and Tordo, P., , Physical Chemistry Chemical Physics, vol. 12, p. 5841, 2010.
Proton assisted recoupling and protein structure determination, G. De Paëpe, Lewandowski, J. R., Loquet, A., Böckmann, A., and Griffin, R. G., , The Journal of Chemical Physics, vol. 129, p. 245101, 2008.
Proton assisted recoupling and protein structure determination, G. De Paëpe, Lewandowski, J. R., Loquet, A., Böckmann, A., and Griffin, R. G., , The Journal of Chemical Physics, vol. 129, p. 245101, 2008.
Proton Assisted Recoupling at High Spinning Frequencies†, J. R. Lewandowski, De Paëpe, G., Eddy, M. T., Struppe, J., Maas, W., and Griffin, R. G., , The Journal of Physical Chemistry B, vol. 113, pp. 9062–9069, 2009.
Proton-Assisted Recoupling (PAR) in Peptides and Proteins, K. J. Donovan, Jain, S. K., Silvers, R., Linse, S., and Griffin, R. G., , The Journal of Physical Chemistry B, vol. 121, pp. 10804-10817, 2017.
Recoupling in solid state NMR using γ prepared states and phase matching, J. Lin, Griffin, R. G., and Khaneja, N., , Journal of Magnetic Resonance, vol. 212, pp. 402–411, 2011.
Resolution and polarization distribution in cryogenic DNP/MAS experiments, A. B. Barnes, Corzilius, B., Mak-Jurkauskas, M. L., Andreas, L. B., Bajaj, V. S., Matsuki, Y., Belenky, M. L., Lugtenburg, J., Sirigiri, J. R., Temkin, R. J., and al., et, , Physical Chemistry Chemical Physics, vol. 12, p. 5861, 2010.
Sensitivity-Enhanced NMR Reveals Alterations in Protein Structure by Cellular Milieus, K.  K. Frederick, Michaelis, V. K., Corzilius, B., Ong, T. - C., Jacavone, A.  C., Griffin, R. G., and Lindquist, S., , Cell, vol. 163, pp. 620–628, 2015.

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