Publications

86. “Comparative analysis of thermal adaptations of extremophilic prolyl oligopeptidases,” Elizabeth M. Diessner, Gemma R. Takahashi, Carter T. Butts*, and Rachel W. Martin* Biophysical Journal accepted (2024).

85. “A practical introduction to radio frequency electronics for NMR probe builders,” Jose L. Uribe and Rachel W. Martin* Journal of Magnetic Resonance 19, 100153 (2024). Available Online.

84. “The functional significance of high cysteine content in eye lens γ-crystallins,” Eugene Serebryany*, Rachel W. Martin* and Gemma R. Takahashi Biomolecules 14 (5) 594 (2024). Available Online.

83. “How scientific illustration impacts understanding and presentation of plant adapta- tions at multiple scales,” Sayeh Dastgheib-Beheshti*, Zane G. Long, Gemma R. Takahashi and Rachel W. Martin* Plant Science Bulletin 70(1) (2024). Special issue: “Art in the Botanical Sciences.” Featured on the cover. Available Online.

82. “Automated test apparatus for bench-testing the magnetic field homogeneity of NMR transceiver coils,” Jose L. Uribe, Matthew D. Jimenez, Jessica I. Kelz, Jeanie Liang, and Rachel W. Martin* Journal of Magnetic Resonance 18, 100142 (2023). Available Online.

81. “Implementation of specifications grading in an upper-division chemical biology lecture,” Jessica I. Kelz, Jose L. Uribe, Mahtab F. Rasekh, Gemma R. Takahashi, Wyeth S. Gibson, Renée D. Link, Kate J. McKnelly, and Rachel W. Martin* The Biophysicist 4(1), 11-29 (2023). Available Online.

80. “Spatially resolved detection of small molecules from press-dried plant tissue using MALDI imaging,” Zane G. Long, Jonathan V. Le, Benjamin B. Katz, Belen G. Lopez, Emily D. Tenenbaum, Bonnie Semmling, Ryan J. Schmidt, Felix Grün, Carter T. Butts, and Rachel W. Martin* Applications in Plant Sciences (2023). Available Online.

79. “Comparative Modeling and Analysis of Extremophilic D-Ala-D-Ala Carboxypeptidases,” Elizabeth M. Diessner, Gemma R. Takahashi, Rachel W. Martin*, and Carter T. Butts* Biomolecules 13(2) 328 (2023). Available Online.

78. “Mutation effects on structure and dynamics: Adaptive evolution of the SARS-CoV-2 main protease,” Elizabeth M. Diessner, Gemma R. Takahashi, Thomas J. Cross, Rachel W. Martin*, and Carter T. Butts* Biochemistry 62(3) 747-758 (2023) . Available Online.

77. “Deamidation of the human eye lens protein γS-crystallin accelerates oxidative aging,” Brenna Norton-Baker, Pedram Mehrabi, Ashley O. Kwok, Kyle W. Roskamp, Megan A. Rocha, Marc A. Sprague-Piercy, David von Stetten, R.J. Dwayne Miller, and Rachel W. Martin* Structure 30(5) 763–776 (2022). Featured on the cover. Available Online.

76. “Active-learning module for protein structure analysis using novel enzymes,” Jessica I. Kelz, Gemma R. Takahashi, Fatemeh Safizadeh, Vesta Farahmand, Marquise G. Crosby, Jose L. Uribe, Suhn H. Kim, Marc A. Sprague-Piercy, Elizabeth M. Diessner, Brenna Norton- Baker, Steven M. Damo, Rachel W. Martin,* and Pavan Kadandale* The Biophysicist 3 (1) (2022). DOI: 10.35459/tbp.2021.000209 Available Online.

75. “Human γS-crystallin resists unfolding despite extensive chemical modification from exposure to ionizing radiation,” Brenna Norton-Baker, Megan A. Rocha, Jessica Granger- Jones, Dmitry A. Fishman, and Rachel W. Martin* Journal of Physical Chemistry B 126 (3) 679-690 (2022). Available Online.

74. “Neural upscaling from residue-level protein structure networks to atomistic structures,” Vy T. Duong, Elizabeth M. Diessner, Rachel W. Martin,* and Carter T. Butts* Biomolecules 11 (12) 1788 (2021) Available Online.

73. “Bayesian estimation of the hydroxyl radical diffusion coefficient at low temperature and high pressure from atomistic molecular dynamics,” Carter T. Butts* and Rachel W. Martin** Journal of Chemical Physics 155, 194504 (2021). Available Online.

72. “Bayesian analysis of static light scattering data for globular proteins,” Fan Yin, Domarin Khago, Rachel W. Martin, and Carter T. Butts* PLOS ONE 16 (10) e0258429 (2021). Available Online.

71. “Rapid chemically selective 3D imaging in the mid-infrared,” Eric O. Potma*, David Knez, Yong Chen, Yulia Davydova, Amanda Durkin, Alexander Fast, Mihaela Balu, Brenna Norton-Baker, Rachel W. Martin, Tommaso Baldacchini, and Dmitry A. Fishman* Optica 8 (7) 995–1002 (2021). Available Online.

70. “A simple vapor-diffusion method enables protein crystallization inside the HARE se- rial crystallography chip,” Brenna Norton-Baker, Pedram Mehrabi, Juliane Boger, Robert Sch ̈onherr, David von Stetten, Hendrik Schikora, Ashley O. Kwok, Rachel W. Martin, R.J. Dwayne Miller, Lars Redecke, and Eike C. Schulz* Acta Crystallographica Section D D77 (6) 820-834 (2021). Available Online.

69. “Large-Scale recombinant production of the SARS-CoV-2 proteome for high-throughput and structural biology applications,” Nadide Altincekic, Sophie Marianne Korn, Nusrat Shahin Qureshi, Marie Dujardin, Mart Ninot-Pedrosa, Rupert Abele, Marie Jose Abi Saad, Caterina Alfano, Fabio C. L. Almeida, Islam Alshamleh, Gisele Cardoso de Amorim, Thomas K. Anderson, Cristiane D. Anobom, Chelsea Anorma, Jasleen Kaur Bains, Adriaan Bax, Martin Blackledge, Julius Blechar, Anja B ̈ockmann, Louis Brigandat, Anna Bula, Matthias Bu ̈tikofer, Aldo R. Camacho-Zarco, Teresa Carlomagno, Icaro Putinhon Caruso, Betu ̈l Cey- lan, Apirat Chaikuad, Feixia Chu, Laura Cole, Marquise G. Crosby, Vanessa de Jesus, Karthikeyan Dhamotharan, Isabella C. Felli, Jan Ferner, Yanick Fleischmann, Marie-Laure Fogeron, Nikolaos K. Fourkiotis, Christin Fuks, Boris Fu ̈rtig, Angelo Gallo, Santosh L. Gande, Juan Atilio Gerez, Dhiman Ghosh, Francisco Gomes-Neto, Oksana Gorbatyuk, Serafima Gu- seva, Carolin Hacker, Sabine H ̈afner, Bing Hao, Bruno Hargittay, K. Henzler-Wildman, Jeffrey C. Hoch, Katharina F. Hohmann, Marie T. Hutchison, Kristaps Jaudzems, Katarina Jovi, Janina Kaderli, Gints Kalnin ̧ˇs, Iveta Kan ̧epe, Robert N. Kirchdoerfer, John Kirkpatrick, Ste- fan Knapp, Robin Krishnathas, Felicitas Kutz, Susanne zur Lage, Roderick Lambertz, Andras Lang, Douglas Laurents, Lauriane Lecoq, Verena Linhard, Frank L ̈ohr, Anas Malki, Luiza Mamigonian Bessa, Rachel W. Martin, Tobias Matzel, Damien Maurin, Seth W. McNutt, Nathane Cunha Mebus-Antunes, Beat H. Meier, Nathalie Meiser, Miguel Mompe ́an, Elisa Monaca, Roland Montserret, Laura Mario Perez, Celine Moser, Claudia Muhle-Goll, Tha ́ıs Cristtina Neves-Martins, Xiamonin Ni, Brenna Norton-Baker, Roberta Pierattelli, Letizia Pontoriero, Yulia Pustovalova, Oliver Ohlenschl ̈ager, Julien Orts, Andrea T. Da Poian, Den- nis J. Pyper, Christian Richter, Roland Riek, Chad M. Rienstra, Angus Robertson, Anderson S. Pinheiro, Raffaele Sabbatella, Nicola Salvi, Krishna Saxena, Linda Schulte, Marco Schi- avina, Harald Schwalbe, Mara Silber, Marcius da Silva Almeida, Marc A. Sprague-Piercy, Georgios A. Spyroulias, Sridhar Sreeramulu, Jan-Niklas Tants, Kaspars Ta ̄rs, Felix Torres, Sabrina T ̈ows, Miguel . Treviin ̃o, Sven Trucks, Aikaterini C. Tsika, Krisztina Varga, Ying Wang, Marco E. Weber, Julia E. Weigand, Christoph Wiedemann, Julia Wirmer-Bartoschek, Maria Alexandra Wirtz Martin, Johannes Zehnder, Martin Hengesbach*, Andreas Schlundt* Frontiers in Molecular Biosciences 8 Article 653148 (2021). Available Online.

68. “Reimagining magnetic resonance instrumentation using open maker tools and hardware as protocol,” Jessica I. Kelz, Jose L. Uribe, and Rachel W. Martin* Journal of Magnetic Resonance Open 6-7, 100011 (2021). Available Online.

67. “Chemical properties determine solubility and stability in βγ-crystallins of the eye lens,” Megan A. Rocha, Marc A. Sprague-Piercy, Ashley O. Kwok, Kyle W. Roskamp, and Rachel W. Martin* ChemBioChem 22, 1329-1346  (2021). Available Online.

66. “α-Crystallins in the vertebrate eye lens: Complex oligomers and molecular chaperones,” Marc A. Sprague-Piercy, Megan A. Rocha, Ashley O. Kwok, and R.W. Martin* Annual Review of Physical Chemistry 72, 6.1–6.21 (2020). DOI: 10.1146/annurev-physchem-090419-121428. Available Online.

65. “Sequence characterization and molecular modeling of clinically relevant variants of the SARS-CoV-2 main protease,” Thomas J. Cross, Gemma R. Takahashi, Elizabeth Diessner, Marquise G. Crosby, Vesta Farahmand, Shannon Zhuang, Carter T. Butts,* and R.W. Martin*  Biochemistry 59, 39, 3741–3756 (2020). Available Online. 

64. “Network Hamiltonian models reveal pathways to amyloid fibril formation,” Yue Yu, Gianmarc Grazioli, Megha H. Unhelkar, Rachel W. Martin, and Carter T. Butts* Scientific Reports 10, 15668 (2020). Available Online. 

63. “The Droserasin 1 PSI: A Membrane-Interacting Antimicrobial Peptide from the Carnivorous Plant Drosera capensis,” Marc A. Sprague-Piercy, Jan C. Bierma, Marquise G. Crosby, Brooke P. Carpenter, Gemma R. Takahashi, Joana Paulino, Ivan Hung, Rongfu Zhang, John E. Kelly, Natalia Kozlyuk, Xi Chen, Carter T. Butts, and Rachel W. Martin* Biomolecules 10, 1069 (2020). Available Online.

62. “Human gamma S-crystallin copper binding helps buffer against aggregation caused by oxidative damage,” Kyle W. Roskamp, Sana Azim, Guther Kassier, Brenna Norton-Baker, Marc A. Sprague-Piercy, R.J. Dwayne Miller,  and R.W. Martin* Biochemistry 59, 25, 2371–2385 (2020). Available Online.

61.  “Function and aggregation in structural eye lens crystallins”,  Kyle W. Roskamp, Carolyn N. Paulson, William D. Brubaker, and R.W. Martin*   Accounts of Chemical Research 53, 4, 863–874 (2020). Available Online. 

60. “An in silico approach to protease discovery,” P. Kadandale , M. Sprague-Piercy, and R. W. Martin* Article 10 In: McMahon K, editor. Advances in Biology Laboratory Education. Volume 41. Publication of the 41st Conference of the Association for Biology Laboratory Education (ABLE) (2020). Available Online. 

59. “Human αB-crystallin discriminates between aggregation-prone and function-preserving variants of a client protein,” Marc A Sprague-Piercy, Eric Wong, Kyle W Roskamp, Joseph N Fakhoury, J Alfredo Freites, Douglas J Tobias, Rachel W Martin* Biochimica et Biophysica Acta (BBA)-General Subjects 1864 129502 (2020). Available Online.

58. “Divalent cations and the divergence of βγ-crystallin function,” Kyle W. Roskamp, Natalia Kozlyuk, Suvrajit Sengupta, and R.W. Martin* Biochemistry58 4505-4518 (2019). Available Online.

57. “3D printed dissolvable inserts for efficient and customizable fabrication of NMR transceiver coils,” Jessica I. Kelz, John E. Kelly, and R.W. Martin* Journal of Magnetic Resonance 305 89-92 (2019). Available Online.

56. “Comparative exploratory analysis of intrinsically disordered protein dynamics using machine learning and network analytic methods,” Gianmarc Grazioli, R.W. Martin, and Carter T. Butts* Frontiers in Molecular Biosciences 6 42 (2019). Available Online.

55. “Network-based classification and modeling of amyloid fibrils,” Gianmarc Grazioli, Yue Yu, Megha H. Unhelkar, R.W. Martin, and Carter T. Butts* The Journal of Physical Chemistry B 123 (26) 5452-5462 (2019). Available Online.

54. “Advances in instrumentation and methodology for solid-state NMR of biological assemblies,” R.W. Martin*, John E. Kelly, and Jessica I. Kelz Journal of Structural Biology 206 73-89 (2019). This article is part of the Special Issue on Solid-State NMR of Biomolecular Assemblies. Available Online.

53. “Protein structure networks provide insight into active site flexibility in esterase/lipases from the carnivorous plant Drosera capensis,” Vy T. Duong, Megha H. Unhelkar, John E. Kelly, Suhn H. Kim, Carter T. Butts*, and R.W. Martin* Integrative Biology 10 768-779 (2018). Available Online.

52. “Controlling liquid-liquid phase separation in cold-adapted crystallin proteins from the Antarctic toothfish,” Jan C. Bierma, Kyle W. Roskamp, Aaron P. Ledray, Andor J. Kiss*, C.-H. Christina Cheng, and R.W. Martin* Journal of Molecular Biology 430 (24); 5151-5168 (2018). Available Online.

51. “Protein refractive index increment is determined by conformation as well as composition,” Domarin Khago, Jan C. Bierma, Kyle W. Roskamp, Natalia Kozlyuk, and R.W. Martin* Journal of Physics: Condensed Matter 30 (43); 435101 (2018). Available Online.

50. “Evolutionary and structural analyses uncover a role for solvent interactions in the diversification of cocoonases in butterflies,'” Gilbert Smith, John E. Kelly, Aide Macias-Muñoz, Carter T. Butts, R. W. Martin, and A. D. Briscoe* Proceedings of the Royal Society B 285; (1870); (2018). Available Online.

49. “Design and construction of a quadruple-resonance MAS NMR probe for investigation of extensively deuterated biomolecules,”  Kelsey A. Collier, Suvrajit Sengupta, Catalina A. Espinosa, John E. Kelly,  Jessica I. Kelz, and R.W. Martin* Journal of Magnetic Resonance 285; 8-17 (2017). Available Online.

48. “Kinetics of Trifluoromethane Clathrate Hydrate Formation from CHF3 Gas and Ice Particles,” Jaruwan Amtawong, Michael T. Nguyen, Nicole C. Carrejo, Jin Guo, Suvrajit Sengupta, Everly B. Fleischer, R.W. Martin, and Kenneth C. Janda* The Journal of Physical Chemistry A 121 (38); 7089-7098 (2017) Available Online

47. “Multiple aggregation pathways in human yS-crystallin and its aggregation prone G18V-variant,”  Kyle W. Roskamp, David M. Montelongo, Chelsea D. Anorma, Diana N. Bandak, Janine A. Chua, Kurtis T. Malechaand R.W. Martin Investigative Ophthalmology & Visual Science 58; 2397-2405 (2017). Available Online

46. “Structure prediction and network analysis of chitinases from the Cape sundew, Drosera capensis,” Megha H. Unhelkar, Vy T. Duong, Kaosoluchi N. Enendu, John E. Kelly, Seemal Tahir, Carter T. Butts*. and R.W. Martin* Biochimica et Biophysica Acta – General Subjects 1861 (3); 636-643 (2017). Available Online

45. “Cyclizing Pentapeptides: Mechanism and Application of Dehydrophenylanine as a Traceless Turn-Inducer,” Diane N. Le, Jan Riedel, Natalia Kozlyuk, Rachel W. Martin, and Vy M. Dong* Organic Letters 19 (1); 114-117  (2017). Available Online

44. “Calcium binding dramatically stabilizes an ancestral crystallin fold in tunicate βγ-crystallin,” Natalia Kozlyuk, Suvrajit Sengupta, Jan C. Bierma, and R.W. Martin* Biochemistry (2016). Available online

43. “Sequence comparison, molecular modeling, and network analysis predict structural diversity in cysteine proteases from the Cape sundew, Drosera capensis,”  Carter T. Butts*, Xuhong Zhang, John E. Kelly, Kyle W. Roskamp, Megha H. Unhelkar, J. Alfredo Freites, Seemal Tahir and R.W. Martin* Computational and Structural Biotechnology Journal (2016). Available online

42. “Novel proteases from the genome of the carnivorous plant Drosera capensis: structural prediction and comparative analysis,” Carter T. Butts*, Jan C. Bierma, and Rachel W. Martin*.  Proteins: Structure, Function, and Bioinformatics (2016). (Featured on the coverAvailable online

41. “Propane clathrate hydrate formation accelerated by methanol,” Jaruwan Amtawong, Jin Guo, Jared S. Hale, Suvrajit Sengupta, Everly B. Fleischer, Rachel W. Martin, and Kenneth C. Janda* The Journal of Physical Chemistry Letters 7; 2346-2349 (2016). Available online

40. “In situ NMR measurement of free divalent ion concentrations for molecular and structural studies,” Natalia Kozlyuk, Suvrajit Sengupta, Andrej Luptak*, and Rachel W. Martin* Journal of Biomolecular NMR (2016). Available online

39. “Multi-conformation Monte Carlo: A method for introducing flexibility in efficient simulations of many-protein systems,” Vera Prytkova, Matthias Heyden, Domarin Khago, J. Alfredo Freites, Carter T. Butts, Rachel W. Martin, and Douglas J. Tobias* The Journal of Physical Chemistry B (2016). Available online

38. “Stability of protein-specific hydration shell on crowding,” Kuo-Ying Huang, Carolyn N. Kingsley, Ryan Sheil, Chi- Yuan Cheng, Jan C. Bierma, Kyle W. Roskamp, Domarin Khago, Rachel W. Martin*, and Songi Han* Journal of the American Chemical Society (2016). Available online

37. “Gas flow rate and temperature dependence of the kinetics of difluoromethane clathrate formation from CF2H2 gas and ice particles,” Michael T. Nguyen, Jaruwan Amtawong, Karena Smoll, Andrew Chanez, Michael Yamano, Gia-Bao Hoang Dinh, Suvrajit Sengupta, Rachel W. Martin and Kenneth C. Janda*  The Journal of Physical Chemistry C (2016). Available online

36. “Increased exposure of hydrophobic surfaces in the cataract-related G18V variant of human γS-crystallin,” Domarin Khago, Eric Wong, Carolyn N. Kingsley, J. Alfredo Freites, Douglas J. Tobias*, and Rachel W. Martin*  Biochimica et Biophysica Acta 1860 (1), 325-332  (2016). Special issue entitled “Crystallin Biochemistry in Health and Disease.” Available online

35. “Exploring dynamics and cage-guest interactions in clathrate hydrates using solid-state NMR,” Suvrajit Sengupta, Jin Guo, Kenneth C. Janda, and Rachel W. Martin*. The Journal of Physical Chemistry B  119 (50), 15485-15492  (2015). Available online

34. “Spatial reorientation experiments for NMR of solids and partially oriented liquids,”  Rachel W. Martin,* John E. Kelly, and Kelsey A. Collier.  Progress in Nuclear Magnetic Resonance Spectroscopy 90-91 92-122 (2015). Available online

33. “The γS-crystallin Proteins From the Antarctic Nototheniid Toothfish: a Model System for Investigating Differential Resistance to Chemical and Thermal Denaturation.” Kingsley, C. N., Bierma, J. C., Pham, V., Martin, R. W. The Journal of Physical Chemistry B. 118; (47), 13544-53 (2014). Available online

32. “NMR studies of eye lens crystallins.” Martin, R. W. (2014). In R. K. Harris, R. Wasylishen (Eds.), eMagRes (Encyclopedia of NMR). Southern Gate, Chichester, West Sussex, PO19 8SQ, United Kingdom. John Wiley & Sons, Ltd. Available online

31. “Preferential and specific binding of human αB-crystallin to a cataract-related variant of γS-crystallin” Kingsley, C. N., Brubaker, W. D., Markovic, S., Diehl, A., Brindley, A. J., Oschkinat, H., Martin, R. W. (2013). Structure, 12(12), 2221-2227. (Featured on the coverAvailable online

30. “Exploring the aggregation propensity of γS-crystallin variants using two-dimensional spectroscopic tools,” Jun Jiang, Kory J. Golchert, Carolyn N. Kingsley, William D. Brubaker, R.W. Martin*, and Shaul Mukamel* Journal of Physical Chemistry B, 117; (46), 14294-14301 (2013). Available online

29. “Improving the double quantum filtered COSY experiment by ”Moving Tube NMR,” Kevin J Donovan, Mary A. Allen, R.W. Martin and A.J. Shaka* Journal of Magnetic Resonance, 219; 41-45 (2012).(Featured on the cover). Available online

28. “Effect of divalent cations on DMPC/DHPC bicelle formation and alignment,” Amanda J. Brindley and R.W. Martin* Langmuir, 28; 7788–7796 (2012). Available online

27. “Probing motional behavior of eumelanin and pheomelanin by solid-state NMR: new insights into the pigment properties,” Pierre Thureau, Fabio Ziarelli, Andre Thevand, R.W. Martin, Patrick J. Farmer, Stephane Viel and Giulia Mollica* Chemistry – A European Journal, 18; 10689-10700 (2012). Available online

26. “1H, 13C, and 15N assignments of wild-type human γS-crystallin and its cataract-related variant γS-G18V,” William D. Brubaker and R.W. Martin* Biomolecular NMR Assignments, 6; 63-67 (2011). Available online

25. “Modulation of cross polarization in motionally averaged solids by Variable Angle Spin- ning NMR,” Catalina A. Espinosa, Pierre Thureau, Rebecca A. Shapiro, Ilya M. Litvak, and R.W. Martin* Chemical Physics Letters, 508; 314-319 (2011). Available online

24. “Separating instability from aggregation propensity in γS-crystallin variants,” William D. Brubaker, J. Alfredo Freites, Kory J. Golchert, Rebecca A. Shapiro, Vasilios Morikis, Douglas J. Tobias, and R.W. Martin* Biophysical Journal, 100; 498-506 (2011). Available online

23. “Polarization transfer solid-state NMR for studying amphiphiles in coexisting solid and liquid crystalline phases,” Agnieszka Nowacka, Parveen Mohr, Jens Norrman, R.W. Martin and Daniel Topgaard* Langmuir, 26; 16848–16856 (2010). Available online

22. “Pneumatic switched angle spinning NMR probe with capacitively coupled double saddle coil, I.M. Litvak, C.A. Espinosa, R.A. Shapiro, A.N. Oldham, V.V. Duong, and R.W. Martin* Journal of Magnetic Resonance, 206; 183-189 (2010). (Featured on the cover) Available online

21. “Thermal stabilization of DMPC/DHPC bicelles by addition of cholesterol sulfate, R.A. Shapiro, A.J. Brindley, and R.W. Martin* Journal of the American Chemical Society, 132; 11406-11407 (2010). Available online

20. “Shimmed matching pulses: Simultaneous control of rf and static gradients for inhomogeneity correction, J.M. Franck, V.Demas, R.W. Martin, L.S. Bouchard, and A. Pines* Journal of Chemical Physics, 131; Article number 234506 (2009). Available online

19. “Ex situ’ magnetic resonance volume imaging.” Vasiliki Demas*, John M. Franck,Louis S. Bouchard, Dimitris Sakellariou, Carlos A. Meriles, Rachel Martin, Pablo J. Prado, Alejandro Bussandri, Jeffrey A. Reimer, and Alex Pines Chemical Physics Letters,  467;4-6 (2009) . Available online

18. “Sensitive, quantitative carbon-13 NMR spectra by mechanical sample translation, K.J. Donovan, M.A. Allen, R.W. Martin, and AJ Shaka* Journal of Magnetic Resonance, 197; 237-241 (2009). Available online

17. “Segmental order parameters in a nonionic surfactant lamellar phase studied with 1H −13 C solid-state NMR, T. M. Ferreira, B. Medronho, R.W. Martin, and D. Topgaard* Physical Chemistry, Chemical Physics, 10; 6033-6038 (2008). Available online

16. “Variable Angle Spinning (VAS) experiments for strongly oriented systems: methods development and preliminary results.” C. Qian, P. Thureau, and R.W. Martin* Magnetic Resonance in Chemistry, 46; 351-355 (2008). Available online

15. “Design and construction of a contactless mobile RF coil for double resonance Variable Angle Spinning NMR.” C. Qian, A. Pines, and R.W. Martin* Journal of Magnetic Resonance, 188; 183-189. (2007). Featured on the cover. Available online

14. “Multipole shimming of permanent magnets using harmonic corrector rings.” R. C. Jachmann, D. R. Trease, L.-S. Bouchard, D. Sakellariou, R. W. Martin, R.D. Schlueter, T. F. Budinger, and A. Pines* Review of Scientific Instruments, 78; 035115 (2007). Available online

13. “High-resolution NMR spectroscopy of biological tissues using projected magic angle spinning.” R. W. Martin, R. C. Jachmann, D. Sakellariou, U. G. Nielsen, and A. Pines* Magnetic Resonance in Medicine, 54; 253-257 (2005). Available online

12. “NMR in rotating magnetic fields: Magic angle field spinning.” D. Sakellariou, C. A. Meriles, R. W. Martin, and A. Pines* Magnetic Resonance Imaging, 23 (2); 295-299 (2005). Available online

11. “’Shim pulses’ for NMR spectroscopy and imaging”’. D. Topgaard, R. W. Martin, D. Sakellariou, C. A. Meriles, and A. Pines* Proceedings of the National Academy of Sciences of the United States of America, 101; (51); 17576-17581 (2004). Available online

10. “Cross-polarization, radio-frequency field homogeneity, and circuit balancing in high- field solid-state NMR probes.” E. K. Paulson, R. W. Martin, and K. W. Zilm* Journal of Magnetic Resonance, 171; 314-323 (2004). Available online

9. “Variable angle spinning (VAS) NMR study of solvent effects in liquid crystalline solutions of 13C-iodomethane. ” G. H. J. Park, R. W. Martin, D. Sakellariou, A. Pines, A. G. Shahkhatuni, A. A. Shakhatuni, and H. A. Panosyan* Chemical Physics Letters, 399; 196-199 (2004). Available online

8. “NMR studies of molecular mobility in a DNA-amphiphile complex”. C. Leal, D. Topgaard, R. W. Martin, and H. Wennerstrom* Journal of Physical Chemistry B, 108; 15392-15397 (2004). Available online

7. “NMR studies of 13C-iodomethane: Different behavior in thermotropic and lyotropic liquid crystals.” A. G. Shahkhatuni, A. A. Shakhatuni, H. A. Panosyan, G. H. J. Park, R. W. Martin, and A. Pines* Journal of Physical Chemistry A, 108 (33); 6809-6813 (2004). Available online

6. “Assignments of carbon NMR resonances for microcrystalline ubiquitin.” T. I. Igumenova, A. E. McDermott, K. W. Zilm, R. W. Martin, E. K. Paulson, and A. J. Wand* Journal of the American Chemical Society, 126 (21); 6720-6727 (2004). Available online

5. “Variable temperature system using vortex tube cooling and fiber optic temperature sensor for low temperature magic angle spinning NMR.” R. W. Martin and K. W. Zilm* Journal of Magnetic Resonance, 168; 202-209 (2004). Available online

4. “High-resolution NMR of anisotropic samples with spinning away from the magic angle.” D. Sakellariou., C. A. Meriles, R. W. Martin, and A. Pines* Chemical Physics Letters, 377; 333-339 (2003). Available online

3. “Preparation of protein nanocrystals and their characterization by solid-state NMR.” R. W. Martin and K. W. Zilm* Journal of Magnetic Resonance, 165; 162-174 (2003). Available online

2. “Design of a triple resonance magic angle sample spinning probe for high field solid-state nuclear magnetic resonance.” R. W. Martin, E. K. Paulson, and K. W. Zilm* Review of Scientific Instruments, 74 (6); 3045-3061 (2003). Available online

1. “Partial NMR assignments for uniformly (13C-15N)-enriched BPTI in the solid state.” A. McDermott, T. Polenova, A. Bockmann, K. W. Zilm, E. K. Paulson, R. W. Martin, and G. T. Montelione* Journal of Biomolecular NMR, 16; 209-219 (2000). Available online