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Biological Magnetic Resonance Data BankA Repository for Data from NMR Spectroscopy on Proteins, Peptides, Nucleic Acids, and other Biomolecules |
Member of
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Entry ID | Data summary | Entry Title | Citation Title | Authors |
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52126 | Chemical Shifts: 2 sets |
8mG4 r(CpG)3 |
Z-Form Adoption of Nucleic Acid is a Multi-Step Process Which Proceeds through a Melted Intermediate
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Andrea MacFadden, Beat Vogeli, Jeffrey B Krall, Morkos A Henen, Parker J Nichols, Quentin Vicens, Robb Welty |
52124 | Chemical Shifts: 1 set |
r(CpG)6 |
Z-Form Adoption of Nucleic Acid is a Multi-Step Process Which Proceeds through a Melted Intermediate
|
Andrea MacFadden, Beat Vogeli, Jeffrey B Krall, Morkos A Henen, Parker J Nichols, Quentin Vicens, Robb Welty |
52125 | Chemical Shifts: 2 sets |
8mG4 d(CpG)3 |
Z-Form Adoption of Nucleic Acid is a Multi-Step Process Which Proceeds through a Melted Intermediate
|
Andrea MacFadden, Beat Vogeli, Jeffrey B Krall, Morkos A Henen, Parker J Nichols, Quentin Vicens, Robb Welty |
52121 | Chemical Shifts: 1 set |
d(CpG)3 |
Z-Form Adoption of Nucleic Acid is a Multi-Step Process Which Proceeds through a Melted Intermediate
|
Andrea MacFadden, Beat Vogeli, Jeffrey B Krall, Morkos A Henen, Parker J Nichols, Quentin Vicens, Robb Welty |
52122 | Chemical Shifts: 1 set |
d(5mCpG)3 |
Z-Form Adoption of Nucleic Acid is a Multi-Step Process Which Proceeds through a Melted Intermediate
|
Andrea MacFadden, Beat Vogeli, Jeffrey B Krall, Morkos A Henen, Parker J Nichols, Quentin Vicens, Robb Welty |
52123 | Chemical Shifts: 1 set |
r(CpG)3 |
Z-Form Adoption of Nucleic Acid is a Multi-Step Process Which Proceeds through a Melted Intermediate
|
Andrea MacFadden, Beat Vogeli, Jeffrey B Krall, Morkos A Henen, Parker J Nichols, Quentin Vicens, Robb Welty |
34433 | Chemical Shifts: 1 set |
Protein allostery of the WW domain at atomic resolution |
Protein Allostery at Atomic Resolution
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B Vogeli, C N Chi, D Ghosh, D Strotz, H Kadavath, J Orts, M Friedmann, P Guntert, R Riek, S Olsson |
30386 | Chemical Shifts: 2 sets Spectral_peak_list: 2 sets |
Two-State 14-mer UUCG Tetraloop calculated from Exact NOEs (State one: Conformers 1-5, State Two: Conformers 6-10) |
High-resolution small RNA structures from exact nuclear Overhauser enhancement measurements without additional restraints
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A Born, B Vogeli, D Strotz, M A Henen, P Guntert, P J Nichols |