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Biological Magnetic Resonance Data BankA Repository for Data from NMR Spectroscopy on Proteins, Peptides, Nucleic Acids, and other Biomolecules |
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| Entry ID | Data summary | Entry Title | Citation Title | Authors |
|---|---|---|---|---|
| 34773 | Chemical Shifts: 1 set Spectral_peak_list: 1 set |
Solution Structure of thanatin-like derivative 5 in complex with E. coli LptA mutant Q62L |
Peptidomimetic antibiotics disrupt the lipopolysaccharide transport bridge of drug-resistant Enterobacteriaceae.
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A Luther, A Wach, C D'Arco, C Li, D Obrecht, E Brabet, F Jung, G Upert, H Locher, K K Oi, K Le Poupon, K Moehle, M Benghezal, M Schuster, N Desjonqueres, O Zerbe, P Motta, P Zbinden, S Dillinger, S DiMaio, S Gable, S Hell, S Stiegeler, T Remus, V Rithie |
| 31017 | Chemical Shifts: 1 set |
NMR solution structure of the De novo designed small beta-barrel protein 29_bp_sh3 |
De novo design of small beta barrel proteins
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A Kang, A K Bera, A Saleem, B F Volkman, C M Chow, D Baker, D E Kim, D Feldman, D R Jensen, D Tischer, F C Peterson, H Nguyen, L Carter, L Milles, S Ovchinnikov, X Li |
| 31018 | Chemical Shifts: 1 set Spectral_peak_list: 3 sets |
NMR solution structure of the De novo designed small beta-barrel protein 33_bp_sh3 |
De novo design of small beta barrel proteins
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A Kang, A K Bera, A Saleem, B F Volkman, C M Chow, D Baker, D E Kim, D Feldman, D R Jensen, D Tischer, F C Peterson, H Nguyen, L Carter, L Milles, S Ovchinnikov, X Li |
| 34720 | Chemical Shifts: 1 set Spectral_peak_list: 1 set |
Solution structure of thanatin-like derivative 4 in complex with E.coli LptA mutant Q62L |
Peptidomimetic antibiotics disrupt the lipopolysaccharide transport bridge of drug-resistant Enterobacteriaceae.
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A Luther, A Wach, C D'Arco, C Li, D Obrecht, E Brabet, F Jung, G Upert, H Locher, K K Oi, K Le Poupon, K Moehle, M Benghezal, M Schuster, N Desjonqueres, O Zerbe, P Motta, P Zbinden, S Dillinger, S DiMaio, S Gable, S Hell, S Stiegeler, T Remus, V Rithie |
| 34719 | Chemical Shifts: 1 set |
Solution structure of the PulM C-terminal domain from Klebsiella oxytoca |
Structure and dynamic association of an assembly platform subcomplex of the bacterial type II secretion system
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A Haouz, A Lopez-Castilla, A Mechaly, B Bardiaux, F Cordier, M Nilges, N Izadi-Pruneyre, O Francetic, R Dazzoni, S Brier, Y Y Li |
| 34716 | Chemical Shifts: 1 set Spectral_peak_list: 1 set |
Solution structure of thanatin-like derivative 7 in complex with K. pneumoniae LptA |
Peptidomimetic antibiotics disrupt the lipopolysaccharide transport bridge of drug-resistant Enterobacteriaceae.
|
A Luther, A Wach, C D'Arco, C Li, D Obrecht, E Brabet, F Jung, G Upert, H Locher, K K Oi, K Le Poupon, K Moehle, M Benghezal, M Schuster, N Desjonqueres, O Zerbe, P Motta, P Zbinden, S Dillinger, S DiMaio, S Gable, S Hell, S Stiegeler, T Remus, V Rithie |
| 34699 | Chemical Shifts: 1 set Spectral_peak_list: 1 set |
Solution structure of thanatin-like derivative 4 in complex with E.coli LptA |
Peptidomimetic antibiotics disrupt the lipopolysaccharide transport bridge of drug-resistant Enterobacteriaceae.
|
A Luther, A Wach, C D'Arco, C Li, D Obrecht, E Brabet, F Jung, G Upert, H Locher, K K Oi, K Le Poupon, K Moehle, M Benghezal, M Schuster, N Desjonqueres, O Zerbe, P Motta, P Zbinden, S Dillinger, S DiMaio, S Gable, S Hell, S Stiegeler, T Remus, V Rithie |
| 50240 | Chemical Shifts: 1 set |
Molecular Basis for the Adaptive Evolution of Environment Sensing by H-NS Proteins |
Molecular basis for the adaptive evolution of environment-sensing by H-NS proteins
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Anand K Radhakrishnan, Chenyi Liao, Franceline Huser, Jacob M Remington, Jianing Li, Lukasz Jaremko, Mariusz Jaremko, Stefan T Arold, Umar F Shahul Hameed, Vladlena Kharchenko, Xiaochuan Zhao |
| 50239 | Chemical Shifts: 1 set |
Molecular Basis for the Adaptive Evolution of Environment Sensing by H-NS Proteins |
Molecular basis for the adaptive evolution of environment-sensing by H-NS proteins
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Anand K Radhakrishnan, Chenyi Liao, Franceline Huser, Jacob M Remington, Jianing Li, Lukasz Jaremko, Mariusz Jaremko, Stefan T Arold, Umar F Shahul Hameed, Vladlena Kharchenko, Xiaochuan Zhao |
| 30493 | Chemical Shifts: 1 set Spectral_peak_list: 4 sets |
Solution NMR Structure of the Colied-coil PALB2 Homodimer |
Antiparallel Coiled-Coil Interactions Mediate Homodimerization of the DNA Damage Repair Protein, PALB2
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B Xia, F Song, G Liu, G T Montelione, G VT Swapna, M Li, N S Daigham, S F Bunting |
| 30308 | Chemical Shifts: 1 set |
NMR structure of the N-domain of troponin C bound to switch region of troponin I and 3-methyldiphenylamine |
Structures reveal details of small molecule binding to cardiac troponin.
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B D Sykes, F Cai, F West, M X Li, P M Hwang, S E Pineda-Sanabria, S Gelozia, S Lindert |
| 30288 | Chemical Shifts: 1 set Spectral_peak_list: 3 sets |
NMR structure of the N-domain of troponin C bound to switch region of troponin I |
Structures reveal details of small molecule binding to cardiac troponin.
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B D Sykes, F Cai, F West, M X Li, P M Hwang, S E Pineda-Sanabria, S Gelozia, S Lindert |
| 25694 | Chemical Shifts: 1 set |
Structure of constitutively monomeric CXCL12 in complex with the CXCR4 N-terminus |
Structure-Based Identification of Novel Ligands Targeting Multiple Sites within a Chemokine-G-Protein-Coupled-Receptor Interface
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Amanda M Nevins, Anthony E Getschman, Brian F Volkman, Emmanuel W Smith, Francis C Peterson, M Trent Kemp, Rongshi Li, Sai L Vankayala, Yan Liu, Yu Chen, Zhen Qiao |
| 25627 | Chemical Shifts: 1 set |
Solution structure of the meiosis-expressed gene 1 (Meig1) |
Dissecting the structural basis of MEIG1 interaction with PACRG
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Darrell Peterson, David C Williams, Jerome F Strauss, Junping Liu, Ling Zhang, Maria E Teves, Ninad M Walavalkar, S Bilinovich, Wei Li, William A Buchwald, Zhibing Zhang |
| 25371 | Chemical Shifts: 1 set |
NMR assignments of a novel lectin from sea mussel Crenomytilus grayanus |
A Multivalent Marine Lectin from Crenomytilus grayanus Possesses Anti-cancer Activity through Recognizing Globotriose Gb3
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Chih-Ta Henry T Chien, Chung-Yi Y Wu, Han-Ying Y Wu, I-Fan F Tu, I-Ming M Lee, Iren Wang, Jiahn-Haur H Liao, Kai-Fa F Huang, Meng-Ru R Ho, Pavel A Lukyanov, Shang-Te Danny T Hsu, Shih-Hsiung H Wu, Wei Li, Yu-Ling L Shih |
| 19979 | Chemical Shifts: 1 set |
Solution structure of B24G insulin |
Protective hinge in insulin opens to enable its receptor engagement
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Brian J Smith, Charles T Roberts, Colin W Ward, Donald F Steiner, Faramarz Ismail-Beigi, John G Menting, Jonathan Whittaker, Julie M Carroll, Linda J Whittaker, Michael A Weiss, Michael C Lawrence, Nalinda P Wickramasinghe, Natalie Strokes, Nelson B Phillips, Satya P Yadav, Shu Jin Chan, Vijay Pandyarajan, Virander S Chauhan, Wieslawa Milewski, Yanwu Yang, Zhu-li Wan |
| 19822 | Chemical Shifts: 1 set |
NMR structure of B25-(alpha, beta)-dehydro-phenylalanine insulin |
Protective hinge in insulin opens to enable its receptor engagement
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Brian J Smith, Charles T Roberts, Colin W Ward, Donald F Steiner, Faramarz Ismail-Beigi, John G Menting, Jonathan Whittaker, Julie M Carroll, Linda J Whittaker, Michael A Weiss, Michael C Lawrence, Nalinda P Wickramasinghe, Natalie Strokes, Nelson B Phillips, Satya P Yadav, ShuJin Chan, Vijay Pandyarajan, Virander S Chauhan, Wieslawa Milewski, Yanwu Yang, Zhu-li Wan |
| 18157 | Chemical Shifts: 1 set |
Backbone 1H, 13C, and 15N Chemical Shift Assignments for the Avirulence homolog-5 |
Structural basis for interactions of the Phytophthora sojae RxLR effector Avh5 with phosphatidylinositol 3-phosphate and for host cell entry.
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Brett M Tyler, Daniel GS Capelluto, Dan Li, Furong Sun, Hugo F Azurmendi, Shiv D Kale |
| 10237 | Chemical Shifts: 1 set |
Solution structure of the chimera of the C-terminal PID domain of Fe65L and the C-terminal tail peptide of APP |
Structure of the C-terminal PID Domain of Fe65L1 Complexed with the Cytoplasmic Tail of APP Reveals a Novel Peptide Binding Mode
|
A Tanaka, F Hayashi, H Li, M Inoue, N Tochio, S Koshiba, S Watanabe, S Yokoyama, T Harada, T Kasai, T Kigawa, T Tomozawa, T Yabuki, Y Hayashizaki, Y Motoda |
| 10239 | Chemical Shifts: 1 set |
Solution structure of the chimera of the C-terminal tail peptide of APP and the C-terminal PID domain of Fe65L |
Structure of the C-terminal PID Domain of Fe65L1 Complexed with the Cytoplasmic Tail of APP Reveals a Novel Peptide Binding Mode
|
A Tanaka, F Hayashi, H Li, M Inoue, N Tochio, S Koshiba, S Watanabe, S Yokoyama, T Harada, T Kasai, T Kigawa, T Tomozawa, T Yabuki, Y Hayashizaki, Y Motoda |
| 10238 | Chemical Shifts: 1 set |
Solution structure of the chimera of the C-terminal tail peptide of APP and the C-terminal PID domain of Fe65L |
Structure of the C-terminal PID Domain of Fe65L1 Complexed with the Cytoplasmic Tail of APP Reveals a Novel Peptide Binding Mode
|
A Tanaka, F Hayashi, H Li, M Inoue, N Tochio, S Koshiba, S Watanabe, S Yokoyama, T Harada, T Kasai, T Kigawa, T Tomozawa, T Yabuki, Y Hayashizaki, Y Motoda |
| 10236 | Chemical Shifts: 1 set |
Structure of the C-terminal PID Domain of Fe65L1 Complexed with the Cytoplasmic Tail of APP Reveals a Novel Peptide Binding Mode |
Structure of the C-terminal PID Domain of Fe65L1 Complexed with the Cytoplasmic Tail of APP Reveals a Novel Peptide Binding Mode
|
A Tanaka, F Hayashi, H Li, M Inoue, N Tochio, S Koshiba, S Watanabe, S Yokoyama, T Harada, T Kasai, T Kigawa, T Tomozawa, T Yabuki, Y Hayashizaki, Y Motoda |
| 10235 | Chemical Shifts: 1 set |
Solution Structure of the C-terminal Phosphotyrosine Interaction Domain of APBB2 from Mouse |
Structure of the C-terminal PID Domain of Fe65L1 Complexed with the Cytoplasmic Tail of APP Reveals a Novel Peptide Binding Mode
|
A Tanaka, F Hayashi, H Li, M Inoue, N Tochio, S Koshiba, S Watanabe, S Yokoyama, T Harada, T Kasai, T Kigawa, T Tomozawa, T Yabuki, Y Hayashizaki, Y Motoda |
| 10131 | Chemical Shifts: 1 set |
Solution Structure of the N-terminal Pleckstrin Homology Domain Of TAPP2 from Mouse |
Solution Structure of the N-terminal Pleckstrin Homology Domain Of TAPP2 from Mouse
|
F Hayashi, H Li, M Inoue, S Koshiba, S Yokoyama, T Kigawa |
| 15195 | Chemical Shifts: 1 set |
Solution Structure of an M-1 Conotoxin with a novel disulfide linkage |
Solution Structure of an M-1 Conotoxin with a novel disulfide linkage
|
C W Chi, F Huang, J Li, W Du, W Fang, Y Han |
| 10042 | Chemical Shifts: 1 set |
Solution Structure of the CS Domain of Human KIAA1068 Protein |
Solution Structure of the CS Domain of Human KIAA1068 Protein
|
F Hayashi, H Li, M Inoue, S Koshiba, S Yokoyama, T Kigawa |
| 7067 | Chemical Shifts: 1 set |
Human Nogo-A functional domain: nogo60 |
Nogo goes in the pure water: solution structure of Nogo-60 and design of the structured and buffer-soluble Nogo-54 for enhancing CNS regeneration
|
J X Liu, J X Song, M F Li |
| 6571 | Chemical Shifts: 1 set |
Chemical Shift Assignments for the theta subunit of DNA polymerase III from E. coli |
Nuclear Magnetic Resonance Solution Structure of the Escherichia coli DNA Polymerase III {theta} Subunit.
|
Dawei Li, Eugene F DeRose, Geoffrey A Mueller, Robert E London, Roel M Schaaper, Thomas W Kirby |
| 5476 | Chemical Shifts: 1 set |
Structures of phage-display peptides that bind to the malarial surface protein, apical membrane antigen 1, and block erythrocyte invasion |
Structures of phage-display peptides that bind to the malarial surface protein, apical membrane antigen 1, and block erythrocyte invasion
|
Andrew M Coley, David W Keizer, Felomena Li, Luke A Miles, Margie Nair, Michael Foley, Raymond S Norton, Robin F Anders |
| 5477 | Chemical Shifts: 1 set |
Structures of phage-display peptides that bind to the malarial surface protein, apical membrane antigen 1, and block erythrocyte invasion |
Structures of phage-display peptides that bind to the malarial surface protein, apical membrane antigen 1, and block erythrocyte invasion
|
Andrew M Coley, David W Keizer, Felomena Li, Luke A Miles, Margie Nair, Michael Foley, Raymond S Norton, Robin F Anders |
| 5478 | Chemical Shifts: 1 set |
Structures of phage-display peptides that bind to the malarial surface protein, apical membrane antigen 1, and block erythrocyte invasion |
Structures of phage-display peptides that bind to the malarial surface protein, apical membrane antigen 1, and block erythrocyte invasion
|
Andrew M Coley, David W Keizer, Felomena Li, Luke A Miles, Margie Nair, Michael Foley, Raymond S Norton, Robin F Anders |
| 5479 | Chemical Shifts: 1 set |
Structures of phage-display peptides that bind to the malarial surface protein, apical membrane antigen 1, and block erythrocyte invasion |
Structures of phage-display peptides that bind to the malarial surface protein, apical membrane antigen 1, and block erythrocyte invasion
|
Andrew M Coley, David W Keizer, Felomena Li, Luke A Miles, Margie Nair, Michael Foley, Raymond S Norton, Robin F Anders |
| 5211 | Chemical Shifts: 2 sets |
SAP/SH2D1A bound to peptide n-Y-c |
A "three-pronged" Binding Mechanism for the SAP/SH2D1A SH2 Domain: Structural Basis and Relevance to the XLP Syndrome
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C Li, C Terhorst, D R Muhandiram, F Gertler, J Forman-Kay, J Lillywhite, L E Kay, M Morra, P M Hwang, S-C Li, T Pawson |
| 5212 | Chemical Shifts: 2 sets |
SAP/SH2D1A bound to peptide n-pY |
A "three-pronged" Binding Mechanism for the SAP/SH2D1A SH2 Domain: Structural Basis and Relevance to the XLP Syndrome
|
C Li, C Terhorst, D R Muhandiram, F Gertler, J Forman-Kay, J Lillywhite, L E Kay, M Morra, P M Hwang, S-C Li, T Pawson |
| bmse500001 | : sets |
Androstenedione |
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A Guo, A M Weljie, B D Sykes, C Fung, C Knox, D Arndt, D Block, D Cheng, D Clive, D D Hau, D S Wishart, D Tzur, F Bamforth, G Amegbey, G D Macinnis, G E Duggan, H J Vogel, I Forsythe, J Miniaci, J Wagner, K Jeroncic, K Jewell, L Li, L Nikolai, L Querengesser, M A Coutouly, M Clements, M Gebremedhin, M Lewis, N Guo, N Young, P Stothard, P Tang, R Dowlatabadi, R Eisner, R Greiner, S Sawhney, S Shrivastava, T Marrie, Y Zhang |