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 |
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51695 | Chemical Shifts: 1 set |
Chemical shift assignment of the intracellular domain of the prolactin receptor, residues 236-396 | The prolactin receptor scaffolds Janus kinase 2 via co-structure formation with phosphoinositide-4,5-bisphosphate | Amalie Petry, Birthe B Kragelund, Gitte W Haxholm, Katrine Bugge, Kresten Lindorff-Larsen, Lise Arleth, Pernille Seiffert, Raul Araya-Secchi, Stine F Pedersen |
31025 | Chemical Shifts: 1 set |
TPX2 Minimal Active Domain on Microtubules | Structural basis of protein condensation on microtubules underlying branching microtubule nucleation | C Guo, C Zhang, R Alfaro-Aco, R Russell, S Petry, T Polenova |
51061 | Chemical Shifts: 1 set |
mMLKL | Membrane permeabilization is mediated by distinct epitopes in mouse and human orthologs of the necroptosis effector, MLKL | Ahmad Wardak, Andre L Samson, Annette V Jacobsen, Ashish Sethi, Cheree Fitzgibbon, Christopher R Horne, Emma J Petrie, James M Murphy, Joanne M Hildebrand, Karyn Wilde, Katherine A Davies, Paul R Gooley, Peter E Czabotar, Sarah E Garnish |
27019 | Chemical Shifts: 1 set |
RXFP2-LDLa-linker-GB1 | The involvement of the LDLa linker in the mode of activation of the GPCR RXFP2 | Ashish Sethi, Daniel Scott, Emma Petrie, Mohammed Akhter Hossain, Nicholas Smith, Paul Gooley, Qing-Ping Wu, Ross Bathgate, Shoni Bruell, Zhan-Yun Guo |
26721 | Chemical Shifts: 1 set |
RXFP1-LDLa linker | Native Chemical Ligation to Minimize Aspartimide Formation during Chemical Synthesis of Small LDLa Protein | Ashish Sethi, Emma J Petrie, J Tailhades, Mohammed A Hossain, Paul R Gooley, R D Wade, Ross AD Bathgate |
19633 | Chemical Shifts: 1 set |
Solution structure of a EF-hand domain from sea urchin polycystin-2 | The number and location of EF hand motifs dictates the calcium dependence of polycystin-2 function. | Andjelka Celic, Barbara E Ehrlich, Camille Keeler, Edward T Petri, Ivana Y Kuo, Michael E Hodsdon, Rachel Corbin |
19283 | Chemical Shifts: 1 set |
Solution NMR structure of the RXFP2 LDLa module | Solution NMR structure of the RXFP2 LDLa module | Emma J Petrie, Paul R Gooley, Ross AD Bathgate |
19200 | Chemical Shifts: 1 set |
RXFP1 utilises hydrophobic moieties on a signalling surface of the LDLa module to mediate receptor activation | The Relaxin Receptor (RXFP1) Utilizes Hydrophobic Moieties on a Signaling Surface of Its N-terminal Low Density Lipoprotein Class A Module to Mediate Receptor Activation. | Biswaranjan Mohanty, Emma J Petrie, Jason Ling, Jeremy CY Lee, Paul R Gooley, Ross AD Bathgate, Roy CK Kong |
18920 | Chemical Shifts: 1 set |
Solution structure of Entamoeba histolytica HP1 chromodomain | Characterization of putative readers of epigenetic methyl-marks from Entamoeba histolytica | Ibne Ali, Kimberly R Wiggins, Nick Sherman, Sepideh Khorasanizadeh, William Petri, Xiaobai Ren |
18268 | Chemical Shifts: 1 set |
Unliganded (apo) C-terminal EF-hand domain from human polycystin-2 | Calcium-induced Conformational Changes in C-terminal Tail of Polycystin-2 Are Necessary for Channel Gating. | Andjelka S Celic, Barbara E Ehrlich, Edward T Petri, Jennifer Benbow, Michael E Hodsdon, Titus J Boggon |
16590 | Chemical Shifts: 1 set |
protein x | Structure of the EF-hand domain of polycystin-2 suggests a mechanism for Ca2+-dependent regulation of polycystin-2 channel activity. | Andjelka Celic, Barbara E Ehrlich, Edward T Petri, Michael E Hodsdon, Scott D Kennedy, Titus J Boggon |
16417 | Binding_constants: 1 set |
An Atomic Resolution Model for Assembly, Architecture, and Function of the Dr Adhesins | An Atomic Resolution Model for Assembly, Architecture, and Function of the Dr Adhsins | Bogdan Nowicki, Chantal Le Bouguenec, David Pettigrew, Ernesto Cota, Ho An Chen, Jason Billington, Kirstine L Anderson, Laurence du Merle, M E Medof, Paul N Barlow, Peter Simpson, Petri Urvil, Pietro Roversi, Richard AG Smith, Stephen Matthews, Susan M Lea |
7425 | Chemical Shifts: 1 set Residual Dipolar Couplings: 1 set |
Solution structure of CaM complexed to DAPk peptide | Accurate Solution Structures of Proteins from X-ray Data and a Minimal Set of NMR Data: Calmodulin-Peptide Complexes As Examples | Claudio Luchinat, Giacomo Parigi, Ivano Bertini, Jing Yuan, Juha Vahokoski, Matthias Wilmanns, Petri Kursula |
15852 | Chemical Shifts: 1 set T1 Relaxation Values: 1 set T2 Relaxation Values: 1 set |
Solution structure of CaM complexed to DAPk peptide | Accurate Solution Structures of Proteins from X-ray Data and a Minimal Set of NMR Data: Calmodulin-Peptide Complexes As Examples | Claudio Luchinat, Giacomo Parigi, Ivano Bertini, Jing Yuan, Juha Vahokoski, Matthias Wilmanns, Petri Kursula |
7423 | Chemical Shifts: 1 set Residual Dipolar Couplings: 1 set |
Solution structure of CaM complexed to DAPk peptide | Accurate Solution Structures of Proteins from X-ray Data and a Minimal Set of NMR Data: Calmodulin-Peptide Complexes As Examples | Claudio Luchinat, Giacomo Parigi, Ivano Bertini, Jing Yuan, Juha Vahokoski, Matthias Wilmanns, Petri Kursula |
7424 | Chemical Shifts: 1 set Residual Dipolar Couplings: 1 set |
Solution structure of CaM complexed to DAPk peptide | Accurate Solution Structures of Proteins from X-ray Data and a Minimal Set of NMR Data: Calmodulin-Peptide Complexes As Examples | Claudio Luchinat, Giacomo Parigi, Ivano Bertini, Jing Yuan, Juha Vahokoski, Matthias Wilmanns, Petri Kursula |
7417 | Chemical Shifts: 1 set Residual Dipolar Couplings: 1 set |
Solution structure of CaM complexed to DRP1p | Accurate solution structures of proteins from X-ray data and a minimal set of NMR data: calmodulin-peptide complexes as examples | Claudio Luchinat, Giacomo Parigi, Ivano Bertini, Jing Yuan, Juha Vahokoski, Petri Kursula |
7418 | Chemical Shifts: 1 set Residual Dipolar Couplings: 1 set |
Solution structure of CaM complexed to DRP1p | Accurate solution structures of proteins from X-ray data and a minimal set of NMR data: calmodulin-peptide complexes as examples | Claudio Luchinat, Giacomo Parigi, Ivano Bertini, Jing Yuan, Juha Vahokoski, Petri Kursula |
15650 | Chemical Shifts: 1 set T1 Relaxation Values: 1 set T2 Relaxation Values: 1 set |
Solution structure of CaM complexed to DRP1p | Accurate solution structures of proteins from X-ray data and a minimal set of NMR data: calmodulin-peptide complexes as examples | Claudio Luchinat, Giacomo Parigi, Ivano Bertini, Jing Yuan, Juha Vahokoski, Petri Kursula |
7416 | Chemical Shifts: 1 set Residual Dipolar Couplings: 1 set |
Solution structure of CaM complexed to DRP1p | Accurate solution structures of proteins from X-ray data and a minimal set of NMR data: calmodulin-peptide complexes as examples | Claudio Luchinat, Giacomo Parigi, Ivano Bertini, Jing Yuan, Juha Vahokoski, Petri Kursula |
15577 | Chemical Shifts: 1 set |
C Repressor | Assignment of 1H, 13C, and 15N chemical shift resonances of P2 C-repressor protein | Elisabeth Haggard-Ljungquist, Evangelos Papadopoulos, Peter Damberg, Petri Henriksson-Peltola, Tariq Massad |