BMRB

Biological Magnetic Resonance Data Bank


A Repository for Data from NMR Spectroscopy on Proteins, Peptides, Nucleic Acids, and other Biomolecules 		Member of WWPDB

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Entry ID Data summary Entry Title Citation Title Authors
6678 Chemical Shifts: 1 set
 15N hyperfine shifts assignment for rubredoxin (V44L) from Clostridium pasteurianum in the reduced state Changes in hydrogen-bond strengths explain reduction potentials in 10 rubredoxin variants. Download bibtex for citation iamge Erika Gebel, I-Jin Lin, John L Markley, Timothy Machonkin, William Westler
6659 Chemical Shifts: 1 set
 15N hyperfine shifts assignment for wild-type rubredoxin from Clostridium pasteurianum in the oxidized state Changes in hydrogen-bond strengths explain reduction potentials in 10 rubredoxin variants. Download bibtex for citation iamge Erika Gebel, I-Jin Lin, John L Markley, Timothy Machonkin, William Westler
6660 Chemical Shifts: 1 set
 15N hyperfine shifts assignment for rubredoxin (V8A) from Clostridium pasteurianum in the oxidized state Changes in hydrogen-bond strengths explain reduction potentials in 10 rubredoxin variants. Download bibtex for citation iamge Erika Gebel, I-Jin Lin, John L Markley, Timothy Machonkin, William Westler
6661 Chemical Shifts: 1 set
 15N hyperfine shifts assignment for rubredoxin (V8A) from Clostridium pasteurianum in the reduced state Changes in hydrogen-bond strengths explain reduction potentials in 10 rubredoxin variants. Download bibtex for citation iamge Erika Gebel, I-Jin Lin, John L Markley, Timothy Machonkin, William Westler
6662 Chemical Shifts: 1 set
 15N hyperfine shifts assignment for wild-type rubredoxin from Clostridium pasteurianum in the reduced state Changes in hydrogen-bond strengths explain reduction potentials in 10 rubredoxin variants. Download bibtex for citation iamge Erika Gebel, I-Jin Lin, John L Markley, Timothy Machonkin, William Westler
6663 Chemical Shifts: 1 set
 15N hyperfine shifts assignment for rubredoxin (V8G)from Clostridium pasteurianum in the oxidized state Changes in hydrogen-bond strengths explain reduction potentials in 10 rubredoxin variants. Download bibtex for citation iamge Erika Gebel, I-Jin Lin, John L Markley, Timothy Machonkin, William Westler
6664 Chemical Shifts: 1 set
 15N hyperfine shifts assignment for rubredoxin (V8G)from Clostridium pasteurianum in the reduced state Changes in hydrogen-bond strengths explain reduction potentials in 10 rubredoxin variants. Download bibtex for citation iamge Erika Gebel, I-Jin Lin, John L Markley, Timothy Machonkin, William Westler
6665 Chemical Shifts: 1 set
 15N hyperfine shifts assignment for rubredoxin (V8G/V44G) from Clostridium pasteurianum in the oxidized state Changes in hydrogen-bond strengths explain reduction potentials in 10 rubredoxin variants. Download bibtex for citation iamge Erika Gebel, I-Jin Lin, John L Markley, Timothy Machonkin, William Westler
6666 Chemical Shifts: 1 set
 15N hyperfine shifts assignment for rubredoxin (V8G/V44G) from Clostridium pasteurianum in the reduced state Changes in hydrogen-bond strengths explain reduction potentials in 10 rubredoxin variants. Download bibtex for citation iamge Erika Gebel, I-Jin Lin, John L Markley, Timothy Machonkin, William Westler
6667 Chemical Shifts: 1 set
 15N hyperfine shifts assignment for rubredoxin (V8I) from Clostridium pasteurianum in the oxidized state Changes in hydrogen-bond strengths explain reduction potentials in 10 rubredoxin variants. Download bibtex for citation iamge Erika Gebel, I-Jin Lin, John L Markley, Timothy Machonkin, William Westler
6668 Chemical Shifts: 1 set
 15N hyperfine shifts assignment for rubredoxin (V8I) from Clostridium pasteurianum in the oxidized state Changes in hydrogen-bond strengths explain reduction potentials in 10 rubredoxin variants. Download bibtex for citation iamge Erika Gebel, I-Jin Lin, John L Markley, Timothy Machonkin, William Westler
6669 Chemical Shifts: 1 set
 15N hyperfine shifts assignment for rubredoxin (V8L) from Clostridium pasteurianum in the oxidized state Changes in hydrogen-bond strengths explain reduction potentials in 10 rubredoxin variants. Download bibtex for citation iamge Erika Gebel, I-Jin Lin, John L Markley, Timothy Machonkin, William Westler
6670 Chemical Shifts: 1 set
 15N hyperfine shifts assignment for rubredoxin (V8L) from Clostridium pasteurianum in the reduced state Changes in hydrogen-bond strengths explain reduction potentials in 10 rubredoxin variants. Download bibtex for citation iamge Erika Gebel, I-Jin Lin, John L Markley, Timothy Machonkin, William Westler
6671 Chemical Shifts: 1 set
 15N hyperfine shifts assignment for rubredoxin (V44A) from Clostridium pasteurianum in the oxidized state Changes in hydrogen-bond strengths explain reduction potentials in 10 rubredoxin variants. Download bibtex for citation iamge Erika Gebel, I-Jin Lin, John L Markley, Timothy Machonkin, William Westler
6672 Chemical Shifts: 1 set
 15N hyperfine shifts assignment for rubredoxin (V44A) from Clostridium pasteurianum in the reduced state Changes in hydrogen-bond strengths explain reduction potentials in 10 rubredoxin variants. Download bibtex for citation iamge Erika Gebel, I-Jin Lin, John L Markley, Timothy Machonkin, William Westler
6673 Chemical Shifts: 1 set
 15N hyperfine shifts assignment for rubredoxin (V44G)from Clostridium pasteurianum in the oxidized state Changes in hydrogen-bond strengths explain reduction potentials in 10 rubredoxin variants. Download bibtex for citation iamge Erika Gebel, I-Jin Lin, John L Markley, Timothy Machonkin, William Westler
6674 Chemical Shifts: 1 set
 15N hyperfine shifts assignment for rubredoxin (V44G)from Clostridium pasteurianum in the reduced state Changes in hydrogen-bond strengths explain reduction potentials in 10 rubredoxin variants. Download bibtex for citation iamge Erika Gebel, I-Jin Lin, John L Markley, Timothy Machonkin, William Westler
6675 Chemical Shifts: 1 set
 15N hyperfine shifts assignment for rubredoxin (V44I)from Clostridium pasteurianum in the oxidized state Changes in hydrogen-bond strengths explain reduction potentials in 10 rubredoxin variants. Download bibtex for citation iamge Erika Gebel, I-Jin Lin, John L Markley, Timothy Machonkin, William Westler
6676 Chemical Shifts: 1 set
 15N hyperfine shifts assignment for rubredoxin (V44I)from Clostridium pasteurianum in the reduced state Changes in hydrogen-bond strengths explain reduction potentials in 10 rubredoxin variants. Download bibtex for citation iamge Erika Gebel, I-Jin Lin, John L Markley, Timothy Machonkin, William Westler
6677 Chemical Shifts: 1 set
 15N hyperfine shifts assignment for rubredoxin (V44L) from Clostridium pasteurianum in the oxidized state Changes in hydrogen-bond strengths explain reduction potentials in 10 rubredoxin variants. Download bibtex for citation iamge Erika Gebel, I-Jin Lin, John L Markley, Timothy Machonkin, William Westler
6026 Chemical Shifts: 1 set
 Chemical Shift Assignments for Oxidized Human Ferredoxin Strategy for the Study of Paramagnetic Proteins with Slow Electronic Relaxation Rates by NMR Spectroscopy: Application to Oxidized Human [2Fe-2S] Ferredoxin Download bibtex for citation iamge John L Markley, Timothy E Machonkin, William M Westler