| Entry ID |
Data summary |
Entry Title |
Citation Title |
Authors |
| 17268 |
Chemical Shifts: 1 set
|
Solution Structures of Oxidized and Reduced Thioredoxin C from M. tb |
Solution structures of Mycobacterium tuberculosis thioredoxin C and models of intact thioredoxin system suggest new approaches to inhibitor and drug design
|
Andrew L Olson, Daniel S Sem, Sheng Cai, Terrence S Neumann |
| 17242 |
Chemical Shifts: 1 set
|
Solution Structures of Oxidized and Reduced Thioredoxin C from M. tb |
Solution structures of Mycobacterium tuberculosis thioredoxin C and models of intact thioredoxin system suggest new approaches to inhibitor and drug design
|
Andrew L Olson, Daniel S Sem, Sheng Cai, Terrence S Neumann |
| 17098 |
Kinetic Rates: 1 set
|
Cofactor fingerprinting with STD NMR to characterize proteins of unknown function: identification of a rare cCMP cofactor preference |
Cofactor fingerprinting with STD NMR to characterize proteins of unknown function: identification of a rare cCMP cofactor preference
|
Daniel S Sem, Huili Yao |
| 4033 |
Chemical Shifts: 1 set
|
NMR Spectroscopic Studies of the DNA Binding Domain of the Monomer-Binding Nuclear Orphan Receptor, Human ERR2. The Carboxy-Terminal Extension to the Zinc-Finger Region is Unstructured in the Free Form of the Protein. |
NMR Spectroscopic Studies of the DNA-Binding Domain of the Monomer-Binding Nuclear Orphan Receptor, Human ERR2. The Carboxy Terminal Extension to the Zinc-Finger Region is Unstructured in the Free Form of the Protein.
|
Daniel Sem, Danilo Casimiro, Joan Provencal, Peter Wright, Ronald Evans, Steven Kliewer |
| 4034 |
Chemical Shifts: 1 set
|
NMR Spectroscopic Studies of the DNA Binding Domain of the Monomer-Binding Nuclear Orphan Receptor, Human ERR2. The Carboxy-Terminal Extension to the Zinc-Finger Region is Unstructured in the Free Form of the Protein. |
NMR Spectroscopic Studies of the DNA-Binding Domain of the Monomer-Binding Nuclear Orphan Receptor, Human ERR2. The Carboxy Terminal Extension to the Zinc-Finger Region is Unstructured in the Free Form of the Protein.
|
Daniel Sem, Danilo Casimiro, Joan Provencal, Peter Wright, Ronald Evans, Steven Kliewer |
