Entry ID |
Original Release date |
Data summary |
Entry Title |
Citation Title |
Authors |
52595 |
2024-09-07 |
Chemical Shifts: 1 set |
13C, 15N and 1H Assigned Chemical Shifts for Staphylococcus aureus Response Regulator ArlR DNA-binding domain |
Structure and dynamics of Staphylococcus aureus response regulator ArlR DNA-binding domain by solution NMR
|
Kevin YL Mak, Mohammad Rafid Feisal, Pascal Mercier, Peter M Hwang, Philip B Liu, Yurong Wen |
27476 |
2019-02-07 |
Chemical Shifts: 1 set |
Cardiac troponin I_135-209 chemical shift |
Structure and proteolytic susceptibility of the inhibitory C-terminal tail of cardiac troponin I.
|
Andrej Roczkowsky, Bela Reiz, Brandon YH Chan, Christian-Scott E McCartney, Liang Li, Peter Davies, Peter M Hwang, Philip B Liu, Richard Schulz, Somaya Zahran, Zabed Mahmud |
25119 |
2014-09-03 |
Chemical Shifts: 1 set |
Chemical shift assignments for human cardiac troponin I, residues 1-73, bound to cardiac troponin C |
cTnI[1-73] bound to cTnC
|
Peter Hwang |
25120 |
2014-09-03 |
Chemical Shifts: 1 set |
Human cardiac troponin C (aCys) in complex with cTnI[1-73] and cTnI[144-163] |
The intrinsically disordered cardiac-specific N-terminal region of troponin I positions the regulatory domain of troponin C
|
Peter Hwang |
25118 |
2014-09-03 |
Chemical Shifts: 1 set |
Chemical shift assignments for human cardiac troponin I, residues 1-73 |
The intrinsically disordered cardiac-specific N-terminal region of troponin I positions the regulatory domain of troponin C
|
Peter Hwang |
17469 |
2012-05-22 |
Kinetic Rates: 1 set |
Quantitative NMR spectroscopy of supramolecular complexes: Dynamic side pores in ClpP are important for product release |
Quantitative NMR spectroscopy of supramolecular complexes: dynamic side pores in ClpP are important for product release.
|
Anna Gribun, Lewis E Kay, Peter M Hwang, Remco Sprangers, Walid A Houry |
6234 |
2004-07-23 |
Chemical Shifts: 1 set |
Chemical shifts of PagP in CYFOS-7 detergent |
The integral membrane enzyme PagP alternates between two dynamically distinct states.
|
Lewis E Kay, Peter M Hwang, Russell E Bishop |