Entry ID |
Original Release date |
Data summary |
Entry Title |
Citation Title |
Authors |
31134 |
2024-02-26 |
Chemical Shifts: 1 set |
Solution NMR structure of human DNMT1 N-terminal alpha-helical domain |
Identification of a conserved alpha-helical domain at the N-terminus of human DNA methyl transferase 1
|
G Mer, M V Botuyan, Q Hu |
36243 |
2023-02-23 |
Chemical Shifts: 1 set |
Mouse receptor-interacting protein kinase 3 (RIP3) amyloid structure by solid-state NMR |
The amyloid structure of mouse RIPK3 (receptor interacting protein kinase 3) in cell necroptosis.
|
Bing Li, Charles D Schwieters, Guo-Xiang X Wu, Hong Hu, Hua-Yi Y Wang, Jian Wang, Jing X Liu, Jing-Yu Y Lin, Jing Zhang, Jun-Xia X Lu, Xia-Lian L Wu, Xing-Qi Q Dong |
36117 |
2018-02-06 |
Chemical Shifts: 1 set |
SOLUTION STRUCTURE OF HUMAN MOG1 |
Mitosis-specific acetylation tunes Ran effector binding for chromosome segregation
|
H Liu, J Wu, J Zhang, K Ruan, Q Gong, Q Hu, R Tian, S Akram, W Wang, X Bao, X Liu, X Yao, X Yuan, Y Liu, Y Shi, Y Zhang, Z Dou, Z Zhang |
30296 |
2018-05-17 |
Chemical Shifts: 1 set |
Solution NMR structure of the HMG domain of human FACT complex subunit SSRP1 |
Solution NMR structure of the HMG domain of human FACT complex subunit SSRP1
|
G Mer, M V Botuyan, Q Hu |
17107 |
2012-08-02 |
Chemical Shifts: 1 set |
NMR STRUCTURE OF HUMAN INSULIN MUTANT GLY-B20-D-ALA, GLY-B23 2 PRO-B28-LYS, LYS-B29-PRO, 20 STRUCTURES |
Chiral Protein Engineering and its Application in G Health
|
J Whittaker, K Huang, M A Weiss, N B Philips, P G Katsoyannis, Q X Hua, S Q Hu, Z L Wan |
17108 |
2012-08-02 |
Chemical Shifts: 1 set |
NMR STRUCTURE OF HUMAN INSULIN MUTANT ILE-A2-LEU, VAL-A3-LEU 2 HIS-B10-ASP, PRO-B28-LYS, LYS-B29-PRO, 20 STRUCTURES |
Chiral Protein Engineering and its Application in G Health
|
J Whittaker, K Huang, M A Weiss, N B Philips, P G Katsoyannis, Q X Hua, S Q Hu, Z L Wan |
16026 |
2009-04-17 |
Chemical Shifts: 1 set |
ENHANCING THE ACTIVITY OF INSULIN BY STEREOSPECIFIC UNFOLDING |
Enhancing the activity of a protein by stereospecific unfolding. The conformational life cycle of insulin and its evolutionary origins.
|
B Xu, J Wittaker, K Huang, M A Weiss, P G Katsoyannis, Q X Hua, S H Wang, S Nakarawa, S Q Hu, W Jia |
16027 |
2009-04-17 |
Chemical Shifts: 1 set |
ENHANCING THE ACTIVITY OF INSULIN BY STEREOSPECIFIC UNFOLDING |
Enhancing the activity of a protein by stereospecific unfolding. The conformational life cycle of insulin and its evolutionary origins
|
B Xu, J Wittaker, K Huang, M A Weiss, P G Katsoyannis, Q X Hua, S H Wang, S Nakarawa, S Q Hu, W Jia |
6203 |
2004-08-06 |
Chemical Shifts: 2 sets |
1H chemical shift assignments for ThrB12-DKP-insulin |
How Insulin Binds: the B-Chain alpha-Helix Contacts the L1 beta -Helix of the Insulin Receptor.
|
A M Theede, B Li, B Xu, J Whittaker, K Huang, M A Weiss, P De Meyts, P G Katsoyannis, Q X Hua, R Y Wang, S H Nakagawa, S Q Hu, S Wang, Y C Chu, Y Qu |
6204 |
2004-08-06 |
Chemical Shifts: 4 sets |
1H chemical shift assignments for AlaB12-DKP-insulin |
How Insulin Binds: the B-Chain alpha-Helix Contacts the L1 beta -Helix of the Insulin Receptor.
|
A M Theede, B Li, B Xu, J Whittaker, K Huang, M A Weiss, P De Meyts, P G Katsoyannis, Q X Hua, R Y Wang, S H Nakagawa, S Q Hu, S Wang, Y C Chu, Y Qu |
6205 |
2008-07-15 |
Chemical Shifts: 2 sets |
1H chemical shift assignments for AbaB12-DKP-insulin |
How Insulin Binds: the B-Chain alpha-Helix Contacts the L1 beta -Helix of the Insulin Receptor.
|
A M Theede, B Li, B Xu, J Whittaker, K Huang, M A Weiss, P De Meyts, P G Katsoyannis, Q X Hua, R Y Wang, S H Nakagawa, S Q Hu, S Wang, Y C Chu, Y Qu |