| Entry ID |
Original Release date |
Data summary |
Entry Title |
Citation Title |
Authors |
| 36768 |
2026-03-31 |
Chemical Shifts: 1 set
|
Phosphorylation dependent recognition of RIPK1 by phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 1 |
Repression of RIPK1 kinase by INPP5D inhibits expression of diverse proinflammatory mediators and late-onset Alzheimer's disease risk factors.
|
Bing Shan, Bing Zhu, Chengyu Zou, Chunting Qi, Cui Li, Heling Pan, Hongyang Jing, James J Chou, Jianping Liu, Jingli Liu, Junying Yuan, Kaiwen He, Lihui Qian, Linyu Shi, Maoqing Huang, Meiling Hou, Mengmeng Zhang, Qiong Wang, Shenghao Yuan, Shufen Yuan, Wei Liang, Wei Liu, Weimin Sun, Wenyuan Wang, Xingxing Xie, Xueqi Gong, Yaqi Wu, Yici Zhang, Ying Li, Yong Shen, Yunxia Li, Ze Cao, Zhijun Liu |
| 15883 |
2008-09-19 |
Chemical Shifts: 1 set
|
Backbone and 13C and 1H assignments for acid unfolded state and urea unfolded state of CTL9 |
The Low pH Unfolded State of the C-terminal Domain of the Ribosomal Protein L9 Contains Significant Secondary Structure in the Absence of Denaturant but is No More Compact than the Low pH Urea Unfolded State
|
Bing Shan, Daniel Raleigh, David Eliezer, Shibani Bhattacharya |
| 15884 |
2008-09-19 |
Chemical Shifts: 1 set
|
Backbone 1H, 13C, and 15N Chemical Shift Assignments for CTL9 native state at pH 3.8 |
The Low pH Unfolded State of the C-terminal Domain of the Ribosomal Protein L9 Contains Significant Secondary Structure in the Absence of Denaturant but is No More Compact than the Low pH Urea Unfolded State
|
Bing Shan, Daniel P Raleigh |
