| Entry ID |
Data summary |
Entry Title |
Citation Title |
Authors |
| 26323 |
Chemical Shifts: 1 set
|
Backbone 1H, 13C, and 15N Chemical Shift Assignments for Paip2A(25-83) in complex with RRM2/3 |
Paip2 competitively dissociates PABPC1 from poly(A) by initial access to RRM2 of the poly(A)-bound PABPC1
|
Mariko Yokogawa, Masanori Osawa, Takeru Sagae |
| 26320 |
Chemical Shifts: 1 set
|
Backbone 1H, 13C, and 15N Chemical Shift Assignments for RRM2/3 in complex with Paip2A(25-83) |
Paip2 competitively dissociates PABPC1 from poly(A) by initial access to RRM2 of the poly(A)-bound PABPC1
|
Ichio Shimada, Mariko Yokogawa, Masanori Osawa, Nao Hosoda, Ryoichi Sawazaki, Shin-ichi Hoshino, Shunsuke Imai, Takeru Sagae, Yuichiro Ishii |
| 26319 |
Chemical Shifts: 1 set
|
Backbone 1H, 13C, 15N and CB Chemical Shift Assignments for RRM2/3 when in complex with 12mers of adenine |
Paip2 competitively dissociates PABPC1 from poly(A) by initial access to RRM2 of the poly(A)-bound PABPC1
|
Ichio Shimada, Mariko Yokogawa, Masanori Osawa, Nao Hosoda, Ryoichi Sawazaki, Shin-ichi Hoshino, Shunsuke Imai, Takeru Sagae, Yuichiro Ishii |
| 26314 |
Chemical Shifts: 1 set
|
Backbone 1H, 13C, 15N and Side chain CB Chemical Shift Assignments for Paip2A |
Paip2 competitively dissociates PABPC1 from poly(A) by initial access to RRM2 of the poly(A)-bound PABPC1
|
Ichio Shimada, Mariko Yokogawa, Masanori Osawa, Nao Hosoda, Ryoichi Sawazaki, Shin-ichi Hoshino, Shunsuke Imai, Takeru Sagae, Yuichiro Ishii |
| 26316 |
Chemical Shifts: 1 set
|
Backbone 1H, 13C, 15N, HA and Side chain 13C Chemical Shift Assignments for RRM2 of PABPC1 |
Paip2 competitively dissociates PABPC1 from poly(A) by initial access to RRM2 of the poly(A)-bound PABPC1
|
Ichio Shimada, Mariko Yokogawa, Masanori Osawa, Nao Hosoda, Ryoichi Sawazaki, Shin-ichi Hoshino, Shunsuke Imai, Takeru Sagae, Yuichiro Ishii |
| 26315 |
Chemical Shifts: 1 set
|
Backbone 1H, 15N and HA Chemical Shift Assignments for Paip2A(25-83) |
Paip2 competitively dissociates PABPC1 from poly(A) by initial access to RRM2 of the poly(A)-bound PABPC1
|
Ichio Shimada, Mariko Yokogawa, Masanori Osawa, Nao Hosoda, Ryoichi Sawazaki, Shin-ichi Hoshino, Shunsuke Imai, Takeru Sagae, Yuichiro Ishii |
| 26318 |
Chemical Shifts: 1 set
|
Backbone 1H, 13C, 15N and CB Chemical Shift Assignments for RRM2/3 |
Paip2 competitively dissociates PABPC1 from poly(A) by initial access to RRM2 of the poly(A)-bound PABPC1
|
Ichio Shimada, Mariko Yokogawa, Masanori Osawa, Nao Hosoda, Ryoichi Sawazaki, Shin-ichi Hoshino, Shunsuke Imai, Takeru Sagae, Yuichiro Ishii |
| 26317 |
Chemical Shifts: 1 set
|
Backbone 1H, 13C, 15N, HA and Side Chain 13C Chemical Shift Assignments for RRM3 of PABPC1 |
Paip2 competitively dissociates PABPC1 from poly(A) by initial access to RRM2 of the poly(A)-bound PABPC1
|
Ichio Shimada, Mariko Yokogawa, Masanori Osawa, Nao Hosoda, Ryoichi Sawazaki, Shin-ichi Hoshino, Sunsuke Imai, Takeru Sagae, Yuichiro Ishii |
| 27221 |
Chemical Shifts: 1 set
|
Backbone 1H, 13C and 15N Chemical Shift Assignments for residues 421-470 of human PABPC1 |
Characterization of the multimeric structure of poly(A)-binding protein on a poly(A) tail
|
Ichio Shimada, Kazuhiro Mio, Mariko Yokogawa, Masanori Osawa, Muneyo Mio, Nao Hosoda, Ryoichi Sawazaki, Shin-ichi Hoshino, Shunsuke Imai |
| 26976 |
Chemical Shifts: 1 set
|
AILV Methyl Resonance Assignments for G protein alpha i3 subunit in the GoLoco14-bound state |
Dynamic regulation of GDP binding to G proteins revealed by magnetic field dependent NMR relaxation analyses
|
Hanaho Kano, Ichio Shimada, Mariko Yokogawa, Masanori Osawa, Yoko Mase, Yuki Toyama |
| 26975 |
Chemical Shifts: 1 set
|
AILV Methyl Resonance Assignments for G protein alpha i3 subunit in the GDP-bound state |
Dynamic regulation of GDP binding to G proteins revealed by magnetic field dependent NMR relaxation analyses
|
Hanaho Kano, Ichio Shimada, Mariko Yokogawa, Masanori Osawa, Yoko Mase, Yuki Toyama |
| 25719 |
Chemical Shifts: 1 set
|
Regnase-1 Zinc finger domain |
Structural basis for the regulation of enzymatic activity of Regnase-1 by domain-domain interactions
|
Daron M Standley, Fuyuhiko Inagaki, Hiroyuki Kumeta, Kazuo Yamashita, Mariko Yokogawa, Nobuo N Noda, Osamu Takeuchi, Shizuo Akira, Takashi Tsushima, Wakana Adachi, Yoshiaki Enokizono |
| 25718 |
Chemical Shifts: 1 set
|
Regnase-1 N-terminal domain |
Structural basis for the regulation of enzymatic activity of Regnase-1 by domain-domain interactions
|
Daron M Standley, Fuyuhiko Inagaki, Hiroyuki Kumeta, Kazuo Yamashita, Mariko Yokogawa, Nobuo N Noda, Osamu Takeuchi, Shizuo Akira, Takashi Tsushima, Wakana Adachi, Yoshiaki Enokizono |
| 25720 |
Chemical Shifts: 1 set
|
Regnase-1 C-terminal domain |
Structural basis for the regulation of enzymatic activity of Regnase-1 by domain-domain interactions
|
Daron M Standley, Fuyuhiko Inagaki, Hiroyuki Kumeta, Kazuo Yamashita, Mariko Yokogawa, Nobuo N Noda, Osamu Takeuchi, Shizuo Akira, Takashi Tsushima, Wakana Adachi, Yoshiaki Enokizono |
| 19015 |
Chemical Shifts: 1 set
|
Backbone resonance assignments for G protein alpha i3 subunit in the GDP-bound state |
Backbone resonance assignments for G protein alpha i3 subunit in the GDP-bound state
|
Ichio Shimada, Mariko Yokogawa, Masanori Osawa, Yoko Mase |
| 18103 |
Chemical Shifts: 1 set
|
Backbone resonance assignments for G protein alpha i3 subunit in the GTP-bound state |
Backbone resonance assignments for G protein (i3) subunit in the GTP-bound state.
|
Ichio Shimada, Mariko Yokogawa, Masanori Osawa, Yoko Mase |
| 11067 |
Chemical Shifts: 1 set
|
Backbone resonance assignments for the cytoplasmic regions of G protein-activated inwardly rectifying potassium channel1 (GIRK1) |
Backbone resonance assignments for the cytoplasmic regions of G protein-activated inwardly rectifying potassium channel 1 (GIRK1)
|
Ichio Shimada, Koh Takeuchi, Mariko Yokogawa, Masanori Osawa, Takahiro Muramatsu |
