Entry ID |
Original Release date |
Data summary |
Entry Title |
Citation Title |
Authors |
51927 |
2023-05-04 |
Chemical Shifts: 1 set |
NT8-13 & ML314 bound enNTS1DM4 with G alpha iq & PIP2 |
Stabilization of pre-existing neurotensin receptor conformational states by b-arrestin-1 and the biased allosteric modulator ML314
|
Asuka Inoue, Daniel J Scott, Fabian Bumbak, Fei Yan, Hongwei Wu, James B Bower, James Ford, Joshua J Ziarek, Juan Carlos Paniagua, Miquel Pons, Paul R Gooley, Ross AD Bathgate, Scott A Robson, Skylar C Zemmer |
51921 |
2023-05-04 |
Chemical Shifts: 1 set |
NT8-13 bound enNTS1DM4 with Galpha-iq & PIP2 |
Stabilization of pre-existing neurotensin receptor conformational states by b-arrestin-1 and the biased allosteric modulator ML314
|
Asuka Inoue, Daniel J Scott, Fabian Bumbak, Fei Yan, Hongwei Wu, James B Bower, James Ford, Joshua J Ziarek, Juan Carlos Paniagua, Miquel Pons, Paul R Gooley, Ross AD Bathgate, Scott A Robson, Skylar C Zemmer |
51914 |
2023-05-04 |
Chemical Shifts: 1 set |
NT8-13 bound enNTS1DM4 with beta-Arrestin1-3A |
Stabilization of pre-existing neurotensin receptor conformational states by b-arrestin-1 and the biased allosteric modulator ML314
|
Asuka Inoue, Daniel J Scott, Fabian Bumbak, Fei Yan, Hongwei Wu, James B Bower, James Ford, Joshua J Ziarek, Juan Carlos Paniagua, Miquel Pons, Paul R Gooley, Ross AD Bathgate, Scott A Robson, Skylar C Zemmer |
51917 |
2023-05-04 |
Chemical Shifts: 1 set |
NT8-13 & ML314 bound enNTS1DM4 with beta-Arrestin-1-3A & PIP2 |
Stabilization of pre-existing neurotensin receptor conformational states by b-arrestin-1 and the biased allosteric modulator ML314
|
Asuka Inoue, Daniel J Scott, Fabian Bumbak, Fei Yan, Hongwei Wu, James B Bower, James Ford, Joshua J Ziarek, Juan Carlos Paniagua, Miquel Pons, Paul R Gooley, Ross AD Bathgate, Scott A Robson, Skylar C Zemmer |
51916 |
2023-05-04 |
Chemical Shifts: 1 set |
ML314 bound enNTS1DM4 with beta-Arrestin1-3A & PIP2 |
Ligands selectively tune the local and global motions of neurotensin receptor 1 (NTS1)
|
Asuka Inoue, Daniel J Scott, Fabian Bumbak, Fei Yan, Hongwei Wu, James B Bower, James Ford, Joshua J Ziarek, Juan Carlos Paniagua, Miquel Pons, Paul R Gooley, Ross AD Bathgate, Scott A Robson, Skylar C Zemmer |
51915 |
2023-05-04 |
Chemical Shifts: 1 set |
NT8-13 bound enNTS1DM4 with beta-Arrestin1-3A & PIP2 |
Stabilization of pre-existing neurotensin receptor conformational states by b-arrestin-1 and the biased allosteric modulator ML314
|
Asuka Inoue, Daniel J Scott, Fabian Bumbak, Fei Yan, Hongwei Wu, James B Bower, James Ford, Joshua J Ziarek, Juan Carlos Paniagua, Miquel Pons, Paul R Gooley, Ross AD Bathgate, Scott A Robson, Skylar C Zemmer |
51910 |
2023-05-04 |
Chemical Shifts: 1 set |
ML314 bound enNTS1DM4 with PIP2 |
Stabilization of pre-existing neurotensin receptor conformational states by b-arrestin-1 and the biased allosteric modulator ML314
|
Asuka Inoue, Daniel J Scott, Fabian Bumbak, Fei Yan, Hongwei Wu, James B Bower, James Ford, Joshua J Ziarek, Juan Carlos Paniagua, Miquel Pons, Paul R Gooley, Ross AD Bathgate, Scott A Robson, Skylar C Zemmer |
51908 |
2023-05-04 |
Chemical Shifts: 1 set |
Apo-state enNTS1DM4 with PIP2 |
Stabilization of pre-existing neurotensin receptor conformational states by b-arrestin-1 and the biased allosteric modulator ML314
|
Asuka Inoue, Daniel J Scott, Fabian Bumbak, Fei Yan, Hongwei Wu, James B Bower, James Ford, Joshua J Ziarek, Juan Carlos Paniagua, Miquel Pons, Paul R Gooley, Ross AD Bathgate, Scott A Robson, Skylar C Zemmer |
51909 |
2023-05-04 |
Chemical Shifts: 2 sets |
NT8-13 bound enNTS1DM4 with PIP2 |
Stabilization of pre-existing neurotensin receptor conformational states by b-arrestin-1 and the biased allosteric modulator ML314
|
Asuka Inoue, Daniel J Scott, Fabian Bumbak, Fei Yan, Hongwei Wu, James B Bower, James Ford, Joshua J Ziarek, Juan Carlos Paniagua, Miquel Pons, Paul R Gooley, Ross AD Bathgate, Scott A Robson, Skylar C Zemmer |
51911 |
2023-05-04 |
Chemical Shifts: 1 set |
NT8-13 & ML314 bound enNTS1DM4 with PIP2 |
Stabilization of pre-existing neurotensin receptor conformational states by b-arrestin-1 and the biased allosteric modulator ML314
|
Asuka Inoue, Daniel J Scott, Fabian Bumbak, Fei Yan, Hongwei Wu, James B Bower, James Ford, Joshua J Ziarek, Juan Carlos Paniagua, Miquel Pons, Paul R Gooley, Ross AD Bathgate, Scott A Robson, Skylar C Zemmer |
50143 |
2021-08-12 |
Chemical Shifts: 1 set |
1H, 15N, and 13C backbone chemical shift assignments for the first bromodomain of BRD2 (BRD2-BD1) |
BET-Family Bromodomains Can Recognize Diacetylated Sequences from Transcription Factors Using a Conserved Mechanism
|
Daniel J Ford, James L Walshe, Jason Low, Joel P Mackay, Karishma Patel, Lorna Wilkinson-White, Paul D Solomon, Richard J Payne |
50149 |
2021-08-12 |
Chemical Shifts: 1 set |
1H, 15N, and 13C backbone chemical shift assignments for the second bromodomain of BRD2 (BRD2-BD2) |
BET-Family Bromodomains Can Recognize Diacetylated Sequences from Transcription Factors Using a Conserved Mechanism
|
Daniel J Ford, James L Walshe, Jason Low, Joel P Mackay, Karishma Patel, Lorna Wilkinson-White, Paul D Solomon, Richard J Payne |
50148 |
2021-08-12 |
Chemical Shifts: 1 set |
1H, 15N, and 13C backbone chemical shift assignments for the first bromodomain of BRD3 (BRD3-BD1) |
BET-Family Bromodomains Can Recognize Diacetylated Sequences from Transcription Factors Using a Conserved Mechanism
|
Daniel J Ford, James L Walshe, Jason Low, Joel P Mackay, Karishma Patel, Lorna Wilkinson-White, Paul D Solomon, Richard J Payne |
50147 |
2021-08-12 |
Chemical Shifts: 1 set |
1H, 15N, and 13C backbone chemical shift assignments for the second bromodomain of BRD3 (BRD3-BD2) |
BET-Family Bromodomains Can Recognize Diacetylated Sequences from Transcription Factors Using a Conserved Mechanism
|
Daniel J Ford, James L Walshe, Jason Low, Joel P Mackay, Karishma Patel, Lorna Wilkinson-White, Paul D Solomon, Richard J Payne |
50146 |
2021-08-12 |
Chemical Shifts: 1 set |
1H, 15N, and 13C backbone chemical shift assignments for the second bromodomain of BRD4 (BRD4-BD2) |
BET-Family Bromodomains Can Recognize Diacetylated Sequences from Transcription Factors Using a Conserved Mechanism
|
Daniel J Ford, James L Walshe, Jason Low, Joel P Mackay, Karishma Patel, Lorna Wilkinson-White, Paul D Solomon, Richard J Payne |
50145 |
2021-08-12 |
Chemical Shifts: 1 set |
1H, 15N, and 13C backbone chemical shift assignments for the first bromodomain of BRD4 (BRD4-BD1) |
BET-Family Bromodomains Can Recognize Diacetylated Sequences from Transcription Factors Using a Conserved Mechanism
|
Daniel J Ford, James L Walshe, Jason Low, Joel P Mackay, Karishma Patel, Lorna Wilkinson-White, Paul D Solomon, Richard J Payne |