Dimer-of-dimer amyloid fibril structure of glucagon Deposition Author(s): Dregni, A.J. , Gelenter, M.D. , Hong, M. , Lamm, M.S. , Liao, S.Y. , Mandala, V.S. , Pochan, D.J. , Smith, K.J. , Su, Y. , Tian, Y. , Tucker, T.J. , Wei, X.
Date: 2019-02-14 Method: SOLID-STATE NMR Resolution: N.A. Organism(s): N.A. Sequences Data: 6NZN_A , 6NZN_B , 6NZN_C , 6NZN_D , 6NZN_E , 6NZN_F , 6NZN_G , 6NZN_H , 6NZN_I , 6NZN_J , 6NZN_K , 6NZN_L , 6NZN_M , 6NZN_N , 6NZN_O , 6NZN_P
Influenza b m2 proton channel in the closed state - ssnmr structure at ph 7.5 Deposition Author(s): Hong, M. , Loftis, A.R. , Mandala, V.S. , Pentelute, B.L. , Shcherbakov, A.S.
Date: 2019-07-21 Method: SOLID-STATE NMR Resolution: N.A. Organism(s): Influenza B Virus (B/Maryland/1/2001) Sequences Data: 6PVR_A , 6PVR_B , 6PVR_C , 6PVR_D
Influenza b m2 proton channel in the open state - ssnmr structure at ph 4.5 Deposition Author(s): Hong, M. , Loftis, A.R. , Mandala, V.S. , Pentelute, B.L. , Shcherbakov, A.S.
Date: 2019-07-21 Method: SOLID-STATE NMR Resolution: N.A. Organism(s): Influenza B Virus (B/Maryland/1/2001) Sequences Data: 6PVT_A , 6PVT_B , 6PVT_C , 6PVT_D
Emre s64v mutant bound to tetra(4-fluorophenyl)phosphonium at ph 5.8 Deposition Author(s): Davis Jr., J.H. , Henzler-Wildman, K.A. , Hisao, G. , Hong, M. , Mandala, V.S. , Salter, E.A. , Shcherbakov, A.A. , Soltani, M. , Thomas, N.E.
Date: 2020-07-27 Method: SOLID-STATE NMR Resolution: N.A. Organism(s): Escherichia Coli Sequences Data: 7JK8_A , 7JK8_B
Sars-cov-2 envelope protein transmembrane domain: pentameric structure determined by solid-state nmr Deposition Author(s): Dregni, A.J. , Hong, M. , Mandala, V.S. , Mckay, M.J. , Shcherbakov, A.S.
Date: 2020-09-11 Method: SOLID-STATE NMR Resolution: N.A. Organism(s): Severe Acute Respiratory Syndrome Coronavirus 2 Sequences Data: 7K3G_A , 7K3G_B , 7K3G_C , 7K3G_D , 7K3G_E
Eag kv channel with voltage sensor in the up conformation Deposition Author(s): Mackinnon, R. , Mandala, V.S.
Date: 2022-10-04 Method: ELECTRON MICROSCOPY Resolution: 3.9 Å Organism(s): Homo Sapiens , Rattus Norvegicus Sequences Data: 8EOW_A , 8EOW_D , 8EOW_C , 8EOW_B , 8EOW_E , 8EOW_H , 8EOW_G , 8EOW_F
Eag kv channel with voltage sensor in the intermediate conformation Deposition Author(s): Mackinnon, R. , Mandala, V.S.
Date: 2022-10-04 Method: ELECTRON MICROSCOPY Resolution: 4.9 Å Organism(s): Homo Sapiens , Rattus Norvegicus Sequences Data: 8EP0_A , 8EP0_B , 8EP0_C , 8EP0_D , 8EP0_E , 8EP0_F , 8EP0_G , 8EP0_H
Eag kv channel with voltage sensor in the down conformation Deposition Author(s): Mackinnon, R. , Mandala, V.S.
Date: 2022-10-04 Method: ELECTRON MICROSCOPY Resolution: 5.4 Å Organism(s): Homo Sapiens , Rattus Norvegicus Sequences Data: 8EP1_A , 8EP1_D , 8EP1_C , 8EP1_B , 8EP1_E , 8EP1_H , 8EP1_G , 8EP1_F
Kcnq1 with voltage sensor in the up conformation Deposition Author(s): Mackinnon, R. , Mandala, V.S.
Date: 2023-04-16 Method: ELECTRON MICROSCOPY Resolution: 2.9 Å Organism(s): Homo Sapiens Sequences Data: 8SIK_B , 8SIK_D , 8SIK_F , 8SIK_H , 8SIK_A , 8SIK_G , 8SIK_C , 8SIK_E
Kcnq1 with voltage sensor in the intermediate conformation Deposition Author(s): Mackinnon, R. , Mandala, V.S.
Date: 2023-04-16 Method: ELECTRON MICROSCOPY Resolution: 6.2 Å Organism(s): Homo Sapiens Sequences Data: 8SIM_B , 8SIM_D , 8SIM_F , 8SIM_H , 8SIM_E , 8SIM_A , 8SIM_G , 8SIM_C