Xfel beta2 ar structure by ligand exchange from timolol to timolol. Deposition Author(s): Batyuk, A. , Cherezov, C. , Gati, C. , Han, G.W. , Ishchenko, A. , Iwata, S. , Joti, Y. , Li, C. , Liu, W. , Moraes, I. , Nakane, T. , Nango, E. , Shiriaeva, A. , Stauch, B. , Tanaka, R. , Tono, K. , Weierstall, U. , Zatsepin, N.A.
Date: 2019-07-12 Method: X-RAY DIFFRACTION Resolution: 2.7 Å Organism(s): Enterobacteria Phage T4 , Homo Sapiens Sequences Data: 6PS6_A
Xfel a2ar structure by ligand exchange from luf5843 to zm241385. Deposition Author(s): Batyuk, A. , Cherezov, C. , Gati, C. , Han, G.W. , Ishchenko, A. , Iwata, S. , Joti, Y. , Li, C. , Liu, W. , Moraes, I. , Nakane, T. , Nango, E. , Shiriaeva, A. , Stauch, B. , Tanaka, R. , Tono, K. , Weierstall, U. , Zatsepin, N.A.
Date: 2019-07-12 Method: X-RAY DIFFRACTION Resolution: 1.85 Å Organism(s): Escherichia Coli , Homo Sapiens Sequences Data: 6PS7_A
Xfel mt1r structure by ligand exchange from agomelatine to 2-phenylmelatonin. Deposition Author(s): Batyuk, A. , Cherezov, C. , Gati, C. , Han, G.W. , Ishchenko, A. , Iwata, S. , Joti, Y. , Li, C. , Liu, W. , Moraes, I. , Nakane, T. , Nango, E. , Shiriaeva, A. , Stauch, B. , Tanaka, R. , Tono, K. , Weierstall, U. , Zatsepin, N.A.
Date: 2019-07-12 Method: X-RAY DIFFRACTION Resolution: 3.3 Å Organism(s): Homo Sapiens , Pyrococcus Abyssi (Strain Ge5 / Orsay) Sequences Data: 6PS8_A
Microed structure of the myd88 tir domain higher-order assembly Deposition Author(s): Abbey, B. , Aquila, A. , Clabbers, M.T.B. , Croll, T.I. , Darmanin, C. , Gambin, Y. , Holmes, S. , Hunter, D.J.B. , Hunter, M.S. , Kobe, B. , Liang, M. , Malde, A.K. , Muusse, T.W. , Nanson, J.D. , Rahaman, M.H. , Sierecki, E. , Thygesen, S.J. , Vajjhala, P. , Ve, T. , Xu, H. , Yoon, C.H. , Zatsepin, N.A. , Zhao, J.
Date: 2020-12-24 Method: ELECTRON CRYSTALLOGRAPHY Resolution: 3 Å Organism(s): Homo Sapiens Sequences Data: 7BEQ_A
Sfx structure of the myd88 tir domain higher-order assembly (solved, rebuilt and refined using an identical protocol to the microed structure of the myd88 tir domain higher-order assembly) Deposition Author(s): Abbey, B. , Aquila, A. , Clabbers, M.T.B. , Croll, T.I. , Darmanin, C. , Gambin, Y. , Holmes, S. , Hunter, D.J.B. , Hunter, M.S. , Kobe, B. , Liang, M. , Malde, A.K. , Muusse, T.W. , Nanson, J.D. , Rahaman, M.H. , Sierecki, E. , Thygesen, S.J. , Vajjhala, P. , Ve, T. , Xu, H. , Yoon, C.H. , Zatsepin, N.A. , Zhao, J.
Date: 2020-12-24 Method: X-RAY DIFFRACTION Resolution: 2.3 Å Organism(s): Homo Sapiens Sequences Data: 7BER_A
Sfx structure of the myd88 tir domain higher-order assembly Deposition Author(s): Abbey, B. , Aquila, A. , Clabbers, M.T.B. , Croll, T.I. , Darmanin, C. , Flueckiger, L. , Gambin, Y. , Holmes, S. , Hunter, D.J.B. , Hunter, M.S. , Kobe, B. , Liang, M. , Malde, A.K. , Muusse, T.W. , Nanson, J.D. , Rahaman, M.H. , Sierecki, E. , Stacey, K.J. , Thygesen, S.J. , Vajjhala, P. , Ve, T. , Xu, H. , Yoon, C.H. , Zatsepin, N.A. , Zhao, J.
Date: 2020-12-24 Method: X-RAY DIFFRACTION Resolution: 2.3 Å Organism(s): Homo Sapiens Sequences Data: 7L6W_A