Dimerization of e. coli dna gyrase b provides a structural mechanism for activating the atpase catalytic center Deposition Author(s): Brino, L. , Moras, D. , Oudet, P. , Urzhumtsev, A.
Date: 2000-02-23 Method: X-RAY DIFFRACTION Resolution: 2.3 Å Organism(s): Escherichia Coli Sequences Data: 1EI1_A , 1EI1_B
Crystal structure of the homo sapiens cytoplasmic ribosomal decoding a site Deposition Author(s): Kondo, J. , Urzhumtsev, A. , Westhof, E.
Date: 2006-01-18 Method: X-RAY DIFFRACTION Resolution: 2.3 Å Organism(s): N.A. Sequences Data: 2FQN_A , 2FQN_B
Crystal structure of the homo sapiens cytoplasmic ribosomal decoding site complexed with apramycin Deposition Author(s): Francois, B. , Kondo, J. , Urzhumtsev, A. , Westhof, E.
Date: 2006-02-23 Method: X-RAY DIFFRACTION Resolution: 2.8 Å Organism(s): N.A. Sequences Data: 2G5K_A , 2G5K_B
Bacterial translation initiation factor if2 (1-363), apo form Deposition Author(s): Klaholz, B.P. , Simonetti, A. , Urzhumtsev, A.
Date: 2012-07-26 Method: X-RAY DIFFRACTION Resolution: 1.95 Å Organism(s): Thermus Thermophilus Sequences Data: 4B3X_A
Bacterial translation initiation factor if2 (1-363), apo form, double mutant k86l h130a Deposition Author(s): Klaholz, B.P. , Simonetti, A. , Urzhumtsev, A.
Date: 2012-07-27 Method: X-RAY DIFFRACTION Resolution: 1.937 Å Organism(s): Thermus Thermophilus Sequences Data: 4B43_A
Bacterial translation initiation factor if2 (1-363), complex with gdp at ph8.0 Deposition Author(s): Klaholz, B.P. , Simonetti, A. , Urzhumtsev, A.
Date: 2012-07-27 Method: X-RAY DIFFRACTION Resolution: 2.7 Å Organism(s): Thermus Thermophilus Sequences Data: 4B44_A
Bacterial translation initiation factor if2 (1-363), complex with gdp at ph6.5 Deposition Author(s): Klaholz, B.P. , Simonetti, A. , Urzhumtsev, A.
Date: 2012-07-27 Method: X-RAY DIFFRACTION Resolution: 2.301 Å Organism(s): Thermus Thermophilus Sequences Data: 4B47_A
Bacterial translation initiation factor if2 (1-363), complex with gtp Deposition Author(s): Klaholz, B.P. , Simonetti, A. , Urzhumtsev, A.
Date: 2012-07-27 Method: X-RAY DIFFRACTION Resolution: 2.8 Å Organism(s): Thermus Thermophilus Sequences Data: 4B48_A
Crystal structure of geneticin (g418) bound to the yeast 80s ribosome Deposition Author(s): Djumagulov, M. , Prokhorova, I. , Urzhumtsev, A. , Yusupov, M. , Yusupova, G.
Date: 2017-03-08 Method: X-RAY DIFFRACTION Resolution: 3.7 Å Organism(s): Saccharomyces Cerevisiae Sequences Data: 5NDG_2 , 5NDG_6 , 5NDG_S8 , 5NDG_S9 , 5NDG_C0 , 5NDG_C1 , 5NDG_C2 , 5NDG_C3 , 5NDG_C4 , 5NDG_C5 , 5NDG_C6 , 5NDG_C7 , 5NDG_S0 , 5NDG_C8 , 5NDG_C9 , 5NDG_D0 , 5NDG_D1 , 5NDG_D2 , 5NDG_D3 , 5NDG_D4 , 5NDG_D5 , 5NDG_D6 , 5NDG_D7 , 5NDG_S1 , 5NDG_D8 , 5NDG_D9 , 5NDG_E0 , 5NDG_E1 , 5NDG_SR , 5NDG_SM , 5NDG_1 , 5NDG_5 , 5NDG_3 , 5NDG_7 , 5NDG_4 , 5NDG_8 , 5NDG_L2 , 5NDG_S2 , 5NDG_L3 , 5NDG_L4 , 5NDG_L5 , 5NDG_L6 , 5NDG_L7 , 5NDG_L8 , 5NDG_L9 , 5NDG_M0 , 5NDG_M1 , 5NDG_M3 , 5NDG_S3 , 5NDG_M4 , 5NDG_M5 , 5NDG_M6 , 5NDG_M7 , 5NDG_M8 , 5NDG_M9 , 5NDG_N0 , 5NDG_N1 , 5NDG_N2 , 5NDG_N3 , 5NDG_S4 , 5NDG_N4 , 5NDG_N5 , 5NDG_N6 , 5NDG_N7 , 5NDG_N8 , 5NDG_N9 , 5NDG_O0 , 5NDG_O1 , 5NDG_O2 , 5NDG_O3 , 5NDG_S5 , 5NDG_O4 , 5NDG_O5 , 5NDG_O6 , 5NDG_O7 , 5NDG_O8 , 5NDG_O9 , 5NDG_Q0 , 5NDG_Q1 , 5NDG_Q2 , 5NDG_Q3 , 5NDG_S6 , 5NDG_P0 , 5NDG_S7
Crystal structure of aminoglycoside tc007 in complex with 70s ribosome from thermus thermophilus, three trnas and mrna (soaking) Deposition Author(s): Djumagulov, M. , Prokhorova, I. , Urzhumtsev, A. , Yusupov, M. , Yusupova, G.
Date: 2017-03-08 Method: X-RAY DIFFRACTION Resolution: 3.15 Å Organism(s): Escherichia Coli , Thermus Thermophilus (Strain Hb8 / Atcc 27634 / Dsm 579) Sequences Data: 5NDJ_13 , 5NDJ_1G , 5NDJ_58 , 5NDJ_15 , 5NDJ_G8 , 5NDJ_C5 , 5NDJ_Q8 , 5NDJ_M5 , 5NDJ_3I , 5NDJ_3A , 5NDJ_3E , 5NDJ_32 , 5NDJ_1H , 5NDJ_14 , 5NDJ_B8 , 5NDJ_75 , 5NDJ_L8 , 5NDJ_H5 , 5NDJ_61 , 5NDJ_69 , 5NDJ_9I , 5NDJ_9A , 5NDJ_A8 , 5NDJ_65 , 5NDJ_1F , 5NDJ_1B , 5NDJ_68 , 5NDJ_25 , 5NDJ_H8 , 5NDJ_D5 , 5NDJ_21 , 5NDJ_29 , 5NDJ_4I , 5NDJ_4A , 5NDJ_4E , 5NDJ_42 , 5NDJ_16 , 5NDJ_1J , 5NDJ_C8 , 5NDJ_85 , 5NDJ_M8 , 5NDJ_I5 , 5NDJ_AI , 5NDJ_AA , 5NDJ_B5 , 5NDJ_F8 , 5NDJ_78 , 5NDJ_35 , 5NDJ_I8 , 5NDJ_E5 , 5NDJ_31 , 5NDJ_39 , 5NDJ_5I , 5NDJ_5A , 5NDJ_5E , 5NDJ_52 , 5NDJ_D8 , 5NDJ_95 , 5NDJ_N8 , 5NDJ_J5 , 5NDJ_BI , 5NDJ_BA , 5NDJ_88 , 5NDJ_45 , 5NDJ_J8 , 5NDJ_F5 , 5NDJ_11 , 5NDJ_19 , 5NDJ_41 , 5NDJ_49 , 5NDJ_6I , 5NDJ_6A , 5NDJ_6E , 5NDJ_62 , 5NDJ_E8 , 5NDJ_A5 , 5NDJ_1E , 5NDJ_12 , 5NDJ_98 , 5NDJ_55 , 5NDJ_K8 , 5NDJ_G5 , 5NDJ_51 , 5NDJ_59 , 5NDJ_1A , 5NDJ_1I , 5NDJ_7I , 5NDJ_7A , 5NDJ_L5 , 5NDJ_P8 , 5NDJ_7E , 5NDJ_72 , 5NDJ_Y1 , 5NDJ_Y4 , 5NDJ_W1 , 5NDJ_X1 , 5NDJ_V1 , 5NDJ_W4 , 5NDJ_X4 , 5NDJ_V4 , 5NDJ_2A , 5NDJ_2I , 5NDJ_8I , 5NDJ_8A , 5NDJ_22 , 5NDJ_2E , 5NDJ_8E , 5NDJ_82