Search Query :
3FBV
Crystal structure of the oligomer formed by the kinase-ribonuclease domain of ire1 Deposition Author(s): Egea, P.F. , Finer-Moore, J. , Korennykh, A.V. , Korostelev, A.A. , Shokat, K.M. , Stroud, R.M. , Walter, P. , Zhang, C.
Date: 2008-11-19 Method: X-RAY DIFFRACTION Resolution: 3.2 Å Organism(s): Saccharomyces Cerevisiae Sequences Data: 3FBV_A , 3FBV_B , 3FBV_C , 3FBV_D , 3FBV_E , 3FBV_F , 3FBV_G , 3FBV_H , 3FBV_I , 3FBV_J , 3FBV_K , 3FBV_L , 3FBV_M , 3FBV_N
3J6X
S. cerevisiae 80s ribosome bound with taura syndrome virus (tsv) ires, 5 degree rotation (class ii) Deposition Author(s): Brilot, A.F. , Grigorieff, N. , Koh, C.S. , Korostelev, A.A.
Date: 2014-04-16 Method: ELECTRON MICROSCOPY Resolution: 6.1 Å Organism(s): Saccharomyces Cerevisiae , Synthetic Construct Sequences Data: 3J6X_2S , 3J6X_L7 , 3J6X_L8 , 3J6X_L9 , 3J6X_50 , 3J6X_51 , 3J6X_53 , 3J6X_54 , 3J6X_55 , 3J6X_56 , 3J6X_57 , 3J6X_8S , 3J6X_58 , 3J6X_59 , 3J6X_60 , 3J6X_61 , 3J6X_62 , 3J6X_63 , 3J6X_64 , 3J6X_65 , 3J6X_66 , 3J6X_67 , 3J6X_5S , 3J6X_68 , 3J6X_69 , 3J6X_70 , 3J6X_71 , 3J6X_72 , 3J6X_73 , 3J6X_74 , 3J6X_75 , 3J6X_76 , 3J6X_77 , 3J6X_L1 , 3J6X_78 , 3J6X_79 , 3J6X_80 , 3J6X_81 , 3J6X_82 , 3J6X_83 , 3J6X_1S , 3J6X_S0 , 3J6X_S1 , 3J6X_S2 , 3J6X_L2 , 3J6X_S3 , 3J6X_S4 , 3J6X_S5 , 3J6X_S6 , 3J6X_S7 , 3J6X_S8 , 3J6X_S9 , 3J6X_10 , 3J6X_11 , 3J6X_12 , 3J6X_L3 , 3J6X_13 , 3J6X_14 , 3J6X_15 , 3J6X_16 , 3J6X_17 , 3J6X_18 , 3J6X_19 , 3J6X_20 , 3J6X_21 , 3J6X_22 , 3J6X_L4 , 3J6X_23 , 3J6X_24 , 3J6X_25 , 3J6X_26 , 3J6X_27 , 3J6X_28 , 3J6X_29 , 3J6X_30 , 3J6X_31 , 3J6X_RA , 3J6X_L5 , 3J6X_IR , 3J6X_L6
3J6Y
S. cerevisiae 80s ribosome bound with taura syndrome virus (tsv) ires, 2 degree rotation (class i) Deposition Author(s): Brilot, A.F. , Grigorieff, N. , Koh, C.S. , Korostelev, A.A.
Date: 2014-04-16 Method: ELECTRON MICROSCOPY Resolution: 6.1 Å Organism(s): Saccharomyces Cerevisiae , Synthetic Construct Sequences Data: 3J6Y_2S , 3J6Y_L7 , 3J6Y_L8 , 3J6Y_L9 , 3J6Y_50 , 3J6Y_51 , 3J6Y_53 , 3J6Y_54 , 3J6Y_55 , 3J6Y_56 , 3J6Y_57 , 3J6Y_8S , 3J6Y_58 , 3J6Y_59 , 3J6Y_60 , 3J6Y_61 , 3J6Y_62 , 3J6Y_63 , 3J6Y_64 , 3J6Y_65 , 3J6Y_66 , 3J6Y_67 , 3J6Y_5S , 3J6Y_68 , 3J6Y_69 , 3J6Y_70 , 3J6Y_71 , 3J6Y_72 , 3J6Y_73 , 3J6Y_74 , 3J6Y_75 , 3J6Y_76 , 3J6Y_77 , 3J6Y_L1 , 3J6Y_78 , 3J6Y_79 , 3J6Y_80 , 3J6Y_81 , 3J6Y_82 , 3J6Y_83 , 3J6Y_1S , 3J6Y_S0 , 3J6Y_S1 , 3J6Y_S2 , 3J6Y_L2 , 3J6Y_S3 , 3J6Y_S4 , 3J6Y_S5 , 3J6Y_S6 , 3J6Y_S7 , 3J6Y_S8 , 3J6Y_S9 , 3J6Y_10 , 3J6Y_11 , 3J6Y_12 , 3J6Y_L3 , 3J6Y_13 , 3J6Y_14 , 3J6Y_15 , 3J6Y_16 , 3J6Y_17 , 3J6Y_18 , 3J6Y_19 , 3J6Y_20 , 3J6Y_21 , 3J6Y_22 , 3J6Y_L4 , 3J6Y_23 , 3J6Y_24 , 3J6Y_25 , 3J6Y_26 , 3J6Y_27 , 3J6Y_28 , 3J6Y_29 , 3J6Y_30 , 3J6Y_31 , 3J6Y_RA , 3J6Y_L5 , 3J6Y_IR , 3J6Y_L6
3J77
Structures of yeast 80s ribosome-trna complexes in the rotated and non-rotated conformations (class ii - rotated ribosome with 1 trna) Deposition Author(s): Brilot, A.F. , Grigorieff, N. , Koh, C.S. , Korostelev, A.A. , Svidritskiy, E.
Date: 2014-05-29 Method: ELECTRON MICROSCOPY Resolution: 6.2 Å Organism(s): Escherichia Coli , Saccharomyces Cerevisiae , Synthetic Construct Sequences Data: 3J77_L1 , 3J77_60 , 3J77_61 , 3J77_62 , 3J77_63 , 3J77_64 , 3J77_65 , 3J77_66 , 3J77_67 , 3J77_68 , 3J77_69 , 3J77_L2 , 3J77_70 , 3J77_71 , 3J77_72 , 3J77_73 , 3J77_74 , 3J77_75 , 3J77_76 , 3J77_77 , 3J77_78 , 3J77_79 , 3J77_L3 , 3J77_80 , 3J77_81 , 3J77_82 , 3J77_83 , 3J77_84 , 3J77_85 , 3J77_86 , 3J77_87 , 3J77_88 , 3J77_89 , 3J77_L4 , 3J77_90 , 3J77_91 , 3J77_92 , 3J77_93 , 3J77_P0 , 3J77_RC , 3J77_S0 , 3J77_S1 , 3J77_S2 , 3J77_S3 , 3J77_L5 , 3J77_S4 , 3J77_S5 , 3J77_S6 , 3J77_S7 , 3J77_S8 , 3J77_S9 , 3J77_10 , 3J77_11 , 3J77_12 , 3J77_13 , 3J77_L6 , 3J77_14 , 3J77_15 , 3J77_16 , 3J77_17 , 3J77_18 , 3J77_19 , 3J77_20 , 3J77_21 , 3J77_22 , 3J77_23 , 3J77_L7 , 3J77_24 , 3J77_25 , 3J77_26 , 3J77_27 , 3J77_28 , 3J77_29 , 3J77_30 , 3J77_31 , 3J77_1S , 3J77_2S , 3J77_L8 , 3J77_8S , 3J77_5S , 3J77_MR , 3J77_PT , 3J77_L9
3J78
Structures of yeast 80s ribosome-trna complexes in the rotated and non-rotated conformations (class i - non-rotated ribosome with 2 trnas) Deposition Author(s): Brilot, A.F. , Grigorieff, N. , Koh, C.S. , Korostelev, A.A. , Svidritskiy, E.
Date: 2014-05-29 Method: ELECTRON MICROSCOPY Resolution: 6.3 Å Organism(s): Escherichia Coli , Saccharomyces Cerevisiae , Synthetic Construct Sequences Data: 3J78_L1 , 3J78_60 , 3J78_61 , 3J78_62 , 3J78_63 , 3J78_64 , 3J78_65 , 3J78_66 , 3J78_67 , 3J78_68 , 3J78_69 , 3J78_L2 , 3J78_70 , 3J78_71 , 3J78_72 , 3J78_73 , 3J78_74 , 3J78_75 , 3J78_76 , 3J78_77 , 3J78_78 , 3J78_79 , 3J78_L3 , 3J78_80 , 3J78_81 , 3J78_82 , 3J78_83 , 3J78_84 , 3J78_85 , 3J78_86 , 3J78_87 , 3J78_88 , 3J78_89 , 3J78_L4 , 3J78_90 , 3J78_91 , 3J78_92 , 3J78_93 , 3J78_P0 , 3J78_RC , 3J78_S0 , 3J78_S1 , 3J78_S2 , 3J78_S3 , 3J78_L5 , 3J78_S4 , 3J78_S5 , 3J78_S6 , 3J78_S7 , 3J78_S8 , 3J78_S9 , 3J78_10 , 3J78_11 , 3J78_12 , 3J78_13 , 3J78_L6 , 3J78_14 , 3J78_15 , 3J78_16 , 3J78_17 , 3J78_18 , 3J78_19 , 3J78_20 , 3J78_21 , 3J78_22 , 3J78_23 , 3J78_L7 , 3J78_24 , 3J78_25 , 3J78_26 , 3J78_27 , 3J78_28 , 3J78_29 , 3J78_30 , 3J78_31 , 3J78_1S , 3J78_2S , 3J78_L8 , 3J78_8S , 3J78_5S , 3J78_ET , 3J78_PT , 3J78_MR , 3J78_L9
4V7C
Structure of the ribosome with elongation factor g trapped in the pre-translocation state (pre-translocation 70s*trna structure) Deposition Author(s): Brilot, A.F. , Ermolenko, D.N. , Grigorieff, N. , Korostelev, A.A.
Date: 2013-11-20 Method: ELECTRON MICROSCOPY Resolution: 7.6 Å Organism(s): Escherichia Coli , Synthetic Construct Sequences Data: 4V7C_AA , 4V7C_AJ , 4V7C_AK , 4V7C_AL , 4V7C_AM , 4V7C_AN , 4V7C_AO , 4V7C_AP , 4V7C_AQ , 4V7C_AR , 4V7C_AS , 4V7C_AB , 4V7C_AT , 4V7C_AU , 4V7C_AV , 4V7C_AW , 4V7C_AX , 4V7C_AY , 4V7C_BA , 4V7C_BB , 4V7C_BC , 4V7C_BD , 4V7C_BE , 4V7C_AC , 4V7C_BF , 4V7C_BG , 4V7C_BH , 4V7C_BI , 4V7C_BJ , 4V7C_BK , 4V7C_BL , 4V7C_BM , 4V7C_BN , 4V7C_BO , 4V7C_AD , 4V7C_BP , 4V7C_BQ , 4V7C_BR , 4V7C_BS , 4V7C_BT , 4V7C_BU , 4V7C_BV , 4V7C_BW , 4V7C_BX , 4V7C_BY , 4V7C_AE , 4V7C_BZ , 4V7C_B1 , 4V7C_B2 , 4V7C_B3 , 4V7C_B4 , 4V7C_B5 , 4V7C_B6 , 4V7C_B7 , 4V7C_AF , 4V7C_AG , 4V7C_AH , 4V7C_AI
4V7D
Structure of the ribosome with elongation factor g trapped in the pre-translocation state (pre-translocation 70s*trna*ef-g structure) Deposition Author(s): Brilot, A.F. , Ermolenko, D.N. , Grigorieff, N. , Korostelev, A.A.
Date: 2013-11-21 Method: ELECTRON MICROSCOPY Resolution: 7.6 Å Organism(s): Escherichia Coli , Synthetic Construct Sequences Data: 4V7D_AA , 4V7D_AJ , 4V7D_AK , 4V7D_AL , 4V7D_AM , 4V7D_AN , 4V7D_AO , 4V7D_AP , 4V7D_AQ , 4V7D_AR , 4V7D_AS , 4V7D_AB , 4V7D_AT , 4V7D_AU , 4V7D_AV , 4V7D_AW , 4V7D_AX , 4V7D_AY , 4V7D_AZ , 4V7D_A1 , 4V7D_A2 , 4V7D_A3 , 4V7D_AC , 4V7D_A4 , 4V7D_A5 , 4V7D_A6 , 4V7D_A7 , 4V7D_A8 , 4V7D_BA , 4V7D_BB , 4V7D_BC , 4V7D_BD , 4V7D_BE , 4V7D_AD , 4V7D_BF , 4V7D_BG , 4V7D_BH , 4V7D_BI , 4V7D_BJ , 4V7D_BK , 4V7D_BL , 4V7D_BM , 4V7D_BN , 4V7D_BO , 4V7D_AE , 4V7D_BP , 4V7D_BQ , 4V7D_BR , 4V7D_BS , 4V7D_BT , 4V7D_BU , 4V7D_BV , 4V7D_BW , 4V7D_BX , 4V7D_BZ , 4V7D_BY , 4V7D_AF , 4V7D_AG , 4V7D_AH , 4V7D_AI
4V9N
Crystal structure of the 70s ribosome bound with the q253p mutant of release factor rf2. Deposition Author(s): Donohue, J.P. , Korostelev, A.A. , Noller, H.F. , Santos, N. , Zhu, J.
Date: 2013-04-26 Method: X-RAY DIFFRACTION Resolution: 3.4 Å Organism(s): Thermus Thermophilus Sequences Data: 4V9N_AA , 4V9N_CA , 4V9N_AG , 4V9N_CG , 4V9N_AH , 4V9N_CH , 4V9N_AI , 4V9N_CI , 4V9N_AJ , 4V9N_CJ , 4V9N_AK , 4V9N_CK , 4V9N_AL , 4V9N_CL , 4V9N_AM , 4V9N_CM , 4V9N_AN , 4V9N_CN , 4V9N_AO , 4V9N_CO , 4V9N_AP , 4V9N_CP , 4V9N_AV , 4V9N_CV , 4V9N_AQ , 4V9N_CQ , 4V9N_AR , 4V9N_CR , 4V9N_AS , 4V9N_CS , 4V9N_AT , 4V9N_CT , 4V9N_AU , 4V9N_CU , 4V9N_BA , 4V9N_DA , 4V9N_BB , 4V9N_DB , 4V9N_BD , 4V9N_DD , 4V9N_BE , 4V9N_DE , 4V9N_BF , 4V9N_DF , 4V9N_AW , 4V9N_CW , 4V9N_BG , 4V9N_DG , 4V9N_BH , 4V9N_DH , 4V9N_BI , 4V9N_DI , 4V9N_BK , 4V9N_DK , 4V9N_BN , 4V9N_DN , 4V9N_BO , 4V9N_DO , 4V9N_BP , 4V9N_DP , 4V9N_BQ , 4V9N_DQ , 4V9N_BR , 4V9N_DR , 4V9N_BS , 4V9N_DS , 4V9N_AY , 4V9N_CY , 4V9N_BT , 4V9N_DT , 4V9N_BU , 4V9N_DU , 4V9N_BV , 4V9N_DV , 4V9N_BW , 4V9N_DW , 4V9N_BX , 4V9N_DX , 4V9N_BY , 4V9N_DY , 4V9N_BZ , 4V9N_DZ , 4V9N_B0 , 4V9N_D0 , 4V9N_B1 , 4V9N_D1 , 4V9N_B2 , 4V9N_D2 , 4V9N_AB , 4V9N_CB , 4V9N_B3 , 4V9N_D3 , 4V9N_B4 , 4V9N_D4 , 4V9N_B5 , 4V9N_D5 , 4V9N_B6 , 4V9N_D6 , 4V9N_B7 , 4V9N_D7 , 4V9N_B8 , 4V9N_D8 , 4V9N_AC , 4V9N_CC , 4V9N_AD , 4V9N_CD , 4V9N_AE , 4V9N_CE , 4V9N_AF , 4V9N_CF
4V9Q
Crystal structure of blasticidin s bound to thermus thermophilus 70s ribosome. Deposition Author(s): Ermolenko, D.N. , Korostelev, A.A. , Ling, C. , Svidritskiy, E.
Date: 2013-06-12 Method: X-RAY DIFFRACTION Resolution: 3.4 Å Organism(s): Escherichia Coli , Thermus Thermophilus , Synthetic Construct Sequences Data: 4V9Q_AA , 4V9Q_CA , 4V9Q_AK , 4V9Q_CK , 4V9Q_AL , 4V9Q_CL , 4V9Q_AM , 4V9Q_CM , 4V9Q_AN , 4V9Q_CN , 4V9Q_AO , 4V9Q_CO , 4V9Q_AP , 4V9Q_CP , 4V9Q_AQ , 4V9Q_CQ , 4V9Q_AR , 4V9Q_CR , 4V9Q_AS , 4V9Q_CS , 4V9Q_AT , 4V9Q_CT , 4V9Q_AB , 4V9Q_CB , 4V9Q_AU , 4V9Q_CU , 4V9Q_AV , 4V9Q_CV , 4V9Q_AW , 4V9Q_CW , 4V9Q_AX , 4V9Q_CX , 4V9Q_AY , 4V9Q_CY , 4V9Q_AZ , 4V9Q_CZ , 4V9Q_A1 , 4V9Q_C1 , 4V9Q_A2 , 4V9Q_C2 , 4V9Q_A3 , 4V9Q_C3 , 4V9Q_A4 , 4V9Q_C4 , 4V9Q_AD , 4V9Q_CD , 4V9Q_A5 , 4V9Q_C5 , 4V9Q_BA , 4V9Q_DA , 4V9Q_BB , 4V9Q_DB , 4V9Q_BC , 4V9Q_DC , 4V9Q_BD , 4V9Q_DD , 4V9Q_BE , 4V9Q_DE , 4V9Q_BF , 4V9Q_DF , 4V9Q_BG , 4V9Q_DG , 4V9Q_BH , 4V9Q_DH , 4V9Q_BI , 4V9Q_DI , 4V9Q_AE , 4V9Q_CE , 4V9Q_BJ , 4V9Q_DJ , 4V9Q_BK , 4V9Q_DK , 4V9Q_BL , 4V9Q_DL , 4V9Q_BM , 4V9Q_DM , 4V9Q_BN , 4V9Q_DN , 4V9Q_BO , 4V9Q_DO , 4V9Q_BP , 4V9Q_DP , 4V9Q_BQ , 4V9Q_DQ , 4V9Q_BR , 4V9Q_DR , 4V9Q_BS , 4V9Q_DS , 4V9Q_AF , 4V9Q_CF , 4V9Q_BT , 4V9Q_DT , 4V9Q_BU , 4V9Q_DU , 4V9Q_BV , 4V9Q_BW , 4V9Q_DV , 4V9Q_DW , 4V9Q_BX , 4V9Q_DX , 4V9Q_AG , 4V9Q_CG , 4V9Q_AH , 4V9Q_CH , 4V9Q_AI , 4V9Q_CI , 4V9Q_AJ , 4V9Q_CJ
5D8B
Crystal structure of t. thermophilus ribosome containing a p-site wobble mismatch Deposition Author(s): Korostelev, A.A. , Svidritskiy, E.
Date: 2015-08-17 Method: X-RAY DIFFRACTION Resolution: 3.63 Å Organism(s): Escherichia Coli , Thermus Thermophilus (Strain Hb27 / Atcc Baa-163 / Dsm 7039) , Thermus Thermophilus (Strain Hb8 / Atcc 27634 / Dsm 579) , Thermus Thermophilus Hb27 , Synthetic Construct Sequences Data: 5D8B_A , 5D8B_WA , 5D8B_J , 5D8B_FB , 5D8B_K , 5D8B_GB , 5D8B_L , 5D8B_HB , 5D8B_M , 5D8B_IB , 5D8B_N , 5D8B_JB , 5D8B_O , 5D8B_KB , 5D8B_P , 5D8B_LB , 5D8B_Q , 5D8B_MB , 5D8B_R , 5D8B_NB , 5D8B_S , 5D8B_OB , 5D8B_B , 5D8B_XA , 5D8B_T , 5D8B_PB , 5D8B_U , 5D8B_QB , 5D8B_V , 5D8B_RB , 5D8B_W , 5D8B_SB , 5D8B_X , 5D8B_TB , 5D8B_Y , 5D8B_UB , 5D8B_Z , 5D8B_VB , 5D8B_AA , 5D8B_WB , 5D8B_BA , 5D8B_XB , 5D8B_CA , 5D8B_YB , 5D8B_C , 5D8B_YA , 5D8B_DA , 5D8B_ZB , 5D8B_EA , 5D8B_AC , 5D8B_FA , 5D8B_BC , 5D8B_GA , 5D8B_CC , 5D8B_HA , 5D8B_DC , 5D8B_IA , 5D8B_EC , 5D8B_JA , 5D8B_FC , 5D8B_KA , 5D8B_GC , 5D8B_LA , 5D8B_HC , 5D8B_MA , 5D8B_IC , 5D8B_D , 5D8B_ZA , 5D8B_NA , 5D8B_JC , 5D8B_OA , 5D8B_KC , 5D8B_PA , 5D8B_LC , 5D8B_QA , 5D8B_MC , 5D8B_RA , 5D8B_NC , 5D8B_SA , 5D8B_OC , 5D8B_TA , 5D8B_PC , 5D8B_UA , 5D8B_QC , 5D8B_VA , 5D8B_RC , 5D8B_SC , 5D8B_TC , 5D8B_E , 5D8B_AB , 5D8B_UC , 5D8B_YC , 5D8B_VC , 5D8B_ZC , 5D8B_WC , 5D8B_AD , 5D8B_XC , 5D8B_BD , 5D8B_ED , 5D8B_FD , 5D8B_GD , 5D8B_HD , 5D8B_F , 5D8B_BB , 5D8B_G , 5D8B_CB , 5D8B_H , 5D8B_DB , 5D8B_I , 5D8B_EB