Search Query :
6H58
Structure of a hibernating 100s ribosome reveals an inactive conformation of the ribosomal protein s1 - full 100s hibernating e. coli ribosome Deposition Author(s): Beckert, B. , Beckmann, R. , Berninghausen, O. , Czech, A. , Ignatova, Z. , Plitzko, J. , Turk, M. , Wilson, D.N.
Date: 2018-07-24 Method: ELECTRON MICROSCOPY Resolution: 7.9 Å Organism(s): Escherichia Coli Bw25113 Sequences Data: 6H58_0 , 6H58_00 , 6H58_D , 6H58_DD , 6H58_E , 6H58_EE , 6H58_F , 6H58_FF , 6H58_G , 6H58_GG , 6H58_H , 6H58_HH , 6H58_J , 6H58_JJ , 6H58_K , 6H58_KK , 6H58_L , 6H58_LL , 6H58_M , 6H58_MM , 6H58_N , 6H58_NN , 6H58_1 , 6H58_11 , 6H58_O , 6H58_OO , 6H58_P , 6H58_PP , 6H58_Q , 6H58_QQ , 6H58_R , 6H58_RR , 6H58_S , 6H58_SS , 6H58_T , 6H58_TT , 6H58_U , 6H58_UU , 6H58_V , 6H58_VV , 6H58_W , 6H58_WW , 6H58_X , 6H58_XX , 6H58_2 , 6H58_22 , 6H58_Y , 6H58_YY , 6H58_Z , 6H58_ZZ , 6H58_A , 6H58_AA , 6H58_B , 6H58_BB , 6H58_C , 6H58_CC , 6H58_3 , 6H58_33 , 6H58_I , 6H58_II , 6H58_4 , 6H58_44 , 6H58_6 , 6H58_66
6HD5
Cryo-em structure of the ribosome-nata complex Deposition Author(s): Becker, T. , Beckmann, R. , Knorr, A.G.
Date: 2018-08-17 Method: ELECTRON MICROSCOPY Resolution: 4.8 Å Organism(s): Saccharomyces Cerevisiae (Strain Atcc 204508 / S288C) Sequences Data: 6HD5_T , 6HD5_U , 6HD5_V
6HD7
Cryo-em structure of the ribosome-nata complex Deposition Author(s): Becker, T. , Beckmann, R. , Knorr, A.G.
Date: 2018-08-17 Method: ELECTRON MICROSCOPY Resolution: 3.4 Å Organism(s): Saccharomyces Cerevisiae Sequences Data: 6HD7_1 , 6HD7_G , 6HD7_H , 6HD7_I , 6HD7_J , 6HD7_K , 6HD7_L , 6HD7_M , 6HD7_N , 6HD7_O , 6HD7_P , 6HD7_3 , 6HD7_Q , 6HD7_R , 6HD7_S , 6HD7_T , 6HD7_U , 6HD7_V , 6HD7_W , 6HD7_X , 6HD7_Y , 6HD7_Z , 6HD7_4 , 6HD7_A , 6HD7_B , 6HD7_C , 6HD7_D , 6HD7_E , 6HD7_F
6I0Y
Tnac-stalled ribosome complex with the titin i27 domain folding close to the ribosomal exit tunnel Deposition Author(s): Beckmann, R. , Kudva, R. , Su, T. , Von Heijne, G.
Date: 2018-10-26 Method: ELECTRON MICROSCOPY Resolution: 3.2 Å Organism(s): Escherichia Coli , Homo Sapiens Sequences Data: 6I0Y_H , 6I0Y_8 , 6I0Y_A , 6I0Y_B , 6I0Y_C , 6I0Y_D , 6I0Y_E , 6I0Y_F , 6I0Y_G , 6I0Y_I , 6I0Y_0 , 6I0Y_J , 6I0Y_K , 6I0Y_L , 6I0Y_M , 6I0Y_N , 6I0Y_O , 6I0Y_P , 6I0Y_Q , 6I0Y_R , 6I0Y_S , 6I0Y_1 , 6I0Y_T , 6I0Y_V , 6I0Y_W , 6I0Y_X , 6I0Y_Y , 6I0Y_Z , 6I0Y_2 , 6I0Y_3 , 6I0Y_4 , 6I0Y_5 , 6I0Y_6 , 6I0Y_7
6I7O
The structure of a di-ribosome (disome) as a unit for rqc and ngd quality control pathways recognition. Deposition Author(s): Becker, T. , Beckmann, R. , Cheng, J. , Tesina, P.
Date: 2018-11-16 Method: ELECTRON MICROSCOPY Resolution: 5.3 Å Organism(s): Saccharomyces Cerevisiae Sequences Data: 6I7O_BQ , 6I7O_YQ , 6I7O_AA , 6I7O_XA , 6I7O_AD , 6I7O_XD , 6I7O_BD , 6I7O_YD , 6I7O_AG , 6I7O_XG , 6I7O_AJ , 6I7O_XJ , 6I7O_AM , 6I7O_XM , 6I7O_AQ , 6I7O_XQ , 6I7O_AU , 6I7O_XU , 6I7O_2 , 6I7O_2B , 6I7O_P , 6I7O_PB , 6I7O_BR , 6I7O_YR , 6I7O_Q , 6I7O_QB , 6I7O_R , 6I7O_RB , 6I7O_A , 6I7O_AB , 6I7O_S , 6I7O_SB , 6I7O_B , 6I7O_BB , 6I7O_T , 6I7O_TB , 6I7O_U , 6I7O_UB , 6I7O_V , 6I7O_VB , 6I7O_W , 6I7O_WB , 6I7O_C , 6I7O_CB , 6I7O_BS , 6I7O_YS , 6I7O_X , 6I7O_XB , 6I7O_D , 6I7O_DB , 6I7O_Y , 6I7O_YB , 6I7O_Z , 6I7O_ZB , 6I7O_E , 6I7O_EB , 6I7O_F , 6I7O_FB , 6I7O_G , 6I7O_GB , 6I7O_H , 6I7O_HB , 6I7O_I , 6I7O_IB , 6I7O_J , 6I7O_JB , 6I7O_AW , 6I7O_XW , 6I7O_K , 6I7O_KB , 6I7O_L , 6I7O_LB , 6I7O_M , 6I7O_MB , 6I7O_BA , 6I7O_YA , 6I7O_N , 6I7O_NB , 6I7O_O , 6I7O_OB , 6I7O_AX , 6I7O_XX , 6I7O_BF , 6I7O_YF , 6I7O_BH , 6I7O_YH , 6I7O_BJ , 6I7O_YJ , 6I7O_BL , 6I7O_YL , 6I7O_AE , 6I7O_XE , 6I7O_BE , 6I7O_YE , 6I7O_AH , 6I7O_XH , 6I7O_AK , 6I7O_XK , 6I7O_AN , 6I7O_XN , 6I7O_AR , 6I7O_XR , 6I7O_AV , 6I7O_XV , 6I7O_AY , 6I7O_XY , 6I7O_BC , 6I7O_YC , 6I7O_BG , 6I7O_YG , 6I7O_BK , 6I7O_YK , 6I7O_BN , 6I7O_YN , 6I7O_BI , 6I7O_YI , 6I7O_BP , 6I7O_YP , 6I7O_AC , 6I7O_XC , 6I7O_AF , 6I7O_XF , 6I7O_AI , 6I7O_XI , 6I7O_AL , 6I7O_XL , 6I7O_AO , 6I7O_XO , 6I7O_AS , 6I7O_XS , 6I7O_AP , 6I7O_XP , 6I7O_AT , 6I7O_XT , 6I7O_BU , 6I7O_YU , 6I7O_BM , 6I7O_YM , 6I7O_BO , 6I7O_YO
6Q8Y
Cryo-em structure of the mrna translating and degrading yeast 80s ribosome-xrn1 nuclease complex Deposition Author(s): Becker, T. , Beckmann, R. , Berninghausen, O. , Buschauer, R. , Cheng, J. , Heckel, E. , Kater, L. , Tesina, P.
Date: 2018-12-16 Method: ELECTRON MICROSCOPY Resolution: 3.1 Å Organism(s): Saccharomyces Cerevisiae Sequences Data: 6Q8Y_2 , 6Q8Y_AI , 6Q8Y_AJ , 6Q8Y_AK , 6Q8Y_AL , 6Q8Y_AM , 6Q8Y_AN , 6Q8Y_AO , 6Q8Y_AP , 6Q8Y_AQ , 6Q8Y_AR , 6Q8Y_AA , 6Q8Y_AS , 6Q8Y_AT , 6Q8Y_AU , 6Q8Y_AV , 6Q8Y_AW , 6Q8Y_AX , 6Q8Y_A , 6Q8Y_B , 6Q8Y_C , 6Q8Y_D , 6Q8Y_AB , 6Q8Y_E , 6Q8Y_F , 6Q8Y_G , 6Q8Y_Z , 6Q8Y_L , 6Q8Y_N , 6Q8Y_M , 6Q8Y_AY , 6Q8Y_BA , 6Q8Y_BB , 6Q8Y_AC , 6Q8Y_BC , 6Q8Y_BD , 6Q8Y_BE , 6Q8Y_BF , 6Q8Y_BG , 6Q8Y_BH , 6Q8Y_BI , 6Q8Y_BJ , 6Q8Y_BK , 6Q8Y_BL , 6Q8Y_AD , 6Q8Y_BM , 6Q8Y_BN , 6Q8Y_BO , 6Q8Y_BP , 6Q8Y_BQ , 6Q8Y_BR , 6Q8Y_BS , 6Q8Y_AE , 6Q8Y_H , 6Q8Y_J , 6Q8Y_K , 6Q8Y_AF , 6Q8Y_O , 6Q8Y_P , 6Q8Y_Q , 6Q8Y_R , 6Q8Y_S , 6Q8Y_T , 6Q8Y_U , 6Q8Y_V , 6Q8Y_W , 6Q8Y_X , 6Q8Y_AG , 6Q8Y_Y , 6Q8Y_I , 6Q8Y_AH
6R5Q
Structure of xbp1u-paused ribosome nascent chain complex (post-state) Deposition Author(s): Beckmann, R. , Berninghausen, O. , Cheng, J. , Shanmuganathan, V.
Date: 2019-03-25 Method: ELECTRON MICROSCOPY Resolution: 3.0 Å Organism(s): Homo Sapiens , Oryctolagus Cuniculus , Saccharomyces Cerevisiae , Synthetic Construct Sequences Data: 6R5Q_3 , 6R5Q_D , 6R5Q_E , 6R5Q_F , 6R5Q_G , 6R5Q_H , 6R5Q_I , 6R5Q_J , 6R5Q_L , 6R5Q_M , 6R5Q_N , 6R5Q_1 , 6R5Q_O , 6R5Q_P , 6R5Q_Q , 6R5Q_R , 6R5Q_S , 6R5Q_T , 6R5Q_U , 6R5Q_V , 6R5Q_W , 6R5Q_X , 6R5Q_2 , 6R5Q_Y , 6R5Q_Z , 6R5Q_A , 6R5Q_B , 6R5Q_C , 6R5Q_5 , 6R5Q_K , 6R5Q_7 , 6R5Q_BB , 6R5Q_8 , 6R5Q_CC , 6R5Q_DD , 6R5Q_SS , 6R5Q_EE , 6R5Q_RR , 6R5Q_QQ , 6R5Q_MM , 6R5Q_WW , 6R5Q_UU , 6R5Q_KK , 6R5Q_II , 6R5Q_PP , 6R5Q_GG , 6R5Q_HH , 6R5Q_TT , 6R5Q_VV , 6R5Q_NN , 6R5Q_OO , 6R5Q_LL , 6R5Q_JJ , 6R5Q_FF , 6R5Q_9 , 6R5Q_4 , 6R5Q_0 , 6R5Q_6 , 6R5Q_AA
6R6G
Structure of xbp1u-paused ribosome nascent chain complex with srp. Deposition Author(s): Beatrix, B. , Beckmann, R. , Berninghausen, O. , Braunger, K. , Cheng, J. , Shanmuganathan, V.
Date: 2019-03-27 Method: ELECTRON MICROSCOPY Resolution: 3.7 Å Organism(s): Canis Lupus Familiaris , Homo Sapiens , Oryctolagus Cuniculus , Saccharomyces Cerevisiae , Synthetic Construct Sequences Data: 6R6G_0 , 6R6G_9 , 6R6G_A , 6R6G_AA , 6R6G_B , 6R6G_BB , 6R6G_C , 6R6G_CC , 6R6G_DD , 6R6G_D , 6R6G_EE , 6R6G_1 , 6R6G_E , 6R6G_FF , 6R6G_F , 6R6G_GG , 6R6G_G , 6R6G_H , 6R6G_HH , 6R6G_I , 6R6G_II , 6R6G_JJ , 6R6G_2 , 6R6G_J , 6R6G_K , 6R6G_KK , 6R6G_L , 6R6G_LL , 6R6G_M , 6R6G_MM , 6R6G_N , 6R6G_NN , 6R6G_O , 6R6G_3 , 6R6G_OO , 6R6G_P , 6R6G_PP , 6R6G_Q , 6R6G_QQ , 6R6G_R , 6R6G_RR , 6R6G_S , 6R6G_SS , 6R6G_T , 6R6G_4 , 6R6G_TT , 6R6G_UU , 6R6G_U , 6R6G_VV , 6R6G_V , 6R6G_W , 6R6G_WW , 6R6G_X , 6R6G_Y , 6R6G_Z , 6R6G_5 , 6R6G_6 , 6R6G_7 , 6R6G_AB , 6R6G_AF , 6R6G_AC , 6R6G_AI , 6R6G_8 , 6R6G_AD , 6R6G_AE , 6R6G_AG
6R6P
Structure of xbp1u-paused ribosome nascent chain complex (rotated state) Deposition Author(s): Beckmann, R. , Berninghausen, O. , Cheng, J. , Shanmuganathan, V.
Date: 2019-03-27 Method: ELECTRON MICROSCOPY Resolution: 3.1 Å Organism(s): Homo Sapiens , Oryctolagus Cuniculus , Saccharomyces Cerevisiae , Synthetic Construct Sequences Data: 6R6P_5 , 6R6P_G , 6R6P_H , 6R6P_I , 6R6P_J , 6R6P_L , 6R6P_M , 6R6P_N , 6R6P_O , 6R6P_P , 6R6P_Q , 6R6P_7 , 6R6P_R , 6R6P_S , 6R6P_T , 6R6P_U , 6R6P_V , 6R6P_W , 6R6P_X , 6R6P_Y , 6R6P_Z , 6R6P_A , 6R6P_8 , 6R6P_B , 6R6P_C , 6R6P_D , 6R6P_E , 6R6P_F , 6R6P_K , 6R6P_1 , 6R6P_2 , 6R6P_3 , 6R6P_CC , 6R6P_XX , 6R6P_EE , 6R6P_QQ , 6R6P_MM , 6R6P_UU , 6R6P_YY , 6R6P_HH , 6R6P_TT , 6R6P_VV , 6R6P_NN , 6R6P_ZZ , 6R6P_JJ , 6R6P_AA , 6R6P_DD , 6R6P_BB , 6R6P_SS , 6R6P_RR , 6R6P_9 , 6R6P_II , 6R6P_PP , 6R6P_GG , 6R6P_OO , 6R6P_FF , 6R6P_0 , 6R6P_6 , 6R6P_4
6R7L
Ribosome-bound secyeg translocon in a nanodisc Deposition Author(s): Beckmann, R. , Kater, L. , Kedrov, A.
Date: 2019-03-29 Method: ELECTRON MICROSCOPY Resolution: 6.0 Å Organism(s): Escherichia Coli Sequences Data: 6R7L_G , 6R7L_E , 6R7L_Y