Search Query :
8CKU
Translocation intermediate 1 (ti-1*) of 80s s. cerevisiae ribosome with ligands and eef2 in the absence of sordarin Deposition Author(s): Jenner, L. , Milicevic, N. , Myasnikov, A. , Yusupov, M. , Yusupova, G.
Date: 2023-02-16 Method: ELECTRON MICROSCOPY Resolution: 3.11 Å Organism(s): Adineta Vaga , Grouper Iridovirus , Rhodobacter Sphaeroides (Strain Atcc 17023 / Dsm 158 / Jcm 6121 / Nbrc 12203 / Ncimb 8253 / Ath 2.4.1.) Sequences Data: 8CKU_0 , 8CKU_A , 8CKU_AA , 8CKU_B , 8CKU_BB , 8CKU_C , 8CKU_CC , 8CKU_D , 8CKU_1 , 8CKU_DD , 8CKU_E , 8CKU_EE , 8CKU_F , 8CKU_FF , 8CKU_G , 8CKU_GG , 8CKU_H , 8CKU_2 , 8CKU_HH , 8CKU_I , 8CKU_II , 8CKU_J , 8CKU_JJ , 8CKU_K , 8CKU_KK , 8CKU_L , 8CKU_LL , 8CKU_M , 8CKU_3 , 8CKU_MM , 8CKU_N , 8CKU_NN , 8CKU_O , 8CKU_OO , 8CKU_P , 8CKU_PP , 8CKU_Q , 8CKU_QQ , 8CKU_R , 8CKU_4 , 8CKU_S , 8CKU_T , 8CKU_U , 8CKU_V , 8CKU_W , 8CKU_X , 8CKU_Y , 8CKU_Z , 8CKU_5 , 8CKU_6 , 8CKU_7 , 8CKU_8
8CMJ
Translocation intermediate 4 (ti-4*) of 80s s. cerevisiae ribosome with eef2 in the absence of sordarin Deposition Author(s): Jenner, L. , Milicevic, N. , Myasnikov, A. , Yusupov, M. , Yusupova, G.
Date: 2023-02-20 Method: ELECTRON MICROSCOPY Resolution: 3.79 Å Organism(s): Grouper Iridovirus Sequences Data: 8CMJ_0 , 8CMJ_A , 8CMJ_AA , 8CMJ_B , 8CMJ_BB , 8CMJ_C , 8CMJ_CC , 8CMJ_D , 8CMJ_DD , 8CMJ_E , 8CMJ_1 , 8CMJ_EE , 8CMJ_F , 8CMJ_FF , 8CMJ_G , 8CMJ_GG , 8CMJ_H , 8CMJ_HH , 8CMJ_I , 8CMJ_II , 8CMJ_2 , 8CMJ_J , 8CMJ_JJ , 8CMJ_K , 8CMJ_KK , 8CMJ_L , 8CMJ_LL , 8CMJ_M , 8CMJ_MM , 8CMJ_N , 8CMJ_NN , 8CMJ_3 , 8CMJ_O , 8CMJ_OO , 8CMJ_P , 8CMJ_PP , 8CMJ_Q , 8CMJ_QQ , 8CMJ_R , 8CMJ_S , 8CMJ_T , 8CMJ_U , 8CMJ_4 , 8CMJ_V , 8CMJ_W , 8CMJ_X , 8CMJ_Y , 8CMJ_Z , 8CMJ_5 , 8CMJ_6 , 8CMJ_7 , 8CMJ_8
8CTH
Cryo-em structure of human mettl1-wdr4-trna(phe) complex Deposition Author(s): Fishcer, E.S. , Fontana, P. , Gregory, R.I. , Hunkeler, M. , Li, J. , Roy-Burman, S.S. , Wang, L. , Wu, H.
Date: 2022-05-14 Method: ELECTRON MICROSCOPY Resolution: 3.3 Å Organism(s): Salmonella Enterica , Grouper Iridovirus Sequences Data: 8CTH_A , 8CTH_B , 8CTH_C
8CUK
X-ray structure of the wd40 domain of hops subunit vps11 from yeast Deposition Author(s): Baker, R.W. , Hughson, F.M. , Jeffrey, P.D. , Port, S.A.
Date: 2022-05-17 Method: X-RAY DIFFRACTION Resolution: 2.22 Å Organism(s): Grouper Iridovirus Sequences Data: 8CUK_A , 8CUK_B , 8CUK_C
8CWW
Structure of s. cerevisiae hop1 cbr bound to a nucleosome Deposition Author(s): Corbett, K.D. , Gu, Y. , Hochwagen, A. , Milano, C.R. , Tromer, E.C. , Ur, S.N. , Vale-Silva, L.A.
Date: 2022-05-19 Method: ELECTRON MICROSCOPY Resolution: 2.74 Å Organism(s): Grouper Iridovirus , Mucilaginibacter Paludis Dsm 18603 , Rhodobacter Sphaeroides (Strain Atcc 17023 / Dsm 158 / Jcm 6121 / Nbrc 12203 / Ncimb 8253 / Ath 2.4.1.) Sequences Data: 8CWW_P , 8CWW_A , 8CWW_E , 8CWW_B , 8CWW_F , 8CWW_C , 8CWW_G , 8CWW_D , 8CWW_H , 8CWW_I , 8CWW_J
8D8J
Yeast mitochondrial small subunit assembly intermediate (state 1) Deposition Author(s): Burnside, C. , Harper, N. , Klinge, S.
Date: 2022-06-08 Method: ELECTRON MICROSCOPY Resolution: 3.8 Å Organism(s): Grouper Iridovirus Sequences Data: 8D8J_0 , 8D8J_D , 8D8J_E , 8D8J_F , 8D8J_6 , 8D8J_H , 8D8J_A , 8D8J_L , 8D8J_5 , 8D8J_O , 8D8J_P , 8D8J_Q , 8D8J_R , 8D8J_V , 8D8J_2
8D8K
Yeast mitochondrial small subunit assembly intermediate (state 2) Deposition Author(s): Burnside, C. , Harper, N.J. , Klinge, S.
Date: 2022-06-08 Method: ELECTRON MICROSCOPY Resolution: 3.13 Å Organism(s): Grouper Iridovirus Sequences Data: 8D8K_0 , 8D8K_R , 8D8K_S , 8D8K_T , 8D8K_U , 8D8K_V , 8D8K_W , 8D8K_X , 8D8K_Y , 8D8K_Z , 8D8K_A , 8D8K_5 , 8D8K_B , 8D8K_2 , 8D8K_3 , 8D8K_D , 8D8K_4 , 8D8K_E , 8D8K_F , 8D8K_6 , 8D8K_G , 8D8K_H , 8D8K_C , 8D8K_I , 8D8K_J , 8D8K_K , 8D8K_L , 8D8K_M , 8D8K_N , 8D8K_O , 8D8K_P , 8D8K_Q
8D8L
Yeast mitochondrial small subunit assembly intermediate (state 3) Deposition Author(s): Burnside, C. , Harper, N. , Klinge, S.
Date: 2022-06-08 Method: ELECTRON MICROSCOPY Resolution: 2.6 Å Organism(s): Grouper Iridovirus Sequences Data: 8D8L_0 , 8D8L_S , 8D8L_T , 8D8L_U , 8D8L_V , 8D8L_W , 8D8L_X , 8D8L_Y , 8D8L_Z , 8D8L_A , 8D8L_B , 8D8L_5 , 8D8L_2 , 8D8L_3 , 8D8L_D , 8D8L_4 , 8D8L_E , 8D8L_F , 8D8L_6 , 8D8L_G , 8D8L_H , 8D8L_8 , 8D8L_C , 8D8L_I , 8D8L_J , 8D8L_K , 8D8L_L , 8D8L_M , 8D8L_N , 8D8L_O , 8D8L_P , 8D8L_Q , 8D8L_R
8DAR
Saccharomyces cerevisiae ufd1/npl4/cdc48 complex unbound but in the presence of sumo-ubiquitin(k48polyub)-meos and atp Deposition Author(s): Lee, H.G. , Lima, C.D.
Date: 2022-06-14 Method: ELECTRON MICROSCOPY Resolution: 3.0 Å Organism(s): Grouper Iridovirus Sequences Data: 8DAR_A , 8DAR_B , 8DAR_C , 8DAR_D , 8DAR_E , 8DAR_F , 8DAR_G , 8DAR_H
8DAS
Saccharomyces cerevisiae ufd1/npl4/cdc48 complex bound to two ubiquitin moieties in presence of sumo-ubiquitin(k48polyub)-meos and atp, state 1 (inta) Deposition Author(s): Lee, H.G. , Lima, C.D.
Date: 2022-06-14 Method: ELECTRON MICROSCOPY Resolution: 3.5 Å Organism(s): Grouper Iridovirus Sequences Data: 8DAS_A , 8DAS_B , 8DAS_C , 8DAS_D , 8DAS_E , 8DAS_F , 8DAS_G , 8DAS_H , 8DAS_J , 8DAS_K