Search Query :
4WT1
Complex of 70s ribosome with trna-phe and mrna with a-a mismatch in the second position in the a-site Deposition Author(s): Demeshkina, N. , Rozov, A. , Yusupov, M. , Yusupova, G.
Date: 2014-10-29 Method: X-RAY DIFFRACTION Resolution: 3.05 Å Organism(s): Escherichia Coli K-12 , Thermus Thermophilus , Thermus Thermophilus Hb8 , Synthetic Construct Sequences Data: 4WT1_13 , 4WT1_1G , 4WT1_1I , 4WT1_1A , 4WT1_2I , 4WT1_2A , 4WT1_3I , 4WT1_3A , 4WT1_4I , 4WT1_4A , 4WT1_5I , 4WT1_5A , 4WT1_6I , 4WT1_6A , 4WT1_7I , 4WT1_7A , 4WT1_8I , 4WT1_8A , 4WT1_9I , 4WT1_9A , 4WT1_AI , 4WT1_AA , 4WT1_1E , 4WT1_12 , 4WT1_BI , 4WT1_BA , 4WT1_1F , 4WT1_1B , 4WT1_1K , 4WT1_2K , 4WT1_2L , 4WT1_3K , 4WT1_1L , 4WT1_3L , 4WT1_4K , 4WT1_4L , 4WT1_1H , 4WT1_14 , 4WT1_16 , 4WT1_1J , 4WT1_11 , 4WT1_19 , 4WT1_21 , 4WT1_29 , 4WT1_2E , 4WT1_22 , 4WT1_31 , 4WT1_39 , 4WT1_41 , 4WT1_49 , 4WT1_51 , 4WT1_59 , 4WT1_61 , 4WT1_69 , 4WT1_58 , 4WT1_15 , 4WT1_68 , 4WT1_25 , 4WT1_78 , 4WT1_35 , 4WT1_88 , 4WT1_45 , 4WT1_98 , 4WT1_55 , 4WT1_A8 , 4WT1_65 , 4WT1_3E , 4WT1_32 , 4WT1_B8 , 4WT1_75 , 4WT1_C8 , 4WT1_85 , 4WT1_D8 , 4WT1_95 , 4WT1_E8 , 4WT1_A5 , 4WT1_F8 , 4WT1_B5 , 4WT1_G8 , 4WT1_C5 , 4WT1_H8 , 4WT1_D5 , 4WT1_I8 , 4WT1_E5 , 4WT1_J8 , 4WT1_F5 , 4WT1_K8 , 4WT1_G5 , 4WT1_4E , 4WT1_42 , 4WT1_L8 , 4WT1_H5 , 4WT1_M8 , 4WT1_I5 , 4WT1_N8 , 4WT1_J5 , 4WT1_O8 , 4WT1_K5 , 4WT1_P8 , 4WT1_L5 , 4WT1_Q8 , 4WT1_M5 , 4WT1_5E , 4WT1_52 , 4WT1_6E , 4WT1_62 , 4WT1_7E , 4WT1_72 , 4WT1_8E , 4WT1_82
4WU1
Complex of 70s ribosome with trna-tyr and mrna with g-u mismatch in the second position in the p-site Deposition Author(s): Demeshkina, N. , Rozov, A. , Yusupov, M. , Yusupova, G.
Date: 2014-10-30 Method: X-RAY DIFFRACTION Resolution: 3.2 Å Organism(s): Escherichia Coli , Thermus Thermophilus Hb8 Sequences Data: 4WU1_13 , 4WU1_1I , 4WU1_1A , 4WU1_2I , 4WU1_2A , 4WU1_3I , 4WU1_3A , 4WU1_4I , 4WU1_4A , 4WU1_5I , 4WU1_5A , 4WU1_6I , 4WU1_6A , 4WU1_7I , 4WU1_7A , 4WU1_8I , 4WU1_8A , 4WU1_9I , 4WU1_9A , 4WU1_AI , 4WU1_AA , 4WU1_1E , 4WU1_12 , 4WU1_BI , 4WU1_BA , 4WU1_1F , 4WU1_1B , 4WU1_2K , 4WU1_3K , 4WU1_2L , 4WU1_3L , 4WU1_4K , 4WU1_4L , 4WU1_1H , 4WU1_14 , 4WU1_16 , 4WU1_1J , 4WU1_71 , 4WU1_79 , 4WU1_11 , 4WU1_19 , 4WU1_21 , 4WU1_29 , 4WU1_31 , 4WU1_39 , 4WU1_2E , 4WU1_22 , 4WU1_41 , 4WU1_49 , 4WU1_51 , 4WU1_59 , 4WU1_61 , 4WU1_69 , 4WU1_58 , 4WU1_15 , 4WU1_68 , 4WU1_25 , 4WU1_78 , 4WU1_35 , 4WU1_88 , 4WU1_45 , 4WU1_98 , 4WU1_55 , 4WU1_A8 , 4WU1_65 , 4WU1_B8 , 4WU1_75 , 4WU1_3E , 4WU1_32 , 4WU1_C8 , 4WU1_85 , 4WU1_D8 , 4WU1_95 , 4WU1_E8 , 4WU1_A5 , 4WU1_F8 , 4WU1_B5 , 4WU1_G8 , 4WU1_C5 , 4WU1_H8 , 4WU1_D5 , 4WU1_I8 , 4WU1_E5 , 4WU1_J8 , 4WU1_F5 , 4WU1_K8 , 4WU1_G5 , 4WU1_L8 , 4WU1_H5 , 4WU1_4E , 4WU1_42 , 4WU1_M8 , 4WU1_I5 , 4WU1_N8 , 4WU1_J5 , 4WU1_P8 , 4WU1_L5 , 4WU1_Q8 , 4WU1_M5 , 4WU1_1G , 4WU1_5E , 4WU1_52 , 4WU1_6E , 4WU1_62 , 4WU1_7E , 4WU1_72 , 4WU1_8E , 4WU1_82
4WZD
Complex of 70s ribosome with cognate trna-tyr in the p-site Deposition Author(s): Demeshkina, N. , Rozov, A. , Yusupov, M. , Yusupova, G.
Date: 2014-11-19 Method: X-RAY DIFFRACTION Resolution: 3.1 Å Organism(s): Escherichia Coli , Thermus Thermophilus Hb8 , Synthetic Construct Sequences Data: 4WZD_13 , 4WZD_1G , 4WZD_1I , 4WZD_1A , 4WZD_2I , 4WZD_2A , 4WZD_3I , 4WZD_3A , 4WZD_4I , 4WZD_4A , 4WZD_5I , 4WZD_5A , 4WZD_6I , 4WZD_6A , 4WZD_7I , 4WZD_7A , 4WZD_8I , 4WZD_8A , 4WZD_9I , 4WZD_9A , 4WZD_AI , 4WZD_AA , 4WZD_1E , 4WZD_12 , 4WZD_BI , 4WZD_BA , 4WZD_1F , 4WZD_1B , 4WZD_2K , 4WZD_3K , 4WZD_2L , 4WZD_3L , 4WZD_4K , 4WZD_4L , 4WZD_1H , 4WZD_14 , 4WZD_16 , 4WZD_1J , 4WZD_71 , 4WZD_79 , 4WZD_11 , 4WZD_19 , 4WZD_21 , 4WZD_29 , 4WZD_31 , 4WZD_39 , 4WZD_2E , 4WZD_22 , 4WZD_41 , 4WZD_49 , 4WZD_51 , 4WZD_59 , 4WZD_61 , 4WZD_69 , 4WZD_58 , 4WZD_15 , 4WZD_68 , 4WZD_25 , 4WZD_78 , 4WZD_35 , 4WZD_88 , 4WZD_45 , 4WZD_98 , 4WZD_55 , 4WZD_A8 , 4WZD_65 , 4WZD_B8 , 4WZD_75 , 4WZD_3E , 4WZD_32 , 4WZD_C8 , 4WZD_85 , 4WZD_D8 , 4WZD_95 , 4WZD_E8 , 4WZD_A5 , 4WZD_F8 , 4WZD_B5 , 4WZD_G8 , 4WZD_C5 , 4WZD_H8 , 4WZD_D5 , 4WZD_I8 , 4WZD_E5 , 4WZD_J8 , 4WZD_F5 , 4WZD_K8 , 4WZD_G5 , 4WZD_L8 , 4WZD_H5 , 4WZD_4E , 4WZD_42 , 4WZD_M8 , 4WZD_I5 , 4WZD_N8 , 4WZD_J5 , 4WZD_O8 , 4WZD_K5 , 4WZD_P8 , 4WZD_L5 , 4WZD_Q8 , 4WZD_M5 , 4WZD_5E , 4WZD_52 , 4WZD_6E , 4WZD_62 , 4WZD_7E , 4WZD_72 , 4WZD_8E , 4WZD_82
4WZO
Complex of 70s ribosome with trna-fmet and mrna Deposition Author(s): Demeshkina, N. , Rozov, A. , Yusupov, M. , Yusupova, G.
Date: 2014-11-20 Method: X-RAY DIFFRACTION Resolution: 3.3 Å Organism(s): Escherichia Coli , Thermus Thermophilus , Synthetic Construct Sequences Data: 4WZO_13 , 4WZO_1G , 4WZO_1I , 4WZO_1A , 4WZO_2I , 4WZO_2A , 4WZO_3I , 4WZO_3A , 4WZO_4I , 4WZO_4A , 4WZO_5I , 4WZO_5A , 4WZO_6I , 4WZO_6A , 4WZO_7I , 4WZO_7A , 4WZO_8I , 4WZO_8A , 4WZO_9I , 4WZO_9A , 4WZO_AI , 4WZO_AA , 4WZO_1E , 4WZO_12 , 4WZO_BI , 4WZO_BA , 4WZO_1F , 4WZO_1B , 4WZO_1K , 4WZO_2K , 4WZO_3K , 4WZO_3L , 4WZO_4K , 4WZO_4L , 4WZO_1H , 4WZO_14 , 4WZO_16 , 4WZO_1J , 4WZO_71 , 4WZO_11 , 4WZO_19 , 4WZO_2E , 4WZO_22 , 4WZO_21 , 4WZO_29 , 4WZO_31 , 4WZO_39 , 4WZO_41 , 4WZO_49 , 4WZO_51 , 4WZO_59 , 4WZO_61 , 4WZO_69 , 4WZO_58 , 4WZO_15 , 4WZO_68 , 4WZO_25 , 4WZO_78 , 4WZO_35 , 4WZO_88 , 4WZO_45 , 4WZO_98 , 4WZO_55 , 4WZO_3E , 4WZO_32 , 4WZO_A8 , 4WZO_65 , 4WZO_B8 , 4WZO_75 , 4WZO_C8 , 4WZO_85 , 4WZO_D8 , 4WZO_95 , 4WZO_E8 , 4WZO_A5 , 4WZO_F8 , 4WZO_B5 , 4WZO_G8 , 4WZO_C5 , 4WZO_H8 , 4WZO_D5 , 4WZO_I8 , 4WZO_E5 , 4WZO_J8 , 4WZO_F5 , 4WZO_4E , 4WZO_42 , 4WZO_K8 , 4WZO_G5 , 4WZO_L8 , 4WZO_H5 , 4WZO_M8 , 4WZO_I5 , 4WZO_N8 , 4WZO_J5 , 4WZO_P8 , 4WZO_L5 , 4WZO_Q8 , 4WZO_M5 , 4WZO_2L , 4WZO_5E , 4WZO_52 , 4WZO_6E , 4WZO_62 , 4WZO_7E , 4WZO_72 , 4WZO_8E , 4WZO_82
5DAT
Complex of yeast 80s ribosome with hypusine-containing eif5a Deposition Author(s): Dever, T.E. , Mailliot, J. , Melnikov, S. , Micura, R. , Rigger, L. , Shin, B.-S. , Yusupov, M. , Yusupova, G.
Date: 2015-08-20 Method: X-RAY DIFFRACTION Resolution: 3.15 Å Organism(s): Saccharomyces Cerevisiae , Saccharomyces Cerevisiae (Strain Atcc 204508 / S288C) , Saccharomyces Cerevisiae S288C Sequences Data: 5DAT_2 , 5DAT_6 , 5DAT_S8 , 5DAT_S9 , 5DAT_C0 , 5DAT_C1 , 5DAT_C2 , 5DAT_C3 , 5DAT_C4 , 5DAT_C5 , 5DAT_C6 , 5DAT_C7 , 5DAT_S0 , 5DAT_C8 , 5DAT_C9 , 5DAT_D0 , 5DAT_D1 , 5DAT_D2 , 5DAT_D3 , 5DAT_D4 , 5DAT_D5 , 5DAT_D6 , 5DAT_D7 , 5DAT_S1 , 5DAT_D8 , 5DAT_D9 , 5DAT_E0 , 5DAT_E1 , 5DAT_SR , 5DAT_SM , 5DAT_1 , 5DAT_5 , 5DAT_3 , 5DAT_7 , 5DAT_4 , 5DAT_8 , 5DAT_L2 , 5DAT_S2 , 5DAT_L3 , 5DAT_L4 , 5DAT_L5 , 5DAT_L6 , 5DAT_L7 , 5DAT_L8 , 5DAT_L9 , 5DAT_M0 , 5DAT_M1 , 5DAT_M3 , 5DAT_S3 , 5DAT_M4 , 5DAT_M5 , 5DAT_M6 , 5DAT_M7 , 5DAT_M8 , 5DAT_M9 , 5DAT_N0 , 5DAT_N1 , 5DAT_N2 , 5DAT_N3 , 5DAT_S4 , 5DAT_N4 , 5DAT_N5 , 5DAT_N6 , 5DAT_N7 , 5DAT_N8 , 5DAT_N9 , 5DAT_O0 , 5DAT_O1 , 5DAT_O2 , 5DAT_O3 , 5DAT_S5 , 5DAT_O4 , 5DAT_O5 , 5DAT_O6 , 5DAT_O7 , 5DAT_O8 , 5DAT_O9 , 5DAT_Q0 , 5DAT_Q1 , 5DAT_Q2 , 5DAT_Q3 , 5DAT_S6 , 5DAT_M2 , 5DAT_P0 , 5DAT_P1 , 5DAT_P2 , 5DAT_F , 5DAT_L1 , 5DAT_S7
5DC3
Complex of yeast 80s ribosome with non-modified eif5a Deposition Author(s): Dever, T.E. , Mailliot, J. , Melnikov, S. , Micura, R. , Rigger, L. , Shin, B.-S. , Yusupov, M. , Yusupova, G.
Date: 2015-08-23 Method: X-RAY DIFFRACTION Resolution: 3.25 Å Organism(s): Saccharomyces Cerevisiae , Saccharomyces Cerevisiae (Strain Atcc 204508 / S288C) , Saccharomyces Cerevisiae S288C Sequences Data: 5DC3_2 , 5DC3_6 , 5DC3_S8 , 5DC3_S9 , 5DC3_C0 , 5DC3_C1 , 5DC3_C2 , 5DC3_C3 , 5DC3_C4 , 5DC3_C5 , 5DC3_C6 , 5DC3_C7 , 5DC3_S0 , 5DC3_C8 , 5DC3_C9 , 5DC3_D0 , 5DC3_D1 , 5DC3_D2 , 5DC3_D3 , 5DC3_D4 , 5DC3_D5 , 5DC3_D6 , 5DC3_D7 , 5DC3_S1 , 5DC3_D8 , 5DC3_D9 , 5DC3_E0 , 5DC3_E1 , 5DC3_SR , 5DC3_SM , 5DC3_1 , 5DC3_5 , 5DC3_3 , 5DC3_7 , 5DC3_4 , 5DC3_8 , 5DC3_L2 , 5DC3_S2 , 5DC3_L3 , 5DC3_L4 , 5DC3_L5 , 5DC3_L6 , 5DC3_L7 , 5DC3_L8 , 5DC3_L9 , 5DC3_M0 , 5DC3_M1 , 5DC3_M3 , 5DC3_S3 , 5DC3_M4 , 5DC3_M5 , 5DC3_M6 , 5DC3_M7 , 5DC3_M8 , 5DC3_M9 , 5DC3_N0 , 5DC3_N1 , 5DC3_N2 , 5DC3_N3 , 5DC3_S4 , 5DC3_N4 , 5DC3_N5 , 5DC3_N6 , 5DC3_N7 , 5DC3_N8 , 5DC3_N9 , 5DC3_O0 , 5DC3_O1 , 5DC3_O2 , 5DC3_O3 , 5DC3_S5 , 5DC3_O4 , 5DC3_O5 , 5DC3_O6 , 5DC3_O7 , 5DC3_O8 , 5DC3_O9 , 5DC3_Q0 , 5DC3_Q1 , 5DC3_Q2 , 5DC3_Q3 , 5DC3_S6 , 5DC3_M2 , 5DC3_P0 , 5DC3_P1 , 5DC3_P2 , 5DC3_F , 5DC3_S7
5DGE
Coping with proline stalling: structural basis of hypusine-induced protein synthesis by the eukaryotic ribosome Deposition Author(s): Dever, T.E. , Mailliot, J. , Melnikov, S. , Micura, R. , Rigger, L. , Shin, B.-S. , Yusupov, M. , Yusupova, G.
Date: 2015-08-27 Method: X-RAY DIFFRACTION Resolution: 3.45 Å Organism(s): Saccharomyces Cerevisiae (Strain Atcc 204508 / S288C) , Saccharomyces Cerevisiae S288C Sequences Data: 5DGE_2 , 5DGE_6 , 5DGE_S8 , 5DGE_S9 , 5DGE_C0 , 5DGE_C1 , 5DGE_C2 , 5DGE_C3 , 5DGE_C4 , 5DGE_C5 , 5DGE_C6 , 5DGE_C7 , 5DGE_S0 , 5DGE_C8 , 5DGE_C9 , 5DGE_D0 , 5DGE_D1 , 5DGE_D2 , 5DGE_D3 , 5DGE_D4 , 5DGE_D5 , 5DGE_D6 , 5DGE_D7 , 5DGE_S1 , 5DGE_D8 , 5DGE_D9 , 5DGE_E0 , 5DGE_E1 , 5DGE_SR , 5DGE_SM , 5DGE_1 , 5DGE_5 , 5DGE_3 , 5DGE_7 , 5DGE_4 , 5DGE_8 , 5DGE_L2 , 5DGE_S2 , 5DGE_L3 , 5DGE_L4 , 5DGE_L5 , 5DGE_L6 , 5DGE_L7 , 5DGE_L8 , 5DGE_L9 , 5DGE_M0 , 5DGE_M1 , 5DGE_M3 , 5DGE_S3 , 5DGE_M4 , 5DGE_M5 , 5DGE_M6 , 5DGE_M7 , 5DGE_M8 , 5DGE_M9 , 5DGE_N0 , 5DGE_N1 , 5DGE_N2 , 5DGE_N3 , 5DGE_S4 , 5DGE_N4 , 5DGE_N5 , 5DGE_N6 , 5DGE_N7 , 5DGE_N8 , 5DGE_N9 , 5DGE_O0 , 5DGE_O1 , 5DGE_O2 , 5DGE_O3 , 5DGE_S5 , 5DGE_O4 , 5DGE_O5 , 5DGE_O6 , 5DGE_O7 , 5DGE_O8 , 5DGE_O9 , 5DGE_Q0 , 5DGE_Q1 , 5DGE_Q2 , 5DGE_Q3 , 5DGE_S6 , 5DGE_M2 , 5DGE_P0 , 5DGE_P1 , 5DGE_P2 , 5DGE_F , 5DGE_B , 5DGE_C , 5DGE_S7
5DGF
Complex of yeast 80s ribosome with hypusine-containing/non-modified eif5a and/or a peptidyl-trna analog Deposition Author(s): Dever, T.E. , Mailliot, J. , Melnikov, S. , Micura, R. , Rigger, L. , Shin, B.-S. , Yusupov, M. , Yusupova, G.
Date: 2015-08-27 Method: X-RAY DIFFRACTION Resolution: 3.3 Å Organism(s): Saccharomyces Cerevisiae S288C Sequences Data: 5DGF_2 , 5DGF_6 , 5DGF_S8 , 5DGF_S9 , 5DGF_C0 , 5DGF_C1 , 5DGF_C2 , 5DGF_C3 , 5DGF_C4 , 5DGF_C5 , 5DGF_C6 , 5DGF_C7 , 5DGF_S0 , 5DGF_C8 , 5DGF_C9 , 5DGF_D0 , 5DGF_D1 , 5DGF_D2 , 5DGF_D3 , 5DGF_D4 , 5DGF_D5 , 5DGF_D6 , 5DGF_D7 , 5DGF_S1 , 5DGF_D8 , 5DGF_D9 , 5DGF_E0 , 5DGF_E1 , 5DGF_SR , 5DGF_SM , 5DGF_1 , 5DGF_5 , 5DGF_3 , 5DGF_7 , 5DGF_4 , 5DGF_8 , 5DGF_L2 , 5DGF_S2 , 5DGF_L3 , 5DGF_L4 , 5DGF_L5 , 5DGF_L6 , 5DGF_L7 , 5DGF_L8 , 5DGF_L9 , 5DGF_M0 , 5DGF_M1 , 5DGF_M3 , 5DGF_S3 , 5DGF_M4 , 5DGF_M5 , 5DGF_M6 , 5DGF_M7 , 5DGF_M8 , 5DGF_M9 , 5DGF_N0 , 5DGF_N1 , 5DGF_N2 , 5DGF_N3 , 5DGF_S4 , 5DGF_N4 , 5DGF_N5 , 5DGF_N6 , 5DGF_N7 , 5DGF_N8 , 5DGF_N9 , 5DGF_O0 , 5DGF_O1 , 5DGF_O2 , 5DGF_O3 , 5DGF_S5 , 5DGF_O4 , 5DGF_O5 , 5DGF_O6 , 5DGF_O7 , 5DGF_O8 , 5DGF_O9 , 5DGF_Q0 , 5DGF_Q1 , 5DGF_Q2 , 5DGF_Q3 , 5DGF_S6 , 5DGF_M2 , 5DGF_P0 , 5DGF_P1 , 5DGF_P2 , 5DGF_F , 5DGF_B , 5DGF_C , 5DGF_S7
5DGV
Complex of yeast 80s ribosome with hypusine-containing/non-modified eif5a and/or a peptidyl-trna analog Deposition Author(s): Dever, T.E. , Mailliot, J. , Melnikov, S. , Micura, R. , Rigger, L. , Shin, B.-S. , Yusupov, M. , Yusupova, G.
Date: 2015-08-28 Method: X-RAY DIFFRACTION Resolution: 3.1 Å Organism(s): Saccharomyces Cerevisiae S288C Sequences Data: 5DGV_2 , 5DGV_6 , 5DGV_S8 , 5DGV_S9 , 5DGV_C0 , 5DGV_C1 , 5DGV_C2 , 5DGV_C3 , 5DGV_C4 , 5DGV_C5 , 5DGV_C6 , 5DGV_C7 , 5DGV_S0 , 5DGV_C8 , 5DGV_C9 , 5DGV_D0 , 5DGV_D1 , 5DGV_D2 , 5DGV_D3 , 5DGV_D4 , 5DGV_D5 , 5DGV_D6 , 5DGV_D7 , 5DGV_S1 , 5DGV_D8 , 5DGV_D9 , 5DGV_E0 , 5DGV_E1 , 5DGV_SR , 5DGV_SM , 5DGV_1 , 5DGV_5 , 5DGV_3 , 5DGV_7 , 5DGV_4 , 5DGV_8 , 5DGV_L2 , 5DGV_S2 , 5DGV_L3 , 5DGV_L4 , 5DGV_L5 , 5DGV_L6 , 5DGV_L7 , 5DGV_L8 , 5DGV_L9 , 5DGV_M0 , 5DGV_M1 , 5DGV_M3 , 5DGV_S3 , 5DGV_M4 , 5DGV_M5 , 5DGV_M6 , 5DGV_M7 , 5DGV_M8 , 5DGV_M9 , 5DGV_N0 , 5DGV_N1 , 5DGV_N2 , 5DGV_N3 , 5DGV_S4 , 5DGV_N4 , 5DGV_N5 , 5DGV_N6 , 5DGV_N7 , 5DGV_N8 , 5DGV_N9 , 5DGV_O0 , 5DGV_O1 , 5DGV_O2 , 5DGV_O3 , 5DGV_S5 , 5DGV_O4 , 5DGV_O5 , 5DGV_O6 , 5DGV_O7 , 5DGV_O8 , 5DGV_O9 , 5DGV_Q0 , 5DGV_Q1 , 5DGV_Q2 , 5DGV_Q3 , 5DGV_S6 , 5DGV_M2 , 5DGV_P0 , 5DGV_P1 , 5DGV_P2 , 5DGV_C , 5DGV_D , 5DGV_S7
5E7K
Structure of t. thermophilus 70s ribosome complex with mrna and cognate trnalys in the a-site Deposition Author(s): Demeshkina, N. , Khusainov, I. , Rozov, A. , Yusupov, M. , Yusupova, G.
Date: 2015-10-12 Method: X-RAY DIFFRACTION Resolution: 3.2 Å Organism(s): Escherichia Coli , Thermus Thermophilus Hb8 , Synthetic Construct Sequences Data: 5E7K_13 , 5E7K_1G , 5E7K_1I , 5E7K_1A , 5E7K_2I , 5E7K_2A , 5E7K_3I , 5E7K_3A , 5E7K_4I , 5E7K_4A , 5E7K_5I , 5E7K_5A , 5E7K_6I , 5E7K_6A , 5E7K_7I , 5E7K_7A , 5E7K_8I , 5E7K_8A , 5E7K_9I , 5E7K_9A , 5E7K_AI , 5E7K_AA , 5E7K_1E , 5E7K_12 , 5E7K_BI , 5E7K_BA , 5E7K_1F , 5E7K_1B , 5E7K_1K , 5E7K_2K , 5E7K_2L , 5E7K_3K , 5E7K_4K , 5E7K_4L , 5E7K_1H , 5E7K_14 , 5E7K_16 , 5E7K_1J , 5E7K_71 , 5E7K_79 , 5E7K_11 , 5E7K_19 , 5E7K_2E , 5E7K_22 , 5E7K_21 , 5E7K_29 , 5E7K_31 , 5E7K_39 , 5E7K_41 , 5E7K_49 , 5E7K_51 , 5E7K_59 , 5E7K_61 , 5E7K_69 , 5E7K_58 , 5E7K_15 , 5E7K_68 , 5E7K_25 , 5E7K_78 , 5E7K_35 , 5E7K_88 , 5E7K_45 , 5E7K_98 , 5E7K_55 , 5E7K_3E , 5E7K_32 , 5E7K_A8 , 5E7K_65 , 5E7K_B8 , 5E7K_75 , 5E7K_C8 , 5E7K_85 , 5E7K_D8 , 5E7K_95 , 5E7K_E8 , 5E7K_A5 , 5E7K_F8 , 5E7K_B5 , 5E7K_G8 , 5E7K_C5 , 5E7K_H8 , 5E7K_D5 , 5E7K_I8 , 5E7K_E5 , 5E7K_J8 , 5E7K_F5 , 5E7K_4E , 5E7K_42 , 5E7K_K8 , 5E7K_G5 , 5E7K_L8 , 5E7K_H5 , 5E7K_M8 , 5E7K_N8 , 5E7K_J5 , 5E7K_P8 , 5E7K_L5 , 5E7K_Q8 , 5E7K_M5 , 5E7K_1L , 5E7K_3L , 5E7K_5E , 5E7K_52 , 5E7K_6E , 5E7K_62 , 5E7K_7E , 5E7K_72 , 5E7K_8E , 5E7K_82