Search Query :
8G5Y
Mrna decoding in human is kinetically and structurally distinct from bacteria (ic state) Deposition Author(s): Altman, R.B. , Blanchard, S.C. , Holm, M. , Myasnikov, A.G. , Natchiar, K.S. , Rundlet, E.J.
Date: 2023-02-14 Method: ELECTRON MICROSCOPY Resolution: 2.29 Å Organism(s): Homo Sapiens Sequences Data: 8G5Y_S2 , 8G5Y_SC , 8G5Y_SG , 8G5Y_SF , 8G5Y_SH , 8G5Y_SW , 8G5Y_SI , 8G5Y_SQ , 8G5Y_SU , 8G5Y_SK , 8G5Y_SO , 8G5Y_L8 , 8G5Y_SX , 8G5Y_SM , 8G5Y_SS , 8G5Y_SD , 8G5Y_SN , 8G5Y_SL , 8G5Y_SR , 8G5Y_SP , 8G5Y_ST , 8G5Y_SV , 8G5Y_L5 , 8G5Y_SY , 8G5Y_SZ , 8G5Y_SA , 8G5Y_SB , 8G5Y_SE , 8G5Y_LZ , 8G5Y_LA , 8G5Y_L7 , 8G5Y_LB , 8G5Y_LC , 8G5Y_LJ , 8G5Y_LH , 8G5Y_LE , 8G5Y_LG , 8G5Y_LO , 8G5Y_LL , 8G5Y_LV , 8G5Y_LM , 8G5Y_LN , 8G5Y_LI , 8G5Y_LD , 8G5Y_LQ , 8G5Y_LR , 8G5Y_LS , 8G5Y_LT , 8G5Y_LP , 8G5Y_LU , 8G5Y_LX , 8G5Y_LY , 8G5Y_LW , 8G5Y_LF , 8G5Y_LK , 8G5Y_SJ , 8G5Y_MR , 8G5Y_PT , 8G5Y_5A
8G5Z
Mrna decoding in human is kinetically and structurally distinct from bacteria (ga state) Deposition Author(s): Altman, R.B. , Blanchard, S.C. , Holm, M. , Myasnikov, A.G. , Natchiar, K.S. , Rundlet, E.J.
Date: 2023-02-14 Method: ELECTRON MICROSCOPY Resolution: 2.64 Å Organism(s): Escherichia Coli , Homo Sapiens , Synthetic Construct Sequences Data: 8G5Z_S2 , 8G5Z_SC , 8G5Z_SG , 8G5Z_SF , 8G5Z_SH , 8G5Z_SW , 8G5Z_SI , 8G5Z_SQ , 8G5Z_SU , 8G5Z_SK , 8G5Z_SO , 8G5Z_L8 , 8G5Z_SX , 8G5Z_SM , 8G5Z_SS , 8G5Z_SD , 8G5Z_SN , 8G5Z_SL , 8G5Z_SR , 8G5Z_SP , 8G5Z_ST , 8G5Z_SV , 8G5Z_L5 , 8G5Z_SY , 8G5Z_SZ , 8G5Z_SA , 8G5Z_SB , 8G5Z_SE , 8G5Z_LZ , 8G5Z_LA , 8G5Z_L7 , 8G5Z_LB , 8G5Z_LC , 8G5Z_LJ , 8G5Z_LH , 8G5Z_LE , 8G5Z_LG , 8G5Z_LQ , 8G5Z_LK , 8G5Z_LO , 8G5Z_LL , 8G5Z_LV , 8G5Z_LM , 8G5Z_LN , 8G5Z_LI , 8G5Z_LD , 8G5Z_LR , 8G5Z_LS , 8G5Z_LT , 8G5Z_LP , 8G5Z_LU , 8G5Z_LX , 8G5Z_LY , 8G5Z_LW , 8G5Z_LF , 8G5Z_SJ , 8G5Z_MR , 8G5Z_AT , 8G5Z_PT , 8G5Z_5A , 8G5Z_EF
8G60
Mrna decoding in human is kinetically and structurally distinct from bacteria (cr state) Deposition Author(s): Altman, R.B. , Blanchard, S.C. , Holm, M. , Myasnikov, A.G. , Natchiar, K.S. , Rundlet, E.J.
Date: 2023-02-14 Method: ELECTRON MICROSCOPY Resolution: 2.54 Å Organism(s): Homo Sapiens , Synthetic Construct Sequences Data: 8G60_S2 , 8G60_SC , 8G60_SG , 8G60_SF , 8G60_SH , 8G60_SW , 8G60_SI , 8G60_SQ , 8G60_SU , 8G60_SK , 8G60_SO , 8G60_L8 , 8G60_SX , 8G60_SM , 8G60_SS , 8G60_SD , 8G60_SN , 8G60_SL , 8G60_SR , 8G60_SP , 8G60_ST , 8G60_SV , 8G60_L5 , 8G60_SY , 8G60_SZ , 8G60_SA , 8G60_SB , 8G60_SE , 8G60_LZ , 8G60_LA , 8G60_L7 , 8G60_LB , 8G60_LC , 8G60_LJ , 8G60_LH , 8G60_LE , 8G60_LG , 8G60_LQ , 8G60_LK , 8G60_LO , 8G60_LL , 8G60_LV , 8G60_LM , 8G60_LN , 8G60_LI , 8G60_LD , 8G60_LR , 8G60_LS , 8G60_LT , 8G60_LP , 8G60_LU , 8G60_LX , 8G60_LY , 8G60_LW , 8G60_LF , 8G60_SJ , 8G60_MR , 8G60_AT , 8G60_PT , 8G60_EF
8G61
Mrna decoding in human is kinetically and structurally distinct from bacteria (ac state) Deposition Author(s): Altman, R.B. , Blanchard, S.C. , Holm, M. , Myasnikov, A.G. , Natchiar, K.S. , Rundlet, E.J.
Date: 2023-02-14 Method: ELECTRON MICROSCOPY Resolution: 2.94 Å Organism(s): Escherichia Coli , Homo Sapiens , Synthetic Construct Sequences Data: 8G61_S2 , 8G61_SC , 8G61_SG , 8G61_SF , 8G61_SH , 8G61_SW , 8G61_SI , 8G61_SQ , 8G61_SU , 8G61_SK , 8G61_SO , 8G61_L8 , 8G61_SX , 8G61_SM , 8G61_SS , 8G61_SD , 8G61_SN , 8G61_SL , 8G61_SR , 8G61_SP , 8G61_ST , 8G61_SV , 8G61_L5 , 8G61_SY , 8G61_SZ , 8G61_SA , 8G61_SB , 8G61_SE , 8G61_LZ , 8G61_LA , 8G61_L7 , 8G61_LB , 8G61_LC , 8G61_LJ , 8G61_LH , 8G61_LE , 8G61_LG , 8G61_LO , 8G61_LL , 8G61_LV , 8G61_LM , 8G61_LN , 8G61_LI , 8G61_LD , 8G61_LQ , 8G61_LR , 8G61_LS , 8G61_LT , 8G61_LP , 8G61_LU , 8G61_LX , 8G61_LY , 8G61_LW , 8G61_LF , 8G61_LK , 8G61_SJ , 8G61_5A , 8G61_MR , 8G61_AT , 8G61_PT
8G6J
Mrna decoding in human is kinetically and structurally distinct from bacteria (ga state 2) Deposition Author(s): Altman, R.B. , Blanchard, S.C. , Holm, M. , Myasnikov, A.G. , Natchiar, K.S. , Rundlet, E.J.
Date: 2023-02-15 Method: ELECTRON MICROSCOPY Resolution: 2.8 Å Organism(s): Homo Sapiens Sequences Data: 8G6J_S2 , 8G6J_SC , 8G6J_SG , 8G6J_SF , 8G6J_SH , 8G6J_SW , 8G6J_SI , 8G6J_SQ , 8G6J_SU , 8G6J_SK , 8G6J_SO , 8G6J_L8 , 8G6J_SX , 8G6J_SM , 8G6J_SS , 8G6J_SD , 8G6J_SN , 8G6J_SL , 8G6J_SR , 8G6J_SP , 8G6J_ST , 8G6J_SV , 8G6J_L5 , 8G6J_SY , 8G6J_SZ , 8G6J_SA , 8G6J_SB , 8G6J_SE , 8G6J_LZ , 8G6J_LA , 8G6J_L7 , 8G6J_LB , 8G6J_LC , 8G6J_LJ , 8G6J_LH , 8G6J_LE , 8G6J_LG , 8G6J_LQ , 8G6J_LK , 8G6J_LO , 8G6J_LL , 8G6J_LV , 8G6J_LM , 8G6J_LN , 8G6J_LI , 8G6J_LD , 8G6J_LR , 8G6J_LS , 8G6J_LT , 8G6J_LP , 8G6J_LU , 8G6J_LX , 8G6J_LY , 8G6J_LW , 8G6J_LF , 8G6J_SJ , 8G6J_MR , 8G6J_AT , 8G6J_PT , 8G6J_EF
8GLP
Mrna decoding in human is kinetically and structurally distinct from bacteria (consensus lsu focused refined structure) Deposition Author(s): Altman, R.B. , Blanchard, S.C. , Holm, M. , Myasnikov, A.G. , Natchiar, K.S. , Rundlet, E.J. , Watson, Z.L.
Date: 2023-03-22 Method: ELECTRON MICROSCOPY Resolution: 1.67 Å Organism(s): Homo Sapiens Sequences Data: 8GLP_S2 , 8GLP_SC , 8GLP_SG , 8GLP_SF , 8GLP_SH , 8GLP_SW , 8GLP_SI , 8GLP_SQ , 8GLP_SU , 8GLP_SK , 8GLP_SO , 8GLP_L8 , 8GLP_SX , 8GLP_SM , 8GLP_SS , 8GLP_SD , 8GLP_SN , 8GLP_SL , 8GLP_SR , 8GLP_SP , 8GLP_ST , 8GLP_SV , 8GLP_L5 , 8GLP_SY , 8GLP_SZ , 8GLP_SA , 8GLP_SB , 8GLP_SE , 8GLP_LA , 8GLP_LB , 8GLP_L7 , 8GLP_LC , 8GLP_LJ , 8GLP_LH , 8GLP_LE , 8GLP_LG , 8GLP_LO , 8GLP_LL , 8GLP_LV , 8GLP_LM , 8GLP_LN , 8GLP_LI , 8GLP_LD , 8GLP_LQ , 8GLP_LR , 8GLP_LS , 8GLP_LT , 8GLP_LP , 8GLP_LU , 8GLP_LX , 8GLP_LY , 8GLP_LW , 8GLP_LZ , 8GLP_LF , 8GLP_LK , 8GLP_SJ , 8GLP_MR , 8GLP_PT