{ s_m_m2io_version ::: 2.0.0 } f_m_ct { s_m_title r_lp_tautomer_probability s_st_Chirality_1 s_st_Chirality_2 s_st_Chirality_3 r_epik_Ionization_Penalty r_epik_Ionization_Penalty_Charging r_epik_Ionization_Penalty_Neutral r_epik_State_Penalty i_epik_Tot_Q ::: TEMP00000001 0.999949059891526 10_R_7_16_12_11 13_S_14_19_12_26 16_S_18_14_10_17 0.0068 0.0000 0.0068 -0.0000 0 m_depend[9] { # First column is dependency index # i_m_depend_dependency s_m_depend_property ::: 1 10 r_lp_tautomer_probability 2 10 s_st_Chirality_1 3 10 s_st_Chirality_2 4 10 s_st_Chirality_3 5 10 r_epik_Ionization_Penalty 6 10 r_epik_Ionization_Penalty_Charging 7 10 r_epik_Ionization_Penalty_Neutral 8 10 r_epik_State_Penalty 9 10 i_epik_Tot_Q ::: } m_atom[32] { # First column is atom index # i_m_mmod_type r_m_x_coord r_m_y_coord r_m_z_coord i_m_residue_number s_m_insertion_code s_m_mmod_res s_m_chain_name i_m_color r_m_charge1 r_m_charge2 s_m_pdb_residue_name s_m_pdb_atom_name s_m_grow_name i_m_atomic_number i_m_formal_charge s_m_atom_name r_epik_H2O_pKa r_epik_H2O_pKa_uncertainty ::: 1 2 2.309300 0.061700 -0.019700 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 2 25 1.178800 -0.621200 -0.012500 900 " " X " " 43 0.00000 0.00000 "UNK " " " " " 7 0 "" 4.647 0.600 3 2 0.002100 -0.004100 0.002000 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 4 2 -0.017000 1.401200 0.009700 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 5 2 1.212400 2.081300 0.001700 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 6 25 2.339800 1.377500 -0.012500 900 " " X " " 43 0.00000 0.00000 "UNK " " " " " 7 0 "" -0.132 0.600 7 25 0.905000 3.418400 0.011800 900 " " X " " 43 0.00000 0.00000 "UNK " " " " " 7 0 "" <> <> 8 2 -0.453900 3.525200 0.025300 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 9 25 -0.993000 2.340700 0.018800 900 " " X " " 43 0.00000 0.00000 "UNK " " " " " 7 0 "" 3.714 0.600 10 3 1.861700 4.527800 0.008600 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 11 41 2.830659 4.013122 -0.070298 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 12 3 1.685200 5.411500 1.269600 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 13 3 0.493900 6.324700 0.913600 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 14 2 0.418600 6.378900 -0.598100 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 15 15 -0.391100 6.990500 -1.252800 900 " " X " " 70 0.00000 0.00000 "UNK " " " " " 8 0 "" <> <> 16 3 1.549400 5.521300 -1.137900 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 17 41 1.323299 5.056121 -2.108718 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 18 16 2.693700 6.327500 -1.425300 900 " " X " " 70 0.00000 0.00000 "UNK " " " " " 8 0 "" <> <> 19 3 0.724800 7.728700 1.476200 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 20 16 -0.433500 8.532200 1.242000 900 " " X " " 70 0.00000 0.00000 "UNK " " " " " 8 0 "" -1.718 1.000 21 25 -1.177200 -0.728200 0.009800 900 " " X " " 43 0.00000 0.00000 "UNK " " " " " 7 0 "" <> <> 22 41 3.243600 -0.479800 -0.031500 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 23 41 -1.002300 4.455500 0.035600 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 24 41 1.474260 4.771639 2.139130 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 25 41 2.608229 5.982128 1.449602 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 26 41 -0.450165 5.942700 1.329314 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 27 42 2.644771 7.089570 -2.217042 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" 9.180 0.300 28 41 0.913391 7.663769 2.557966 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 29 41 1.593846 8.184529 0.979230 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 30 42 -0.453791 9.579238 1.578601 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" 14.904 0.800 31 43 -2.144287 -0.204178 0.021802 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" 13.259 2.000 32 43 -1.147498 -1.827784 0.003998 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" 13.259 2.000 ::: } m_bond[68] { # First column is bond index # i_m_from i_m_to i_m_order ::: 1 1 6 2 2 1 2 1 3 1 22 1 4 2 1 1 5 2 3 2 6 3 2 2 7 3 4 1 8 3 21 1 9 4 3 1 10 4 9 1 11 4 5 2 12 5 4 2 13 5 6 1 14 5 7 1 15 6 1 2 16 6 5 1 17 7 5 1 18 7 8 1 19 7 10 1 20 8 7 1 21 8 9 2 22 8 23 1 23 9 4 1 24 9 8 2 25 10 7 1 26 10 11 1 27 10 16 1 28 10 12 1 29 11 10 1 30 12 10 1 31 12 13 1 32 12 24 1 33 12 25 1 34 13 12 1 35 13 14 1 36 13 19 1 37 13 26 1 38 14 13 1 39 14 15 2 40 14 16 1 41 15 14 2 42 16 10 1 43 16 14 1 44 16 17 1 45 16 18 1 46 17 16 1 47 18 16 1 48 18 27 1 49 19 13 1 50 19 20 1 51 19 28 1 52 19 29 1 53 20 19 1 54 20 30 1 55 21 3 1 56 21 31 1 57 21 32 1 58 22 1 1 59 23 8 1 60 24 12 1 61 25 12 1 62 26 13 1 63 27 18 1 64 28 19 1 65 29 19 1 66 30 20 1 67 31 21 1 68 32 21 1 ::: } } f_m_ct { s_m_title r_lp_tautomer_probability s_st_Chirality_1 s_st_Chirality_2 s_st_Chirality_3 r_epik_Ionization_Penalty r_epik_Ionization_Penalty_Charging r_epik_Ionization_Penalty_Neutral r_epik_State_Penalty i_epik_Tot_Q ::: TEMP00000002 0.999949059891526 10_R_7_16_12_11 13_R_14_19_12_26 16_S_18_14_10_17 0.0068 0.0000 0.0068 -0.0000 0 m_depend[9] { # First column is dependency index # i_m_depend_dependency s_m_depend_property ::: 1 10 r_lp_tautomer_probability 2 10 s_st_Chirality_1 3 10 s_st_Chirality_2 4 10 s_st_Chirality_3 5 10 r_epik_Ionization_Penalty 6 10 r_epik_Ionization_Penalty_Charging 7 10 r_epik_Ionization_Penalty_Neutral 8 10 r_epik_State_Penalty 9 10 i_epik_Tot_Q ::: } m_atom[32] { # First column is atom index # i_m_mmod_type r_m_x_coord r_m_y_coord r_m_z_coord i_m_residue_number s_m_insertion_code s_m_mmod_res s_m_chain_name i_m_color r_m_charge1 r_m_charge2 s_m_pdb_residue_name s_m_pdb_atom_name s_m_grow_name i_m_atomic_number i_m_formal_charge s_m_atom_name r_epik_H2O_pKa r_epik_H2O_pKa_uncertainty ::: 1 2 -0.012600 1.075800 0.008000 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 2 25 -1.178800 1.695600 0.017000 900 " " X " " 43 0.00000 0.00000 "UNK " " " " " 7 0 "" 4.647 0.600 3 2 -1.252900 3.022400 0.029800 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 4 2 -0.056600 3.760000 0.021900 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 5 2 1.157900 3.053800 0.007000 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 6 25 1.132400 1.724900 0.000500 900 " " X " " 43 0.00000 0.00000 "UNK " " " " " 7 0 "" -0.132 0.600 7 25 2.147700 4.003800 0.002500 900 " " X " " 43 0.00000 0.00000 "UNK " " " " " 7 0 "" <> <> 8 2 1.542200 5.225000 0.014300 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 9 25 0.249000 5.079700 0.025700 900 " " X " " 43 0.00000 0.00000 "UNK " " " " " 7 0 "" 3.714 0.600 10 3 3.590900 3.751900 -0.011900 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 11 41 3.645932 2.655679 -0.084494 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 12 3 4.269800 4.364600 1.239400 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 13 3 5.728800 4.590200 0.791500 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 14 2 5.714900 4.681500 -0.720100 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 15 15 6.672900 4.849800 -1.435800 900 " " X " " 70 0.00000 0.00000 "UNK " " " " " 8 0 "" <> <> 16 3 4.273100 4.522700 -1.169300 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 17 41 3.791243 5.472536 -1.444300 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 18 16 4.207900 3.765900 -2.379600 900 " " X " " 70 0.00000 0.00000 "UNK " " " " " 8 0 "" <> <> 19 3 6.263700 5.893100 1.389100 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 20 16 7.648300 6.033100 1.064200 900 " " X " " 70 0.00000 0.00000 "UNK " " " " " 8 0 "" -1.718 1.000 21 25 -2.479500 3.662900 0.044500 900 " " X " " 43 0.00000 0.00000 "UNK " " " " " 7 0 "" <> <> 22 41 0.002100 -0.004100 0.002000 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 23 41 2.059300 6.173100 0.014500 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 24 41 3.765843 5.305211 1.506379 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 25 41 4.196415 3.658107 2.079330 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 26 41 6.386288 3.771073 1.118211 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 27 42 4.646777 4.168581 -3.304389 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" 9.180 0.300 28 41 5.702206 6.743825 0.975590 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 29 41 6.143984 5.871403 2.482351 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 30 42 8.208093 6.914448 1.410405 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" 14.904 0.800 31 43 -2.526026 4.761866 0.054996 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" 13.259 2.000 32 43 -3.407988 3.073062 0.045689 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" 13.259 2.000 ::: } m_bond[68] { # First column is bond index # i_m_from i_m_to i_m_order ::: 1 1 6 2 2 1 2 1 3 1 22 1 4 2 1 1 5 2 3 2 6 3 2 2 7 3 4 1 8 3 21 1 9 4 3 1 10 4 9 1 11 4 5 2 12 5 4 2 13 5 6 1 14 5 7 1 15 6 1 2 16 6 5 1 17 7 5 1 18 7 8 1 19 7 10 1 20 8 7 1 21 8 9 2 22 8 23 1 23 9 4 1 24 9 8 2 25 10 7 1 26 10 11 1 27 10 16 1 28 10 12 1 29 11 10 1 30 12 10 1 31 12 13 1 32 12 24 1 33 12 25 1 34 13 12 1 35 13 14 1 36 13 19 1 37 13 26 1 38 14 13 1 39 14 15 2 40 14 16 1 41 15 14 2 42 16 10 1 43 16 14 1 44 16 17 1 45 16 18 1 46 17 16 1 47 18 16 1 48 18 27 1 49 19 13 1 50 19 20 1 51 19 28 1 52 19 29 1 53 20 19 1 54 20 30 1 55 21 3 1 56 21 31 1 57 21 32 1 58 22 1 1 59 23 8 1 60 24 12 1 61 25 12 1 62 26 13 1 63 27 18 1 64 28 19 1 65 29 19 1 66 30 20 1 67 31 21 1 68 32 21 1 ::: } }