{ 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 1 8_S_21_10_7_9 10_S_20_8_12_11 17_S_13_18_16 0.0364 0.0363 0.0001 0.0003 1 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[42] { # 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 2.455300 5.667000 8.283600 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 2 2 1.644900 6.413200 7.448600 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 3 2 0.761700 5.779100 6.594900 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 4 2 0.689300 4.398800 6.575800 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 5 2 1.496000 3.652700 7.414600 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 6 2 2.381900 4.286700 8.265500 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 7 3 -0.273500 3.707500 5.645100 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 8 3 0.417300 3.434400 4.307600 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 9 41 1.364487 2.897634 4.464821 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 10 3 -0.516800 2.623200 3.407400 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 11 41 -0.826823 1.687043 3.894736 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 12 3 0.174100 2.350000 2.069800 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 13 26 -0.722800 1.571200 1.205500 900 " " X " " 43 0.00000 0.00000 "UNK " " " " " 7 0 "" 3.007 2.000 14 3 -1.877900 2.385000 0.770300 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 15 3 -2.202000 1.880000 -0.657800 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 16 3 -0.779700 1.607200 -1.225400 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 17 3 -0.012700 1.085800 0.008000 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 18 2 1.397300 1.617500 -0.002600 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 19 15 2.329400 0.855200 -0.094000 900 " " X " " 70 0.00000 0.00000 "UNK " " " " " 8 0 "" <> <> 20 16 -1.719200 3.361300 3.180500 900 " " X " " 70 0.00000 0.00000 "UNK " " " " " 8 0 "" <> <> 21 32 0.741500 4.709600 3.654400 900 " " X " " 43 0.00000 0.00000 "UNK " " " " " 7 1 "" <> <> 22 41 3.145600 6.162300 8.950300 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 23 41 1.702000 7.491600 7.462900 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 24 41 0.128500 6.362100 5.942500 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 25 41 1.436300 2.574400 7.402900 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 26 41 3.014800 3.703700 8.918200 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 27 41 -0.596193 2.755687 6.092226 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 28 41 -1.150243 4.351058 5.480313 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 29 41 0.416806 3.304930 1.580717 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 30 41 1.099689 1.781868 2.244470 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 31 41 -2.719696 2.225163 1.460106 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 32 41 -1.598653 3.448961 0.772939 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 33 41 -2.824463 0.975285 -0.594308 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 34 41 -2.746120 2.661510 -1.208413 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 35 41 -0.843478 0.861610 -2.031643 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 36 41 -0.358068 2.542112 -1.623100 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 37 41 1.577464 2.700014 0.072921 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 38 42 -2.515505 2.935752 2.552163 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" 11.000 2.000 39 44 1.238166 4.513116 2.692778 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" 8.249 0.770 40 44 1.413137 5.292725 4.301600 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" 8.249 0.770 41 44 -0.184051 5.277793 3.479724 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" 8.249 0.770 42 41 0.035208 -0.012655 0.041200 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> ::: } m_bond[86] { # 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 2 23 1 7 3 2 2 8 3 4 1 9 3 24 1 10 4 3 1 11 4 5 2 12 4 7 1 13 5 4 2 14 5 6 1 15 5 25 1 16 6 1 2 17 6 5 1 18 6 26 1 19 7 4 1 20 7 8 1 21 7 27 1 22 7 28 1 23 8 7 1 24 8 9 1 25 8 10 1 26 8 21 1 27 9 8 1 28 10 8 1 29 10 11 1 30 10 12 1 31 10 20 1 32 11 10 1 33 12 10 1 34 12 13 1 35 12 29 1 36 12 30 1 37 13 12 1 38 13 17 1 39 13 14 1 40 14 13 1 41 14 15 1 42 14 31 1 43 14 32 1 44 15 14 1 45 15 16 1 46 15 33 1 47 15 34 1 48 16 15 1 49 16 17 1 50 16 35 1 51 16 36 1 52 17 13 1 53 17 16 1 54 17 18 1 55 17 42 1 56 18 17 1 57 18 19 2 58 18 37 1 59 19 18 2 60 20 10 1 61 20 38 1 62 21 8 1 63 21 39 1 64 21 40 1 65 21 41 1 66 22 1 1 67 23 2 1 68 24 3 1 69 25 5 1 70 26 6 1 71 27 7 1 72 28 7 1 73 29 12 1 74 30 12 1 75 31 14 1 76 32 14 1 77 33 15 1 78 34 15 1 79 35 16 1 80 36 16 1 81 37 18 1 82 38 20 1 83 39 21 1 84 40 21 1 85 41 21 1 86 42 17 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 1 8_S_21_10_7_9 10_S_20_8_12_11 17_S_13_18_16 0.0364 0.0363 0.0001 0.0003 1 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[42] { # 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 2.455300 5.667000 8.283600 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 2 2 1.644900 6.413200 7.448600 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 3 2 0.761700 5.779100 6.594900 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 4 2 0.689300 4.398800 6.575800 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 5 2 1.496000 3.652700 7.414600 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 6 2 2.381900 4.286700 8.265500 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 7 3 -0.273500 3.707500 5.645100 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 8 3 0.417300 3.434400 4.307600 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 9 41 1.364487 2.897634 4.464821 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 10 3 -0.516800 2.623200 3.407400 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 11 41 -0.826823 1.687043 3.894736 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 12 3 0.174100 2.350000 2.069800 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 13 26 -0.722800 1.571200 1.205500 900 " " X " " 43 0.00000 0.00000 "UNK " " " " " 7 0 "" 3.007 2.000 14 3 -1.877900 2.385000 0.770300 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 15 3 -2.202000 1.880000 -0.657800 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 16 3 -0.779700 1.607200 -1.225400 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 17 3 -0.012700 1.085800 0.008000 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 18 2 1.397300 1.617500 -0.002600 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 19 15 2.329400 0.855200 -0.094000 900 " " X " " 70 0.00000 0.00000 "UNK " " " " " 8 0 "" <> <> 20 16 -1.719200 3.361300 3.180500 900 " " X " " 70 0.00000 0.00000 "UNK " " " " " 8 0 "" <> <> 21 32 0.741500 4.709600 3.654400 900 " " X " " 43 0.00000 0.00000 "UNK " " " " " 7 1 "" <> <> 22 41 3.145600 6.162300 8.950300 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 23 41 1.702000 7.491600 7.462900 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 24 41 0.128500 6.362100 5.942500 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 25 41 1.436300 2.574400 7.402900 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 26 41 3.014800 3.703700 8.918200 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 27 41 -0.596193 2.755687 6.092226 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 28 41 -1.150243 4.351058 5.480313 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 29 41 0.416806 3.304930 1.580717 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 30 41 1.099689 1.781868 2.244470 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 31 41 -2.719696 2.225163 1.460106 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 32 41 -1.598653 3.448961 0.772939 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 33 41 -2.824463 0.975285 -0.594308 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 34 41 -2.746120 2.661510 -1.208413 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 35 41 -0.843478 0.861610 -2.031643 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 36 41 -0.358068 2.542112 -1.623100 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 37 41 1.577464 2.700014 0.072921 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 38 42 -2.515505 2.935752 2.552163 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" 11.000 2.000 39 44 1.238166 4.513116 2.692778 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" 8.249 0.770 40 44 1.413137 5.292725 4.301600 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" 8.249 0.770 41 44 -0.184051 5.277793 3.479724 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" 8.249 0.770 42 41 0.035208 -0.012655 0.041200 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> ::: } m_bond[86] { # 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 2 23 1 7 3 2 2 8 3 4 1 9 3 24 1 10 4 3 1 11 4 5 2 12 4 7 1 13 5 4 2 14 5 6 1 15 5 25 1 16 6 1 2 17 6 5 1 18 6 26 1 19 7 4 1 20 7 8 1 21 7 27 1 22 7 28 1 23 8 7 1 24 8 9 1 25 8 10 1 26 8 21 1 27 9 8 1 28 10 8 1 29 10 11 1 30 10 12 1 31 10 20 1 32 11 10 1 33 12 10 1 34 12 13 1 35 12 29 1 36 12 30 1 37 13 12 1 38 13 17 1 39 13 14 1 40 14 13 1 41 14 15 1 42 14 31 1 43 14 32 1 44 15 14 1 45 15 16 1 46 15 33 1 47 15 34 1 48 16 15 1 49 16 17 1 50 16 35 1 51 16 36 1 52 17 13 1 53 17 16 1 54 17 18 1 55 17 42 1 56 18 17 1 57 18 19 2 58 18 37 1 59 19 18 2 60 20 10 1 61 20 38 1 62 21 8 1 63 21 39 1 64 21 40 1 65 21 41 1 66 22 1 1 67 23 2 1 68 24 3 1 69 25 5 1 70 26 6 1 71 27 7 1 72 28 7 1 73 29 12 1 74 30 12 1 75 31 14 1 76 32 14 1 77 33 15 1 78 34 15 1 79 35 16 1 80 36 16 1 81 37 18 1 82 38 20 1 83 39 21 1 84 40 21 1 85 41 21 1 86 42 17 1 ::: } }