{ s_m_m2io_version ::: 2.0.0 } f_m_ct { s_m_title r_lp_tautomer_probability r_epik_Ionization_Penalty r_epik_Ionization_Penalty_Charging r_epik_Ionization_Penalty_Neutral r_epik_State_Penalty i_epik_Tot_Q ::: TEMP00000001 0.5 0.5358 0.5057 0.0301 0.5364 -2 m_depend[6] { # First column is dependency index # i_m_depend_dependency s_m_depend_property ::: 1 10 r_lp_tautomer_probability 2 10 r_epik_Ionization_Penalty 3 10 r_epik_Ionization_Penalty_Charging 4 10 r_epik_Ionization_Penalty_Neutral 5 10 r_epik_State_Penalty 6 10 i_epik_Tot_Q ::: } m_atom[24] { # 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 3.809400 1.022800 -1.889200 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 2 2 2.472300 1.045200 -2.048400 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 3 25 1.981900 -0.077700 -1.438200 900 " " X " " 43 0.00000 0.00000 "UNK " " " " " 7 0 "" <> <> 4 2 3.038100 -0.752400 -0.935100 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 5 31 4.127600 -0.088300 -1.208600 900 " " X " " 43 0.00000 0.00000 "UNK " " " " " 7 1 "" <> <> 6 3 0.574800 -0.476300 -1.352300 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 7 3 -0.073800 0.199500 -0.142500 900 " " X " " 2 0.00000 0.00000 "UNK " " " " " 6 0 "" <> <> 8 16 -1.412800 -0.276400 0.007800 900 " " X " " 70 0.00000 0.00000 "UNK " " " " " 8 0 "" -1.565 1.000 9 107 -0.095100 2.004900 -0.393900 900 " " X " " 15 0.00000 0.00000 "UNK " " " " " 15 0 "" <> <> 10 15 -0.875600 2.644600 0.688700 900 " " X " " 70 0.00000 0.00000 "UNK " " " " " 8 0 "" <> <> 11 18 1.413200 2.567600 -0.372600 900 " " X " " 70 0.00000 0.00000 "UNK " " " " " 8 -1 "" 6.473 1.000 12 18 -0.773200 2.340900 -1.815000 900 " " X " " 70 0.00000 0.00000 "UNK " " " " " 8 -1 "" 6.473 1.000 13 107 0.883000 -0.193800 1.358600 900 " " X " " 15 0.00000 0.00000 "UNK " " " " " 15 0 "" <> <> 14 15 0.255500 0.459900 2.528800 900 " " X " " 70 0.00000 0.00000 "UNK " " " " " 8 0 "" <> <> 15 18 0.901800 -1.788300 1.580600 900 " " X " " 70 0.00000 0.00000 "UNK " " " " " 8 -1 "" 2.569 0.700 16 16 2.391600 0.342300 1.189200 900 " " X " " 70 0.00000 0.00000 "UNK " " " " " 8 0 "" <> <> 17 41 4.504100 1.766400 -2.250800 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 18 41 1.897200 1.804400 -2.557500 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 19 41 2.989000 -1.686500 -0.395200 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 20 41 0.050079 -0.169065 -2.268965 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 21 41 0.509272 -1.568686 -1.240946 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" <> <> 22 42 -2.040940 0.098863 0.829152 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" 15.399 2.000 23 42 3.121691 0.195313 1.998744 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" 8.333 1.000 24 44 5.179565 -0.306109 -0.972107 900 " " X " " 21 0.00000 0.00000 "UNK " " " " " 1 0 "" 7.117 0.900 ::: } m_bond[48] { # First column is bond index # i_m_from i_m_to i_m_order ::: 1 1 5 1 2 1 2 2 3 1 17 1 4 2 1 2 5 2 3 1 6 2 18 1 7 3 2 1 8 3 4 1 9 3 6 1 10 4 3 1 11 4 5 2 12 4 19 1 13 5 1 1 14 5 4 2 15 5 24 1 16 6 3 1 17 6 7 1 18 6 20 1 19 6 21 1 20 7 6 1 21 7 8 1 22 7 9 1 23 7 13 1 24 8 7 1 25 8 22 1 26 9 7 1 27 9 10 2 28 9 11 1 29 9 12 1 30 10 9 2 31 11 9 1 32 12 9 1 33 13 7 1 34 13 14 2 35 13 15 1 36 13 16 1 37 14 13 2 38 15 13 1 39 16 13 1 40 16 23 1 41 17 1 1 42 18 2 1 43 19 4 1 44 20 6 1 45 21 6 1 46 22 8 1 47 23 16 1 48 24 5 1 ::: } }