NMR Restraints Grid |
Result table
image | mrblock_id | pdb_id | bmrb_id | cing | stage | program | type | subtype | item_count |
541953 | 2lod | 18209 | cing | 2-parsed | STAR | entry | full | 91 |
data_2lod_MR_file_constraints save_Conversion_project _Study_list.Sf_category study_list _Study_list.Entry_ID parsed_2lod _Study_list.ID 1 loop_ _Study.ID _Study.Name _Study.Type _Study.Details _Study.Entry_ID _Study.Study_list_ID 1 "Conversion project" NMR . parsed_2lod 1 stop_ save_ save_entry_information _Entry.Sf_category entry_information _Entry.ID parsed_2lod _Entry.Title "Original constraint list(s)" _Entry.Version_type original _Entry.Submission_date . _Entry.Accession_date . _Entry.Last_release_date . _Entry.Original_release_date . _Entry.Origination . _Entry.NMR_STAR_version 3.1 _Entry.Original_NMR_STAR_version . _Entry.Experimental_method NMR _Entry.Experimental_method_subtype . loop_ _Related_entries.Database_name _Related_entries.Database_accession_code _Related_entries.Relationship _Related_entries.Entry_ID PDB 2lod "Master copy" parsed_2lod stop_ save_ save_global_Org_file_characteristics _Constraint_stat_list.Sf_category constraint_statistics _Constraint_stat_list.Entry_ID parsed_2lod _Constraint_stat_list.ID 1 loop_ _Constraint_file.ID _Constraint_file.Constraint_filename _Constraint_file.Software_ID _Constraint_file.Software_label _Constraint_file.Software_name _Constraint_file.Block_ID _Constraint_file.Constraint_type _Constraint_file.Constraint_subtype _Constraint_file.Constraint_subsubtype _Constraint_file.Constraint_number _Constraint_file.Entry_ID _Constraint_file.Constraint_stat_list_ID 1 2lod.mr . . "MR format" 1 comment "Not applicable" "Not applicable" 0 parsed_2lod 1 1 2lod.mr . . AMBER 2 distance NOE simple 0 parsed_2lod 1 1 2lod.mr . . AMBER 3 distance "hydrogen bond" simple 23 parsed_2lod 1 1 2lod.mr . . AMBER 4 "dihedral angle" "Not applicable" "Not applicable" 68 parsed_2lod 1 1 2lod.mr . . AMBER 5 planarity "Not applicable" "Not applicable" 0 parsed_2lod 1 1 2lod.mr . . PDB 6 coordinate initial "Not applicable" 0 parsed_2lod 1 1 2lod.mr . . "MR format" 7 "nomenclature mapping" "Not applicable" "Not applicable" 0 parsed_2lod 1 stop_ save_ save_MR_file_comment_1 _Org_constr_file_comment.Sf_category org_constr_file_comment _Org_constr_file_comment.Entry_ID parsed_2lod _Org_constr_file_comment.ID 1 _Org_constr_file_comment.Constraint_file_ID 1 _Org_constr_file_comment.Block_ID 1 _Org_constr_file_comment.Details "Generated by Wattos" _Org_constr_file_comment.Comment ; *HEADER DNA 23-JAN-12 2LOD *TITLE SOLUTION-STATE STRUCTURE OF AN INTRAMOLECULAR G-QUADRUPLEX WITH *TITLE 2 PROPELLER, DIAGONAL AND EDGEWISE LOOPS *COMPND MOL_ID: 1; *COMPND 2 MOLECULE: DNA (5'- *COMPND 3 D(*GP*GP*GP*AP*TP*GP*GP*GP*AP*CP*AP*CP*AP*GP*GP*GP*GP*AP*CP*GP*GP*G)- *COMPND 4 3'); *COMPND 5 CHAIN: A; *COMPND 6 ENGINEERED: YES *SOURCE MOL_ID: 1; *SOURCE 2 SYNTHETIC: YES *KEYWDS G-QUADRUPLEX, DNA, LOOPS *EXPDTA SOLUTION NMR *NUMMDL 10 *AUTHOR M.MARUSIC, P.SKET, L.BAUER, V.VIGLASKY, J.PLAVEC *REVDAT 1 30-MAY-12 2LOD 0 ; save_ save_AMBER_distance_constraints_2 _Distance_constraint_list.Sf_category distance_constraints _Distance_constraint_list.Entry_ID parsed_2lod _Distance_constraint_list.ID 1 _Distance_constraint_list.Constraint_type NOE _Distance_constraint_list.Constraint_file_ID 1 _Distance_constraint_list.Block_ID 2 _Distance_constraint_list.Details "Generated by Wattos" loop_ _Dist_constraint_parse_err.ID _Dist_constraint_parse_err.Content _Dist_constraint_parse_err.Begin_line _Dist_constraint_parse_err.Begin_column _Dist_constraint_parse_err.End_line _Dist_constraint_parse_err.End_column _Dist_constraint_parse_err.Entry_ID _Dist_constraint_parse_err.Distance_constraint_list_ID 1 ; &rst ixpk= 0, nxpk= 0, iat= 10, 13, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, rk2=60.0, rk3=60.0, ir6=1, ialtd=0, nstep1=30000, nstep2=100000, &end ; 3 2 5 77 parsed_2lod 1 2 ; &rst ixpk= 0, nxpk= 0, iat= 10, 46, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 8 2 9 113 parsed_2lod 1 3 ; &rst ixpk= 0, nxpk= 0, iat= 29, 10, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 12 2 13 113 parsed_2lod 1 4 ; &rst ixpk= 0, nxpk= 0, iat= 29, 27, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 16 2 17 113 parsed_2lod 1 5 ; &rst ixpk= 0, nxpk= 0, iat= 29, 13, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 20 2 21 113 parsed_2lod 1 6 ; &rst ixpk= 0, nxpk= 0, iat= 30, 10, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 24 2 25 113 parsed_2lod 1 7 ; &rst ixpk= 0, nxpk= 0, iat= 30, 27, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 28 2 29 113 parsed_2lod 1 8 ; &rst ixpk= 0, nxpk= 0, iat= 30, 13, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 32 2 33 113 parsed_2lod 1 9 ; &rst ixpk= 0, nxpk= 0, iat= 30, 46, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 36 2 37 113 parsed_2lod 1 10 ; &rst ixpk= 0, nxpk= 0, iat= 27, 10, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 40 2 41 113 parsed_2lod 1 11 ; &rst ixpk= 0, nxpk= 0, iat= 27, 13, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 44 2 45 113 parsed_2lod 1 12 ; &rst ixpk= 0, nxpk= 0, iat= 27, 46, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 48 2 49 113 parsed_2lod 1 13 ; &rst ixpk= 0, nxpk= 0, iat= 7, 10, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 52 2 53 113 parsed_2lod 1 14 ; &rst ixpk= 0, nxpk= 0, iat= 7, 27, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 56 2 57 113 parsed_2lod 1 15 ; &rst ixpk= 0, nxpk= 0, iat= 43, 13, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 60 2 61 113 parsed_2lod 1 16 ; &rst ixpk= 0, nxpk= 0, iat= 43, 46, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 64 2 65 113 parsed_2lod 1 17 ; &rst ixpk= 0, nxpk= 0, iat= 43, 79, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 68 2 69 113 parsed_2lod 1 18 ; &rst ixpk= 0, nxpk= 0, iat= 62, 43, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 72 2 73 113 parsed_2lod 1 19 ; &rst ixpk= 0, nxpk= 0, iat= 62, 46, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 76 2 77 113 parsed_2lod 1 20 ; &rst ixpk= 0, nxpk= 0, iat= 63, 43, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 80 2 81 113 parsed_2lod 1 21 ; &rst ixpk= 0, nxpk= 0, iat= 63, 62, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 84 2 85 113 parsed_2lod 1 22 ; &rst ixpk= 0, nxpk= 0, iat= 60, 43, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 88 2 89 113 parsed_2lod 1 23 ; &rst ixpk= 0, nxpk= 0, iat= 40, 10, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 92 2 93 113 parsed_2lod 1 24 ; &rst ixpk= 0, nxpk= 0, iat= 40, 13, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 96 2 97 113 parsed_2lod 1 25 ; &rst ixpk= 0, nxpk= 0, iat= 40, 43, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 100 2 101 113 parsed_2lod 1 26 ; &rst ixpk= 0, nxpk= 0, iat= 76, 79, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 104 2 105 113 parsed_2lod 1 27 ; &rst ixpk= 0, nxpk= 0, iat= 76, 144, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 108 2 109 113 parsed_2lod 1 28 ; &rst ixpk= 0, nxpk= 0, iat= 95, 76, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 112 2 113 113 parsed_2lod 1 29 ; &rst ixpk= 0, nxpk= 0, iat= 95, 96, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 116 2 117 113 parsed_2lod 1 30 ; &rst ixpk= 0, nxpk= 0, iat= 96, 76, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 120 2 121 113 parsed_2lod 1 31 ; &rst ixpk= 0, nxpk= 0, iat= 96, 79, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 124 2 125 113 parsed_2lod 1 32 ; &rst ixpk= 0, nxpk= 0, iat= 93, 76, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 128 2 129 113 parsed_2lod 1 33 ; &rst ixpk= 0, nxpk= 0, iat= 93, 112, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 132 2 133 113 parsed_2lod 1 34 ; &rst ixpk= 0, nxpk= 0, iat= 109, 112, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 136 2 137 113 parsed_2lod 1 35 ; &rst ixpk= 0, nxpk= 0, iat= 128, 125, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 140 2 141 113 parsed_2lod 1 36 ; &rst ixpk= 0, nxpk= 0, iat= 125, 109, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 144 2 145 113 parsed_2lod 1 37 ; &rst ixpk= 0, nxpk= 0, iat= 125, 112, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 148 2 149 113 parsed_2lod 1 38 ; &rst ixpk= 0, nxpk= 0, iat= 125, 144, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 152 2 153 113 parsed_2lod 1 39 ; &rst ixpk= 0, nxpk= 0, iat= 106, 109, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 156 2 157 113 parsed_2lod 1 40 ; &rst ixpk= 0, nxpk= 0, iat= 106, 125, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 160 2 161 113 parsed_2lod 1 41 ; &rst ixpk= 0, nxpk= 0, iat= 106, 144, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 164 2 165 113 parsed_2lod 1 42 ; &rst ixpk= 0, nxpk= 0, iat= 103, 106, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 168 2 169 113 parsed_2lod 1 43 ; &rst ixpk= 0, nxpk= 0, iat= 141, 144, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 172 2 173 113 parsed_2lod 1 44 ; &rst ixpk= 0, nxpk= 0, iat= 160, 141, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 176 2 177 113 parsed_2lod 1 45 ; &rst ixpk= 0, nxpk= 0, iat= 160, 138, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 180 2 181 113 parsed_2lod 1 46 ; &rst ixpk= 0, nxpk= 0, iat= 160, 144, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 184 2 185 113 parsed_2lod 1 47 ; &rst ixpk= 0, nxpk= 0, iat= 157, 141, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 188 2 189 113 parsed_2lod 1 48 ; &rst ixpk= 0, nxpk= 0, iat= 157, 144, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 192 2 193 113 parsed_2lod 1 49 ; &rst ixpk= 0, nxpk= 0, iat= 138, 13, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 196 2 197 113 parsed_2lod 1 50 ; &rst ixpk= 0, nxpk= 0, iat= 138, 141, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 200 2 201 113 parsed_2lod 1 51 ; &rst ixpk= 0, nxpk= 0, iat= 138, 157, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 204 2 205 113 parsed_2lod 1 52 ; &rst ixpk= 0, nxpk= 0, iat= 138, 144, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 208 2 209 113 parsed_2lod 1 53 ; &rst ixpk= 0, nxpk= 0, iat= 135, 138, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 212 2 213 113 parsed_2lod 1 54 ; &rst ixpk= 0, nxpk= 0, iat= 136, 138, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 216 2 217 113 parsed_2lod 1 55 ; &rst ixpk= 0, nxpk= 0, iat= -1, 106, r1= 2.10, r2= 2.60, r3= 6.00, r4= 6.50, igr1= 147, 148, 149, nstep1=30000, nstep2=100000, &end ; 220 2 223 38 parsed_2lod 1 56 ; &rst ixpk= 0, nxpk= 0, iat= -1, 144, r1= 2.10, r2= 2.60, r3= 6.00, r4= 6.50, igr1= 147, 148, 149, nstep1=30000, nstep2=100000, &end ; 226 2 229 38 parsed_2lod 1 57 ; &rst ixpk= 0, nxpk= 0, iat= 173, 176, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 232 2 233 113 parsed_2lod 1 58 ; &rst ixpk= 0, nxpk= 0, iat= 173, 209, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 236 2 237 113 parsed_2lod 1 59 ; &rst ixpk= 0, nxpk= 0, iat= 192, 173, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 240 2 241 113 parsed_2lod 1 60 ; &rst ixpk= 0, nxpk= 0, iat= 192, 190, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 244 2 245 113 parsed_2lod 1 61 ; &rst ixpk= 0, nxpk= 0, iat= 192, 176, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 248 2 249 113 parsed_2lod 1 62 ; &rst ixpk= 0, nxpk= 0, iat= 192, 209, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 252 2 253 113 parsed_2lod 1 63 ; &rst ixpk= 0, nxpk= 0, iat= 193, 173, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 256 2 257 113 parsed_2lod 1 64 ; &rst ixpk= 0, nxpk= 0, iat= 193, 209, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 260 2 261 113 parsed_2lod 1 65 ; &rst ixpk= 0, nxpk= 0, iat= 190, 141, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 264 2 265 113 parsed_2lod 1 66 ; &rst ixpk= 0, nxpk= 0, iat= 190, 144, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 268 2 269 113 parsed_2lod 1 67 ; &rst ixpk= 0, nxpk= 0, iat= 190, 173, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 272 2 273 113 parsed_2lod 1 68 ; &rst ixpk= 0, nxpk= 0, iat= 190, 176, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 276 2 277 113 parsed_2lod 1 69 ; &rst ixpk= 0, nxpk= 0, iat= 190, 209, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 280 2 281 113 parsed_2lod 1 70 ; &rst ixpk= 0, nxpk= 0, iat= 170, 173, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 284 2 285 113 parsed_2lod 1 71 ; &rst ixpk= 0, nxpk= 0, iat= 170, 190, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 288 2 289 113 parsed_2lod 1 72 ; &rst ixpk= 0, nxpk= 0, iat= 206, 176, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 292 2 293 113 parsed_2lod 1 73 ; &rst ixpk= 0, nxpk= 0, iat= 206, 209, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 296 2 297 113 parsed_2lod 1 74 ; &rst ixpk= 0, nxpk= 0, iat= 225, 206, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 300 2 301 113 parsed_2lod 1 75 ; &rst ixpk= 0, nxpk= 0, iat= 225, 209, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 304 2 305 113 parsed_2lod 1 76 ; &rst ixpk= 0, nxpk= 0, iat= 225, 242, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 308 2 309 113 parsed_2lod 1 77 ; &rst ixpk= 0, nxpk= 0, iat= 223, 206, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 312 2 313 113 parsed_2lod 1 78 ; &rst ixpk= 0, nxpk= 0, iat= 223, 209, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 316 2 317 113 parsed_2lod 1 79 ; &rst ixpk= 0, nxpk= 0, iat= 223, 242, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 320 2 321 113 parsed_2lod 1 80 ; &rst ixpk= 0, nxpk= 0, iat= 203, 223, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 324 2 325 113 parsed_2lod 1 81 ; &rst ixpk= 0, nxpk= 0, iat= 239, 242, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 328 2 329 113 parsed_2lod 1 82 ; &rst ixpk= 0, nxpk= 0, iat= 239, 275, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 332 2 333 113 parsed_2lod 1 83 ; &rst ixpk= 0, nxpk= 0, iat= 258, 239, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 336 2 337 113 parsed_2lod 1 84 ; &rst ixpk= 0, nxpk= 0, iat= 258, 256, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 340 2 341 113 parsed_2lod 1 85 ; &rst ixpk= 0, nxpk= 0, iat= 258, 242, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 344 2 345 113 parsed_2lod 1 86 ; &rst ixpk= 0, nxpk= 0, iat= 258, 275, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 348 2 349 113 parsed_2lod 1 87 ; &rst ixpk= 0, nxpk= 0, iat= 259, 258, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 352 2 353 113 parsed_2lod 1 88 ; &rst ixpk= 0, nxpk= 0, iat= 259, 256, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 356 2 357 113 parsed_2lod 1 89 ; &rst ixpk= 0, nxpk= 0, iat= 259, 242, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 360 2 361 113 parsed_2lod 1 90 ; &rst ixpk= 0, nxpk= 0, iat= 259, 275, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 364 2 365 113 parsed_2lod 1 91 ; &rst ixpk= 0, nxpk= 0, iat= 256, 239, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 368 2 369 113 parsed_2lod 1 92 ; &rst ixpk= 0, nxpk= 0, iat= 256, 242, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 372 2 373 113 parsed_2lod 1 93 ; &rst ixpk= 0, nxpk= 0, iat= 236, 256, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 376 2 377 113 parsed_2lod 1 94 ; &rst ixpk= 0, nxpk= 0, iat= 272, 275, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 380 2 381 113 parsed_2lod 1 95 ; &rst ixpk= 0, nxpk= 0, iat= 290, 272, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 384 2 385 113 parsed_2lod 1 96 ; &rst ixpk= 0, nxpk= 0, iat= 290, 291, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 388 2 389 113 parsed_2lod 1 97 ; &rst ixpk= 0, nxpk= 0, iat= 290, 288, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 392 2 393 113 parsed_2lod 1 98 ; &rst ixpk= 0, nxpk= 0, iat= 290, 269, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 396 2 397 113 parsed_2lod 1 99 ; &rst ixpk= 0, nxpk= 0, iat= 290, 275, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 400 2 401 113 parsed_2lod 1 100 ; &rst ixpk= 0, nxpk= 0, iat= 291, 272, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 404 2 405 113 parsed_2lod 1 101 ; &rst ixpk= 0, nxpk= 0, iat= 291, 288, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 408 2 409 113 parsed_2lod 1 102 ; &rst ixpk= 0, nxpk= 0, iat= 291, 269, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 412 2 413 113 parsed_2lod 1 103 ; &rst ixpk= 0, nxpk= 0, iat= 291, 275, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 416 2 417 113 parsed_2lod 1 104 ; &rst ixpk= 0, nxpk= 0, iat= 288, 275, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 420 2 421 113 parsed_2lod 1 105 ; &rst ixpk= 0, nxpk= 0, iat= 288, 304, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 424 2 425 113 parsed_2lod 1 106 ; &rst ixpk= 0, nxpk= 0, iat= 288, 337, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 428 2 429 113 parsed_2lod 1 107 ; &rst ixpk= 0, nxpk= 0, iat= 269, 272, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 432 2 433 113 parsed_2lod 1 108 ; &rst ixpk= 0, nxpk= 0, iat= 269, 288, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 436 2 437 113 parsed_2lod 1 109 ; &rst ixpk= 0, nxpk= 0, iat= 269, 307, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 440 2 441 113 parsed_2lod 1 110 ; &rst ixpk= 0, nxpk= 0, iat= 266, 269, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 444 2 445 113 parsed_2lod 1 111 ; &rst ixpk= 0, nxpk= 0, iat= 267, 269, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 448 2 449 113 parsed_2lod 1 112 ; &rst ixpk= 0, nxpk= 0, iat= 304, 307, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 452 2 453 113 parsed_2lod 1 113 ; &rst ixpk= 0, nxpk= 0, iat= 320, 321, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 456 2 457 113 parsed_2lod 1 114 ; &rst ixpk= 0, nxpk= 0, iat= 320, 337, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 460 2 461 113 parsed_2lod 1 115 ; &rst ixpk= 0, nxpk= 0, iat= 321, 320, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 464 2 465 113 parsed_2lod 1 116 ; &rst ixpk= 0, nxpk= 0, iat= 321, 318, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 468 2 469 113 parsed_2lod 1 117 ; &rst ixpk= 0, nxpk= 0, iat= 318, 337, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 472 2 473 113 parsed_2lod 1 118 ; &rst ixpk= 0, nxpk= 0, iat= 301, 318, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 476 2 477 113 parsed_2lod 1 119 ; &rst ixpk= 0, nxpk= 0, iat= 309, 307, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 480 2 481 113 parsed_2lod 1 120 ; &rst ixpk= 0, nxpk= 0, iat= 334, 337, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 484 2 485 113 parsed_2lod 1 121 ; &rst ixpk= 0, nxpk= 0, iat= 334, 369, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 488 2 489 113 parsed_2lod 1 122 ; &rst ixpk= 0, nxpk= 0, iat= 352, 350, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 492 2 493 113 parsed_2lod 1 123 ; &rst ixpk= 0, nxpk= 0, iat= 352, 331, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 496 2 497 113 parsed_2lod 1 124 ; &rst ixpk= 0, nxpk= 0, iat= 352, 337, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 500 2 501 113 parsed_2lod 1 125 ; &rst ixpk= 0, nxpk= 0, iat= 353, 334, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 504 2 505 113 parsed_2lod 1 126 ; &rst ixpk= 0, nxpk= 0, iat= 353, 350, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 508 2 509 113 parsed_2lod 1 127 ; &rst ixpk= 0, nxpk= 0, iat= 353, 331, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 512 2 513 113 parsed_2lod 1 128 ; &rst ixpk= 0, nxpk= 0, iat= 353, 691, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 516 2 517 113 parsed_2lod 1 129 ; &rst ixpk= 0, nxpk= 0, iat= 350, 334, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 520 2 521 113 parsed_2lod 1 130 ; &rst ixpk= 0, nxpk= 0, iat= 350, 337, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 524 2 525 113 parsed_2lod 1 131 ; &rst ixpk= 0, nxpk= 0, iat= 350, 369, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 528 2 529 113 parsed_2lod 1 132 ; &rst ixpk= 0, nxpk= 0, iat= 331, 334, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 532 2 533 113 parsed_2lod 1 133 ; &rst ixpk= 0, nxpk= 0, iat= 331, 350, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 536 2 537 113 parsed_2lod 1 134 ; &rst ixpk= 0, nxpk= 0, iat= 331, 337, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 540 2 541 113 parsed_2lod 1 135 ; &rst ixpk= 0, nxpk= 0, iat= 328, 350, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 544 2 545 113 parsed_2lod 1 136 ; &rst ixpk= 0, nxpk= 0, iat= 328, 331, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 548 2 549 113 parsed_2lod 1 137 ; &rst ixpk= 0, nxpk= 0, iat= 329, 350, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 552 2 553 113 parsed_2lod 1 138 ; &rst ixpk= 0, nxpk= 0, iat= 329, 331, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 556 2 557 113 parsed_2lod 1 139 ; &rst ixpk= 0, nxpk= 0, iat= 366, 369, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 560 2 561 113 parsed_2lod 1 140 ; &rst ixpk= 0, nxpk= 0, iat= 366, 399, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 564 2 565 113 parsed_2lod 1 141 ; &rst ixpk= 0, nxpk= 0, iat= 382, 366, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 568 2 569 113 parsed_2lod 1 142 ; &rst ixpk= 0, nxpk= 0, iat= 382, 380, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 572 2 573 113 parsed_2lod 1 143 ; &rst ixpk= 0, nxpk= 0, iat= 382, 399, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 576 2 577 113 parsed_2lod 1 144 ; &rst ixpk= 0, nxpk= 0, iat= 383, 366, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 580 2 581 113 parsed_2lod 1 145 ; &rst ixpk= 0, nxpk= 0, iat= 383, 382, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 584 2 585 113 parsed_2lod 1 146 ; &rst ixpk= 0, nxpk= 0, iat= 383, 380, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 588 2 589 113 parsed_2lod 1 147 ; &rst ixpk= 0, nxpk= 0, iat= 383, 369, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 592 2 593 113 parsed_2lod 1 148 ; &rst ixpk= 0, nxpk= 0, iat= 380, 366, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 596 2 597 113 parsed_2lod 1 149 ; &rst ixpk= 0, nxpk= 0, iat= 380, 369, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 600 2 601 113 parsed_2lod 1 150 ; &rst ixpk= 0, nxpk= 0, iat= 380, 399, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 604 2 605 113 parsed_2lod 1 151 ; &rst ixpk= 0, nxpk= 0, iat= 363, 380, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 608 2 609 113 parsed_2lod 1 152 ; &rst ixpk= 0, nxpk= 0, iat= 371, 369, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 612 2 613 113 parsed_2lod 1 153 ; &rst ixpk= 0, nxpk= 0, iat= 396, 399, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 616 2 617 113 parsed_2lod 1 154 ; &rst ixpk= 0, nxpk= 0, iat= 414, 396, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 620 2 621 113 parsed_2lod 1 155 ; &rst ixpk= 0, nxpk= 0, iat= 414, 399, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 624 2 625 113 parsed_2lod 1 156 ; &rst ixpk= 0, nxpk= 0, iat= 415, 396, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 628 2 629 113 parsed_2lod 1 157 ; &rst ixpk= 0, nxpk= 0, iat= 415, 414, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 632 2 633 113 parsed_2lod 1 158 ; &rst ixpk= 0, nxpk= 0, iat= 415, 399, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 636 2 637 113 parsed_2lod 1 159 ; &rst ixpk= 0, nxpk= 0, iat= 428, 431, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 640 2 641 113 parsed_2lod 1 160 ; &rst ixpk= 0, nxpk= 0, iat= 447, 428, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 644 2 645 113 parsed_2lod 1 161 ; &rst ixpk= 0, nxpk= 0, iat= 447, 445, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 648 2 649 113 parsed_2lod 1 162 ; &rst ixpk= 0, nxpk= 0, iat= 447, 431, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 652 2 653 113 parsed_2lod 1 163 ; &rst ixpk= 0, nxpk= 0, iat= 448, 428, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 656 2 657 113 parsed_2lod 1 164 ; &rst ixpk= 0, nxpk= 0, iat= 448, 447, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 660 2 661 113 parsed_2lod 1 165 ; &rst ixpk= 0, nxpk= 0, iat= 448, 445, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 664 2 665 113 parsed_2lod 1 166 ; &rst ixpk= 0, nxpk= 0, iat= 445, 428, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 668 2 669 113 parsed_2lod 1 167 ; &rst ixpk= 0, nxpk= 0, iat= 425, 428, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 672 2 673 113 parsed_2lod 1 168 ; &rst ixpk= 0, nxpk= 0, iat= 425, 445, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 676 2 677 113 parsed_2lod 1 169 ; &rst ixpk= 0, nxpk= 0, iat= 425, 431, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 680 2 681 113 parsed_2lod 1 170 ; &rst ixpk= 0, nxpk= 0, iat= 461, 464, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 684 2 685 113 parsed_2lod 1 171 ; &rst ixpk= 0, nxpk= 0, iat= 461, 497, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 688 2 689 113 parsed_2lod 1 172 ; &rst ixpk= 0, nxpk= 0, iat= 481, 461, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 692 2 693 113 parsed_2lod 1 173 ; &rst ixpk= 0, nxpk= 0, iat= 481, 478, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 696 2 697 113 parsed_2lod 1 174 ; &rst ixpk= 0, nxpk= 0, iat= 481, 458, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 700 2 701 113 parsed_2lod 1 175 ; &rst ixpk= 0, nxpk= 0, iat= 481, 464, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 704 2 705 113 parsed_2lod 1 176 ; &rst ixpk= 0, nxpk= 0, iat= 478, 461, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 708 2 709 113 parsed_2lod 1 177 ; &rst ixpk= 0, nxpk= 0, iat= 478, 464, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 712 2 713 113 parsed_2lod 1 178 ; &rst ixpk= 0, nxpk= 0, iat= 478, 497, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 716 2 717 113 parsed_2lod 1 179 ; &rst ixpk= 0, nxpk= 0, iat= 458, 461, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 720 2 721 113 parsed_2lod 1 180 ; &rst ixpk= 0, nxpk= 0, iat= 458, 478, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 724 2 725 113 parsed_2lod 1 181 ; &rst ixpk= 0, nxpk= 0, iat= 458, 464, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 728 2 729 113 parsed_2lod 1 182 ; &rst ixpk= 0, nxpk= 0, iat= 494, 464, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 732 2 733 113 parsed_2lod 1 183 ; &rst ixpk= 0, nxpk= 0, iat= 494, 497, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 736 2 737 113 parsed_2lod 1 184 ; &rst ixpk= 0, nxpk= 0, iat= 494, 530, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 740 2 741 113 parsed_2lod 1 185 ; &rst ixpk= 0, nxpk= 0, iat= 513, 494, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 744 2 745 113 parsed_2lod 1 186 ; &rst ixpk= 0, nxpk= 0, iat= 513, 530, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 748 2 749 113 parsed_2lod 1 187 ; &rst ixpk= 0, nxpk= 0, iat= 511, 494, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 752 2 753 113 parsed_2lod 1 188 ; &rst ixpk= 0, nxpk= 0, iat= 491, 464, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 756 2 757 113 parsed_2lod 1 189 ; &rst ixpk= 0, nxpk= 0, iat= 491, 511, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 760 2 761 113 parsed_2lod 1 190 ; &rst ixpk= 0, nxpk= 0, iat= 491, 497, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 764 2 765 113 parsed_2lod 1 191 ; &rst ixpk= 0, nxpk= 0, iat= 527, 530, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 768 2 769 113 parsed_2lod 1 192 ; &rst ixpk= 0, nxpk= 0, iat= 527, 563, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 772 2 773 113 parsed_2lod 1 193 ; &rst ixpk= 0, nxpk= 0, iat= 546, 527, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 776 2 777 113 parsed_2lod 1 194 ; &rst ixpk= 0, nxpk= 0, iat= 546, 547, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 780 2 781 113 parsed_2lod 1 195 ; &rst ixpk= 0, nxpk= 0, iat= 546, 544, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 784 2 785 113 parsed_2lod 1 196 ; &rst ixpk= 0, nxpk= 0, iat= 546, 530, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 788 2 789 113 parsed_2lod 1 197 ; &rst ixpk= 0, nxpk= 0, iat= 546, 563, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 792 2 793 113 parsed_2lod 1 198 ; &rst ixpk= 0, nxpk= 0, iat= 547, 527, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 796 2 797 113 parsed_2lod 1 199 ; &rst ixpk= 0, nxpk= 0, iat= 547, 544, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 800 2 801 113 parsed_2lod 1 200 ; &rst ixpk= 0, nxpk= 0, iat= 547, 530, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 804 2 805 113 parsed_2lod 1 201 ; &rst ixpk= 0, nxpk= 0, iat= 547, 563, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 808 2 809 113 parsed_2lod 1 202 ; &rst ixpk= 0, nxpk= 0, iat= 544, 494, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 812 2 813 113 parsed_2lod 1 203 ; &rst ixpk= 0, nxpk= 0, iat= 544, 527, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 816 2 817 113 parsed_2lod 1 204 ; &rst ixpk= 0, nxpk= 0, iat= 544, 530, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 820 2 821 113 parsed_2lod 1 205 ; &rst ixpk= 0, nxpk= 0, iat= 544, 563, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 824 2 825 113 parsed_2lod 1 206 ; &rst ixpk= 0, nxpk= 0, iat= 524, 527, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 828 2 829 113 parsed_2lod 1 207 ; &rst ixpk= 0, nxpk= 0, iat= 524, 544, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 832 2 833 113 parsed_2lod 1 208 ; &rst ixpk= 0, nxpk= 0, iat= 524, 530, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 836 2 837 113 parsed_2lod 1 209 ; &rst ixpk= 0, nxpk= 0, iat= 524, 563, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 840 2 841 113 parsed_2lod 1 210 ; &rst ixpk= 0, nxpk= 0, iat= 560, 563, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 844 2 845 113 parsed_2lod 1 211 ; &rst ixpk= 0, nxpk= 0, iat= 578, 560, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 848 2 849 113 parsed_2lod 1 212 ; &rst ixpk= 0, nxpk= 0, iat= 578, 576, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 852 2 853 113 parsed_2lod 1 213 ; &rst ixpk= 0, nxpk= 0, iat= 578, 557, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 856 2 857 113 parsed_2lod 1 214 ; &rst ixpk= 0, nxpk= 0, iat= 578, 563, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 860 2 861 113 parsed_2lod 1 215 ; &rst ixpk= 0, nxpk= 0, iat= 579, 560, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 864 2 865 113 parsed_2lod 1 216 ; &rst ixpk= 0, nxpk= 0, iat= 579, 576, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 868 2 869 113 parsed_2lod 1 217 ; &rst ixpk= 0, nxpk= 0, iat= 579, 557, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 872 2 873 113 parsed_2lod 1 218 ; &rst ixpk= 0, nxpk= 0, iat= 579, 563, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 876 2 877 113 parsed_2lod 1 219 ; &rst ixpk= 0, nxpk= 0, iat= 576, 563, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 880 2 881 113 parsed_2lod 1 220 ; &rst ixpk= 0, nxpk= 0, iat= 557, 560, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 884 2 885 113 parsed_2lod 1 221 ; &rst ixpk= 0, nxpk= 0, iat= 557, 576, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 888 2 889 113 parsed_2lod 1 222 ; &rst ixpk= 0, nxpk= 0, iat= 557, 563, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 892 2 893 113 parsed_2lod 1 223 ; &rst ixpk= 0, nxpk= 0, iat= 557, 595, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 896 2 897 113 parsed_2lod 1 224 ; &rst ixpk= 0, nxpk= 0, iat= 609, 608, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 900 2 901 113 parsed_2lod 1 225 ; &rst ixpk= 0, nxpk= 0, iat= 609, 606, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 904 2 905 113 parsed_2lod 1 226 ; &rst ixpk= 0, nxpk= 0, iat= 609, 595, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 908 2 909 113 parsed_2lod 1 227 ; &rst ixpk= 0, nxpk= 0, iat= 606, 595, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 912 2 913 113 parsed_2lod 1 228 ; &rst ixpk= 0, nxpk= 0, iat= 589, 606, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 916 2 917 113 parsed_2lod 1 229 ; &rst ixpk= 0, nxpk= 0, iat= 622, 625, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 920 2 921 113 parsed_2lod 1 230 ; &rst ixpk= 0, nxpk= 0, iat= 622, 658, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 924 2 925 113 parsed_2lod 1 231 ; &rst ixpk= 0, nxpk= 0, iat= 641, 622, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 928 2 929 113 parsed_2lod 1 232 ; &rst ixpk= 0, nxpk= 0, iat= 641, 639, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 932 2 933 113 parsed_2lod 1 233 ; &rst ixpk= 0, nxpk= 0, iat= 641, 658, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 936 2 937 113 parsed_2lod 1 234 ; &rst ixpk= 0, nxpk= 0, iat= 642, 622, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 940 2 941 113 parsed_2lod 1 235 ; &rst ixpk= 0, nxpk= 0, iat= 642, 639, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 944 2 945 113 parsed_2lod 1 236 ; &rst ixpk= 0, nxpk= 0, iat= 642, 658, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 948 2 949 113 parsed_2lod 1 237 ; &rst ixpk= 0, nxpk= 0, iat= 639, 622, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 952 2 953 113 parsed_2lod 1 238 ; &rst ixpk= 0, nxpk= 0, iat= 639, 658, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 956 2 957 113 parsed_2lod 1 239 ; &rst ixpk= 0, nxpk= 0, iat= 619, 622, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 960 2 961 113 parsed_2lod 1 240 ; &rst ixpk= 0, nxpk= 0, iat= 619, 639, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 964 2 965 113 parsed_2lod 1 241 ; &rst ixpk= 0, nxpk= 0, iat= 655, 625, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 968 2 969 113 parsed_2lod 1 242 ; &rst ixpk= 0, nxpk= 0, iat= 655, 658, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 972 2 973 113 parsed_2lod 1 243 ; &rst ixpk= 0, nxpk= 0, iat= 655, 691, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 976 2 977 113 parsed_2lod 1 244 ; &rst ixpk= 0, nxpk= 0, iat= 674, 655, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 980 2 981 113 parsed_2lod 1 245 ; &rst ixpk= 0, nxpk= 0, iat= 674, 672, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 984 2 985 113 parsed_2lod 1 246 ; &rst ixpk= 0, nxpk= 0, iat= 674, 652, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 988 2 989 113 parsed_2lod 1 247 ; &rst ixpk= 0, nxpk= 0, iat= 674, 658, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 992 2 993 113 parsed_2lod 1 248 ; &rst ixpk= 0, nxpk= 0, iat= 675, 655, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 996 2 997 113 parsed_2lod 1 249 ; &rst ixpk= 0, nxpk= 0, iat= 675, 674, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 1000 2 1001 113 parsed_2lod 1 250 ; &rst ixpk= 0, nxpk= 0, iat= 675, 652, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 1004 2 1005 113 parsed_2lod 1 251 ; &rst ixpk= 0, nxpk= 0, iat= 675, 658, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 1008 2 1009 113 parsed_2lod 1 252 ; &rst ixpk= 0, nxpk= 0, iat= 675, 691, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 1012 2 1013 113 parsed_2lod 1 253 ; &rst ixpk= 0, nxpk= 0, iat= 672, 655, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 1016 2 1017 113 parsed_2lod 1 254 ; &rst ixpk= 0, nxpk= 0, iat= 672, 658, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 1020 2 1021 113 parsed_2lod 1 255 ; &rst ixpk= 0, nxpk= 0, iat= 672, 691, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 1024 2 1025 113 parsed_2lod 1 256 ; &rst ixpk= 0, nxpk= 0, iat= 652, 655, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 1028 2 1029 113 parsed_2lod 1 257 ; &rst ixpk= 0, nxpk= 0, iat= 652, 672, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 1032 2 1033 113 parsed_2lod 1 258 ; &rst ixpk= 0, nxpk= 0, iat= 652, 658, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1036 2 1037 113 parsed_2lod 1 259 ; &rst ixpk= 0, nxpk= 0, iat= 688, 691, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 1040 2 1041 113 parsed_2lod 1 260 ; &rst ixpk= 0, nxpk= 0, iat= 707, 688, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 1044 2 1045 113 parsed_2lod 1 261 ; &rst ixpk= 0, nxpk= 0, iat= 707, 705, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 1048 2 1049 113 parsed_2lod 1 262 ; &rst ixpk= 0, nxpk= 0, iat= 707, 685, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 1052 2 1053 113 parsed_2lod 1 263 ; &rst ixpk= 0, nxpk= 0, iat= 708, 688, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 1056 2 1057 113 parsed_2lod 1 264 ; &rst ixpk= 0, nxpk= 0, iat= 708, 707, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 1060 2 1061 113 parsed_2lod 1 265 ; &rst ixpk= 0, nxpk= 0, iat= 708, 705, r1= 1.30, r2= 1.80, r3= 3.60, r4= 4.10, nstep1=30000, nstep2=100000, &end ; 1064 2 1065 113 parsed_2lod 1 266 ; &rst ixpk= 0, nxpk= 0, iat= 708, 685, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 1068 2 1069 113 parsed_2lod 1 267 ; &rst ixpk= 0, nxpk= 0, iat= 708, 691, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 1072 2 1073 113 parsed_2lod 1 268 ; &rst ixpk= 0, nxpk= 0, iat= 705, 688, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 1076 2 1077 113 parsed_2lod 1 269 ; &rst ixpk= 0, nxpk= 0, iat= 705, 691, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 1080 2 1081 113 parsed_2lod 1 270 ; &rst ixpk= 0, nxpk= 0, iat= 685, 688, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 1084 2 1085 113 parsed_2lod 1 271 ; &rst ixpk= 0, nxpk= 0, iat= 685, 705, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 1088 2 1089 113 parsed_2lod 1 272 ; &rst ixpk= 0, nxpk= 0, iat= 685, 691, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1092 2 1093 113 parsed_2lod 1 273 ; &rst ixpk= 0, nxpk= 0, iat= 13, 46, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1096 2 1097 113 parsed_2lod 1 274 ; &rst ixpk= 0, nxpk= 0, iat= 46, 437, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1100 2 1101 113 parsed_2lod 1 275 ; &rst ixpk= 0, nxpk= 0, iat= 46, 470, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1104 2 1105 113 parsed_2lod 1 276 ; &rst ixpk= 0, nxpk= 0, iat= 85, 52, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1108 2 1109 113 parsed_2lod 1 277 ; &rst ixpk= 0, nxpk= 0, iat= 79, 46, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1112 2 1113 113 parsed_2lod 1 278 ; &rst ixpk= 0, nxpk= 0, iat= 79, 437, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1116 2 1117 113 parsed_2lod 1 279 ; &rst ixpk= 0, nxpk= 0, iat= 176, 209, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1120 2 1121 113 parsed_2lod 1 280 ; &rst ixpk= 0, nxpk= 0, iat= 176, 631, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1124 2 1125 113 parsed_2lod 1 281 ; &rst ixpk= 0, nxpk= 0, iat= 215, 631, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1128 2 1129 113 parsed_2lod 1 282 ; &rst ixpk= 0, nxpk= 0, iat= 209, 52, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1132 2 1133 113 parsed_2lod 1 283 ; &rst ixpk= 0, nxpk= 0, iat= 209, 85, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1136 2 1137 113 parsed_2lod 1 284 ; &rst ixpk= 0, nxpk= 0, iat= 209, 176, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1140 2 1141 113 parsed_2lod 1 285 ; &rst ixpk= 0, nxpk= 0, iat= 242, 85, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1144 2 1145 113 parsed_2lod 1 286 ; &rst ixpk= 0, nxpk= 0, iat= 242, 209, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1148 2 1149 113 parsed_2lod 1 287 ; &rst ixpk= 0, nxpk= 0, iat= 304, 248, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1152 2 1153 113 parsed_2lod 1 288 ; &rst ixpk= 0, nxpk= 0, iat= 307, 248, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1156 2 1157 113 parsed_2lod 1 289 ; &rst ixpk= 0, nxpk= 0, iat= 307, 337, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1160 2 1161 113 parsed_2lod 1 290 ; &rst ixpk= 0, nxpk= 0, iat= 366, 697, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1164 2 1165 113 parsed_2lod 1 291 ; &rst ixpk= 0, nxpk= 0, iat= 369, 79, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1168 2 1169 113 parsed_2lod 1 292 ; &rst ixpk= 0, nxpk= 0, iat= 369, 337, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1172 2 1173 113 parsed_2lod 1 293 ; &rst ixpk= 0, nxpk= 0, iat= 396, 437, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1176 2 1177 113 parsed_2lod 1 294 ; &rst ixpk= 0, nxpk= 0, iat= 431, 697, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1180 2 1181 113 parsed_2lod 1 295 ; &rst ixpk= 0, nxpk= 0, iat= 470, 19, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1184 2 1185 113 parsed_2lod 1 296 ; &rst ixpk= 0, nxpk= 0, iat= 464, 497, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1188 2 1189 113 parsed_2lod 1 297 ; &rst ixpk= 0, nxpk= 0, iat= 464, 664, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1192 2 1193 113 parsed_2lod 1 298 ; &rst ixpk= 0, nxpk= 0, iat= 497, 19, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1196 2 1197 113 parsed_2lod 1 299 ; &rst ixpk= 0, nxpk= 0, iat= 527, 19, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1200 2 1201 113 parsed_2lod 1 300 ; &rst ixpk= 0, nxpk= 0, iat= 527, 182, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1204 2 1205 113 parsed_2lod 1 301 ; &rst ixpk= 0, nxpk= 0, iat= 527, 503, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1208 2 1209 113 parsed_2lod 1 302 ; &rst ixpk= 0, nxpk= 0, iat= 527, 631, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1212 2 1213 113 parsed_2lod 1 303 ; &rst ixpk= 0, nxpk= 0, iat= 592, 631, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1216 2 1217 113 parsed_2lod 1 304 ; &rst ixpk= 0, nxpk= 0, iat= 597, 182, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1220 2 1221 113 parsed_2lod 1 305 ; &rst ixpk= 0, nxpk= 0, iat= 597, 631, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1224 2 1225 113 parsed_2lod 1 306 ; &rst ixpk= 0, nxpk= 0, iat= 595, 631, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1228 2 1229 113 parsed_2lod 1 307 ; &rst ixpk= 0, nxpk= 0, iat= 625, 503, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1232 2 1233 113 parsed_2lod 1 308 ; &rst ixpk= 0, nxpk= 0, iat= 625, 658, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1236 2 1237 113 parsed_2lod 1 309 ; &rst ixpk= 0, nxpk= 0, iat= 655, 664, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1240 2 1241 113 parsed_2lod 1 310 ; &rst ixpk= 0, nxpk= 0, iat= 658, 215, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1244 2 1245 113 parsed_2lod 1 311 ; &rst ixpk= 0, nxpk= 0, iat= 658, 248, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1248 2 1249 113 parsed_2lod 1 312 ; &rst ixpk= 0, nxpk= 0, iat= 691, 248, r1= 3.00, r2= 3.50, r3= 6.50, r4= 7.00, nstep1=30000, nstep2=100000, &end ; 1252 2 1253 113 parsed_2lod 1 313 ; &rst ixpk= 0, nxpk= 0, iat= 85, 52, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 1256 2 1257 113 parsed_2lod 1 314 ; &rst ixpk= 0, nxpk= 0, iat= 215, 631, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 1260 2 1261 113 parsed_2lod 1 315 ; &rst ixpk= 0, nxpk= 0, iat= 248, 697, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 1264 2 1265 113 parsed_2lod 1 316 ; &rst ixpk= 0, nxpk= 0, iat= 470, 503, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 1268 2 1269 113 parsed_2lod 1 317 ; &rst ixpk= 0, nxpk= 0, iat= 503, 664, r1= 2.10, r2= 2.60, r3= 5.00, r4= 5.50, nstep1=30000, nstep2=100000, &end ; 1272 2 1273 113 parsed_2lod 1 stop_ save_ save_AMBER_distance_constraints_3 _Distance_constraint_list.Sf_category distance_constraints _Distance_constraint_list.Entry_ID parsed_2lod _Distance_constraint_list.ID 2 _Distance_constraint_list.Constraint_type "hydrogen bond" _Distance_constraint_list.Constraint_file_ID 1 _Distance_constraint_list.Block_ID 3 _Distance_constraint_list.Details "Generated by Wattos" loop_ _Dist_constraint_tree.Constraint_ID _Dist_constraint_tree.Node_ID _Dist_constraint_tree.Down_node_ID _Dist_constraint_tree.Right_node_ID _Dist_constraint_tree.Logic_operation _Dist_constraint_tree.Entry_ID _Dist_constraint_tree.Distance_constraint_list_ID 1 1 . . . parsed_2lod 2 2 1 . . . parsed_2lod 2 3 1 . . . parsed_2lod 2 4 1 . . . parsed_2lod 2 5 1 . . . parsed_2lod 2 6 1 . . . parsed_2lod 2 7 1 . . . parsed_2lod 2 8 1 . . . parsed_2lod 2 9 1 . . . parsed_2lod 2 10 1 . . . parsed_2lod 2 11 1 . . . parsed_2lod 2 12 1 . . . parsed_2lod 2 13 1 . . . parsed_2lod 2 14 1 . . . parsed_2lod 2 15 1 . . . parsed_2lod 2 16 1 . . . parsed_2lod 2 17 1 . . . parsed_2lod 2 18 1 . . . parsed_2lod 2 19 1 . . . parsed_2lod 2 20 1 . . . parsed_2lod 2 21 1 . . . parsed_2lod 2 22 1 . . . parsed_2lod 2 23 1 . . . parsed_2lod 2 stop_ loop_ _Dist_constraint.Tree_node_member_constraint_ID _Dist_constraint.Tree_node_member_node_ID _Dist_constraint.Constraint_tree_node_member_ID _Dist_constraint.Assembly_atom_ID _Dist_constraint.Entity_assembly_ID _Dist_constraint.Entity_ID _Dist_constraint.Comp_index_ID _Dist_constraint.Seq_ID _Dist_constraint.Comp_ID _Dist_constraint.Atom_ID _Dist_constraint.Resonance_ID _Dist_constraint.Auth_asym_ID _Dist_constraint.Auth_seq_ID _Dist_constraint.Auth_comp_ID _Dist_constraint.Auth_atom_ID _Dist_constraint.Entry_ID _Dist_constraint.Distance_constraint_list_ID 1 1 1 . . . . . . . . 2lod_ambr001 20 DG N7 parsed_2lod 2 1 1 2 . . . . . . . . 2lod_ambr001 16 DG H21 parsed_2lod 2 2 1 1 . . . . . . . . 2lod_ambr001 1 DG O6 parsed_2lod 2 2 1 2 . . . . . . . . 2lod_ambr001 6 DG H1 parsed_2lod 2 3 1 1 . . . . . . . . 2lod_ambr001 1 DG N7 parsed_2lod 2 3 1 2 . . . . . . . . 2lod_ambr001 6 DG H21 parsed_2lod 2 4 1 1 . . . . . . . . 2lod_ambr001 7 DG O6 parsed_2lod 2 4 1 2 . . . . . . . . 2lod_ambr001 2 DG H1 parsed_2lod 2 5 1 1 . . . . . . . . 2lod_ambr001 7 DG N7 parsed_2lod 2 5 1 2 . . . . . . . . 2lod_ambr001 2 DG H21 parsed_2lod 2 6 1 1 . . . . . . . . 2lod_ambr001 15 DG O6 parsed_2lod 2 6 1 2 . . . . . . . . 2lod_ambr001 21 DG H1 parsed_2lod 2 7 1 1 . . . . . . . . 2lod_ambr001 15 DG N7 parsed_2lod 2 7 1 2 . . . . . . . . 2lod_ambr001 21 DG H21 parsed_2lod 2 8 1 1 . . . . . . . . 2lod_ambr001 8 DG O6 parsed_2lod 2 8 1 2 . . . . . . . . 2lod_ambr001 3 DG H1 parsed_2lod 2 9 1 1 . . . . . . . . 2lod_ambr001 8 DG N7 parsed_2lod 2 9 1 2 . . . . . . . . 2lod_ambr001 3 DG H21 parsed_2lod 2 10 1 1 . . . . . . . . 2lod_ambr001 14 DG O6 parsed_2lod 2 10 1 2 . . . . . . . . 2lod_ambr001 22 DG H1 parsed_2lod 2 11 1 1 . . . . . . . . 2lod_ambr001 14 DG N7 parsed_2lod 2 11 1 2 . . . . . . . . 2lod_ambr001 22 DG H21 parsed_2lod 2 12 1 1 . . . . . . . . 2lod_ambr001 16 DG O6 parsed_2lod 2 12 1 2 . . . . . . . . 2lod_ambr001 1 DG H1 parsed_2lod 2 13 1 1 . . . . . . . . 2lod_ambr001 16 DG N7 parsed_2lod 2 13 1 2 . . . . . . . . 2lod_ambr001 1 DG H21 parsed_2lod 2 14 1 1 . . . . . . . . 2lod_ambr001 6 DG O6 parsed_2lod 2 14 1 2 . . . . . . . . 2lod_ambr001 20 DG H1 parsed_2lod 2 15 1 1 . . . . . . . . 2lod_ambr001 6 DG N7 parsed_2lod 2 15 1 2 . . . . . . . . 2lod_ambr001 20 DG H21 parsed_2lod 2 16 1 1 . . . . . . . . 2lod_ambr001 2 DG O6 parsed_2lod 2 16 1 2 . . . . . . . . 2lod_ambr001 15 DG H1 parsed_2lod 2 17 1 1 . . . . . . . . 2lod_ambr001 2 DG N7 parsed_2lod 2 17 1 2 . . . . . . . . 2lod_ambr001 15 DG H21 parsed_2lod 2 18 1 1 . . . . . . . . 2lod_ambr001 21 DG O6 parsed_2lod 2 18 1 2 . . . . . . . . 2lod_ambr001 7 DG H1 parsed_2lod 2 19 1 1 . . . . . . . . 2lod_ambr001 21 DG N7 parsed_2lod 2 19 1 2 . . . . . . . . 2lod_ambr001 7 DG H21 parsed_2lod 2 20 1 1 . . . . . . . . 2lod_ambr001 3 DG O6 parsed_2lod 2 20 1 2 . . . . . . . . 2lod_ambr001 14 DG H1 parsed_2lod 2 21 1 1 . . . . . . . . 2lod_ambr001 3 DG N7 parsed_2lod 2 21 1 2 . . . . . . . . 2lod_ambr001 14 DG H21 parsed_2lod 2 22 1 1 . . . . . . . . 2lod_ambr001 22 DG O6 parsed_2lod 2 22 1 2 . . . . . . . . 2lod_ambr001 8 DG H1 parsed_2lod 2 23 1 1 . . . . . . . . 2lod_ambr001 22 DG N7 parsed_2lod 2 23 1 2 . . . . . . . . 2lod_ambr001 8 DG H21 parsed_2lod 2 stop_ loop_ _Dist_constraint_value.Constraint_ID _Dist_constraint_value.Tree_node_ID _Dist_constraint_value.Source_experiment_ID _Dist_constraint_value.Spectral_peak_ID _Dist_constraint_value.Intensity_val _Dist_constraint_value.Intensity_lower_val_err _Dist_constraint_value.Intensity_upper_val_err _Dist_constraint_value.Distance_val _Dist_constraint_value.Distance_lower_bound_val _Dist_constraint_value.Distance_upper_bound_val _Dist_constraint_value.Entry_ID _Dist_constraint_value.Distance_constraint_list_ID 1 1 . . . . . 2.10 1.90 2.60 parsed_2lod 2 2 1 . . . . . 1.90 1.70 2.40 parsed_2lod 2 3 1 . . . . . 2.10 1.90 2.60 parsed_2lod 2 4 1 . . . . . 1.90 1.70 2.40 parsed_2lod 2 5 1 . . . . . 2.10 1.90 2.60 parsed_2lod 2 6 1 . . . . . 1.90 1.70 2.40 parsed_2lod 2 7 1 . . . . . 2.10 1.90 2.60 parsed_2lod 2 8 1 . . . . . 1.90 1.70 2.40 parsed_2lod 2 9 1 . . . . . 2.10 1.90 2.60 parsed_2lod 2 10 1 . . . . . 1.90 1.70 2.40 parsed_2lod 2 11 1 . . . . . 2.10 1.90 2.60 parsed_2lod 2 12 1 . . . . . 1.90 1.70 2.40 parsed_2lod 2 13 1 . . . . . 2.10 1.90 2.60 parsed_2lod 2 14 1 . . . . . 1.90 1.70 2.40 parsed_2lod 2 15 1 . . . . . 2.10 1.90 2.60 parsed_2lod 2 16 1 . . . . . 1.90 1.70 2.40 parsed_2lod 2 17 1 . . . . . 2.10 1.90 2.60 parsed_2lod 2 18 1 . . . . . 1.90 1.70 2.40 parsed_2lod 2 19 1 . . . . . 2.10 1.90 2.60 parsed_2lod 2 20 1 . . . . . 1.90 1.70 2.40 parsed_2lod 2 21 1 . . . . . 2.10 1.90 2.60 parsed_2lod 2 22 1 . . . . . 1.90 1.70 2.40 parsed_2lod 2 23 1 . . . . . 2.10 1.90 2.60 parsed_2lod 2 stop_ loop_ _Dist_constraint_comment_org.ID _Dist_constraint_comment_org.Comment_text _Dist_constraint_comment_org.Comment_begin_line _Dist_constraint_comment_org.Comment_begin_column _Dist_constraint_comment_org.Comment_end_line _Dist_constraint_comment_org.Comment_end_column _Dist_constraint_comment_org.Entry_ID _Dist_constraint_comment_org.Distance_constraint_list_ID 1 "20 DG N7 16 DG H21 1.9 2.1" 7 1 8 42 parsed_2lod 2 2 "1 DG O6 6 DG H1 1.7 1.9" 11 1 13 42 parsed_2lod 2 3 "1 DG N7 6 DG H21 1.9 2.1" 16 1 17 42 parsed_2lod 2 4 "7 DG O6 2 DG H1 1.7 1.9" 20 1 21 42 parsed_2lod 2 5 "7 DG N7 2 DG H21 1.9 2.1" 24 1 25 42 parsed_2lod 2 6 "15 DG O6 21 DG H1 1.7 1.9" 28 1 29 42 parsed_2lod 2 7 "15 DG N7 21 DG H21 1.9 2.1" 32 1 33 42 parsed_2lod 2 8 "8 DG O6 3 DG H1 1.7 1.9" 36 1 37 42 parsed_2lod 2 9 "8 DG N7 3 DG H21 1.9 2.1" 40 1 41 42 parsed_2lod 2 10 "14 DG O6 22 DG H1 1.7 1.9" 44 1 45 42 parsed_2lod 2 11 "14 DG N7 22 DG H21 1.9 2.1" 48 1 49 42 parsed_2lod 2 12 "16 DG O6 1 DG H1 1.7 1.9" 52 1 53 42 parsed_2lod 2 13 "16 DG N7 1 DG H21 1.9 2.1" 56 1 57 42 parsed_2lod 2 14 "6 DG O6 20 DG H1 1.7 1.9" 60 1 61 42 parsed_2lod 2 15 "6 DG N7 20 DG H21 1.9 2.1" 64 1 65 42 parsed_2lod 2 16 "2 DG O6 15 DG H1 1.7 1.9" 68 1 69 42 parsed_2lod 2 17 "2 DG N7 15 DG H21 1.9 2.1" 72 1 73 42 parsed_2lod 2 18 "21 DG O6 7 DG H1 1.7 1.9" 76 1 77 42 parsed_2lod 2 19 "21 DG N7 7 DG H21 1.9 2.1" 80 1 81 42 parsed_2lod 2 20 "3 DG O6 14 DG H1 1.7 1.9" 84 1 85 42 parsed_2lod 2 21 "3 DG N7 14 DG H21 1.9 2.1" 88 1 89 42 parsed_2lod 2 22 "22 DG O6 8 DG H1 1.7 1.9" 92 1 93 42 parsed_2lod 2 23 "22 DG N7 8 DG H21 1.9 2.1" 96 1 97 42 parsed_2lod 2 stop_ loop_ _Dist_constraint_parse_err.ID _Dist_constraint_parse_err.Content _Dist_constraint_parse_err.Begin_line _Dist_constraint_parse_err.Begin_column _Dist_constraint_parse_err.End_line _Dist_constraint_parse_err.End_column _Dist_constraint_parse_err.Entry_ID _Dist_constraint_parse_err.Distance_constraint_list_ID 1 ; &rst ixpk= 0, nxpk= 0, iat= 629, 503, r1= 1.20, r2= 1.70, r3= 1.90, r4= 2.40, rk2=60.0, rk3=60.0, ir6=1, ialtd=0, nstep1=0, nstep2=100000, &end ; 3 2 6 6 parsed_2lod 2 stop_ save_ save_AMBER_dihedral_4 _Torsion_angle_constraint_list.Sf_category torsion_angle_constraints _Torsion_angle_constraint_list.Entry_ID parsed_2lod _Torsion_angle_constraint_list.ID 1 _Torsion_angle_constraint_list.Constraint_file_ID 1 _Torsion_angle_constraint_list.Block_ID 4 _Torsion_angle_constraint_list.Details "Generated by Wattos" loop_ _Torsion_angle_constraint.ID _Torsion_angle_constraint.Torsion_angle_name _Torsion_angle_constraint.Assembly_atom_ID_1 _Torsion_angle_constraint.Entity_assembly_ID_1 _Torsion_angle_constraint.Entity_ID_1 _Torsion_angle_constraint.Comp_index_ID_1 _Torsion_angle_constraint.Seq_ID_1 _Torsion_angle_constraint.Comp_ID_1 _Torsion_angle_constraint.Atom_ID_1 _Torsion_angle_constraint.Resonance_ID_1 _Torsion_angle_constraint.Assembly_atom_ID_2 _Torsion_angle_constraint.Entity_assembly_ID_2 _Torsion_angle_constraint.Entity_ID_2 _Torsion_angle_constraint.Comp_index_ID_2 _Torsion_angle_constraint.Seq_ID_2 _Torsion_angle_constraint.Comp_ID_2 _Torsion_angle_constraint.Atom_ID_2 _Torsion_angle_constraint.Resonance_ID_2 _Torsion_angle_constraint.Assembly_atom_ID_3 _Torsion_angle_constraint.Entity_assembly_ID_3 _Torsion_angle_constraint.Entity_ID_3 _Torsion_angle_constraint.Comp_index_ID_3 _Torsion_angle_constraint.Seq_ID_3 _Torsion_angle_constraint.Comp_ID_3 _Torsion_angle_constraint.Atom_ID_3 _Torsion_angle_constraint.Resonance_ID_3 _Torsion_angle_constraint.Assembly_atom_ID_4 _Torsion_angle_constraint.Entity_assembly_ID_4 _Torsion_angle_constraint.Entity_ID_4 _Torsion_angle_constraint.Comp_index_ID_4 _Torsion_angle_constraint.Seq_ID_4 _Torsion_angle_constraint.Comp_ID_4 _Torsion_angle_constraint.Atom_ID_4 _Torsion_angle_constraint.Resonance_ID_4 _Torsion_angle_constraint.Angle_lower_bound_val _Torsion_angle_constraint.Angle_upper_bound_val _Torsion_angle_constraint.Source_experiment_ID _Torsion_angle_constraint.Auth_asym_ID_1 _Torsion_angle_constraint.Auth_seq_ID_1 _Torsion_angle_constraint.Auth_comp_ID_1 _Torsion_angle_constraint.Auth_atom_ID_1 _Torsion_angle_constraint.Auth_asym_ID_2 _Torsion_angle_constraint.Auth_seq_ID_2 _Torsion_angle_constraint.Auth_comp_ID_2 _Torsion_angle_constraint.Auth_atom_ID_2 _Torsion_angle_constraint.Auth_asym_ID_3 _Torsion_angle_constraint.Auth_seq_ID_3 _Torsion_angle_constraint.Auth_comp_ID_3 _Torsion_angle_constraint.Auth_atom_ID_3 _Torsion_angle_constraint.Auth_asym_ID_4 _Torsion_angle_constraint.Auth_seq_ID_4 _Torsion_angle_constraint.Auth_comp_ID_4 _Torsion_angle_constraint.Auth_atom_ID_4 _Torsion_angle_constraint.Entry_ID _Torsion_angle_constraint.Torsion_angle_constraint_list_ID 1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.0 110.0 . 2lod_ambr001 1 DG O4' 2lod_ambr001 1 DG C1' 2lod_ambr001 1 DG N9 2lod_ambr001 1 DG C4 parsed_2lod 1 2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 170.0 310.0 . 2lod_ambr001 2 DG O4' 2lod_ambr001 2 DG C1' 2lod_ambr001 2 DG N9 2lod_ambr001 2 DG C4 parsed_2lod 1 3 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 170.0 310.0 . 2lod_ambr001 3 DG O4' 2lod_ambr001 3 DG C1' 2lod_ambr001 3 DG N9 2lod_ambr001 3 DG C4 parsed_2lod 1 4 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 170.0 310.0 . 2lod_ambr001 4 DA O4' 2lod_ambr001 4 DA C1' 2lod_ambr001 4 DA N9 2lod_ambr001 4 DA C4 parsed_2lod 1 5 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 170.0 310.0 . 2lod_ambr001 5 DT O4' 2lod_ambr001 5 DT C1' 2lod_ambr001 5 DT N1 2lod_ambr001 5 DT C2 parsed_2lod 1 6 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.0 100.0 . 2lod_ambr001 6 DG O4' 2lod_ambr001 6 DG C1' 2lod_ambr001 6 DG N9 2lod_ambr001 6 DG C4 parsed_2lod 1 7 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 170.0 310.0 . 2lod_ambr001 7 DG O4' 2lod_ambr001 7 DG C1' 2lod_ambr001 7 DG N9 2lod_ambr001 7 DG C4 parsed_2lod 1 8 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 170.0 310.0 . 2lod_ambr001 8 DG O4' 2lod_ambr001 8 DG C1' 2lod_ambr001 8 DG N9 2lod_ambr001 8 DG C4 parsed_2lod 1 9 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 170.0 310.0 . 2lod_ambr001 9 DA O4' 2lod_ambr001 9 DA C1' 2lod_ambr001 9 DA N9 2lod_ambr001 9 DA C4 parsed_2lod 1 10 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 170.0 310.0 . 2lod_ambr001 10 DC O4' 2lod_ambr001 10 DC C1' 2lod_ambr001 10 DC N1 2lod_ambr001 10 DC C2 parsed_2lod 1 11 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 170.0 310.0 . 2lod_ambr001 11 DA O4' 2lod_ambr001 11 DA C1' 2lod_ambr001 11 DA N9 2lod_ambr001 11 DA C4 parsed_2lod 1 12 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 170.0 310.0 . 2lod_ambr001 12 DC O4' 2lod_ambr001 12 DC C1' 2lod_ambr001 12 DC N1 2lod_ambr001 12 DC C2 parsed_2lod 1 13 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 170.0 310.0 . 2lod_ambr001 13 DA O4' 2lod_ambr001 13 DA C1' 2lod_ambr001 13 DA N9 2lod_ambr001 13 DA C4 parsed_2lod 1 14 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.0 110.0 . 2lod_ambr001 14 DG O4' 2lod_ambr001 14 DG C1' 2lod_ambr001 14 DG N9 2lod_ambr001 14 DG C4 parsed_2lod 1 15 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.0 110.0 . 2lod_ambr001 15 DG O4' 2lod_ambr001 15 DG C1' 2lod_ambr001 15 DG N9 2lod_ambr001 15 DG C4 parsed_2lod 1 16 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 170.0 310.0 . 2lod_ambr001 16 DG O4' 2lod_ambr001 16 DG C1' 2lod_ambr001 16 DG N9 2lod_ambr001 16 DG C4 parsed_2lod 1 17 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 170.0 310.0 . 2lod_ambr001 17 DG O4' 2lod_ambr001 17 DG C1' 2lod_ambr001 17 DG N9 2lod_ambr001 17 DG C4 parsed_2lod 1 18 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 170.0 310.0 . 2lod_ambr001 18 DA O4' 2lod_ambr001 18 DA C1' 2lod_ambr001 18 DA N9 2lod_ambr001 18 DA C4 parsed_2lod 1 19 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 170.0 310.0 . 2lod_ambr001 19 DC O4' 2lod_ambr001 19 DC C1' 2lod_ambr001 19 DC N1 2lod_ambr001 19 DC C2 parsed_2lod 1 20 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.0 110.0 . 2lod_ambr001 20 DG O4' 2lod_ambr001 20 DG C1' 2lod_ambr001 20 DG N9 2lod_ambr001 20 DG C4 parsed_2lod 1 21 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 170.0 310.0 . 2lod_ambr001 21 DG O4' 2lod_ambr001 21 DG C1' 2lod_ambr001 21 DG N9 2lod_ambr001 21 DG C4 parsed_2lod 1 22 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 170.0 310.0 . 2lod_ambr001 22 DG O4' 2lod_ambr001 22 DG C1' 2lod_ambr001 22 DG N9 2lod_ambr001 22 DG C4 parsed_2lod 1 23 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 170.0 310.0 . 2lod_ambr001 22 DG O4' 2lod_ambr001 22 DG C1' 2lod_ambr001 22 DG N9 2lod_ambr001 22 DG C4 parsed_2lod 1 24 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 150.0 300.0 . 2lod_ambr001 1 DG C4' 2lod_ambr001 1 DG C3' 2lod_ambr001 1 DG O3' 2lod_ambr001 2 DG P parsed_2lod 1 25 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 150.0 300.0 . 2lod_ambr001 2 DG C4' 2lod_ambr001 2 DG C3' 2lod_ambr001 2 DG O3' 2lod_ambr001 3 DG P parsed_2lod 1 26 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 150.0 300.0 . 2lod_ambr001 3 DG C4' 2lod_ambr001 3 DG C3' 2lod_ambr001 3 DG O3' 2lod_ambr001 4 DA P parsed_2lod 1 27 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 150.0 300.0 . 2lod_ambr001 4 DA C4' 2lod_ambr001 4 DA C3' 2lod_ambr001 4 DA O3' 2lod_ambr001 5 DT P parsed_2lod 1 28 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 150.0 300.0 . 2lod_ambr001 5 DT C4' 2lod_ambr001 5 DT C3' 2lod_ambr001 5 DT O3' 2lod_ambr001 6 DG P parsed_2lod 1 29 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 150.0 300.0 . 2lod_ambr001 6 DG C4' 2lod_ambr001 6 DG C3' 2lod_ambr001 6 DG O3' 2lod_ambr001 7 DG P parsed_2lod 1 30 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 150.0 300.0 . 2lod_ambr001 7 DG C4' 2lod_ambr001 7 DG C3' 2lod_ambr001 7 DG O3' 2lod_ambr001 8 DG P parsed_2lod 1 31 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 150.0 300.0 . 2lod_ambr001 8 DG C4' 2lod_ambr001 8 DG C3' 2lod_ambr001 8 DG O3' 2lod_ambr001 9 DA P parsed_2lod 1 32 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 150.0 300.0 . 2lod_ambr001 9 DA C4' 2lod_ambr001 9 DA C3' 2lod_ambr001 9 DA O3' 2lod_ambr001 10 DC P parsed_2lod 1 33 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 150.0 300.0 . 2lod_ambr001 10 DC C4' 2lod_ambr001 10 DC C3' 2lod_ambr001 10 DC O3' 2lod_ambr001 11 DA P parsed_2lod 1 34 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 150.0 300.0 . 2lod_ambr001 11 DA C4' 2lod_ambr001 11 DA C3' 2lod_ambr001 11 DA O3' 2lod_ambr001 12 DC P parsed_2lod 1 35 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 150.0 300.0 . 2lod_ambr001 12 DC C4' 2lod_ambr001 12 DC C3' 2lod_ambr001 12 DC O3' 2lod_ambr001 13 DA P parsed_2lod 1 36 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 150.0 300.0 . 2lod_ambr001 13 DA C4' 2lod_ambr001 13 DA C3' 2lod_ambr001 13 DA O3' 2lod_ambr001 14 DG P parsed_2lod 1 37 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 150.0 300.0 . 2lod_ambr001 14 DG C4' 2lod_ambr001 14 DG C3' 2lod_ambr001 14 DG O3' 2lod_ambr001 15 DG P parsed_2lod 1 38 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 150.0 300.0 . 2lod_ambr001 15 DG C4' 2lod_ambr001 15 DG C3' 2lod_ambr001 15 DG O3' 2lod_ambr001 16 DG P parsed_2lod 1 39 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 150.0 300.0 . 2lod_ambr001 16 DG C4' 2lod_ambr001 16 DG C3' 2lod_ambr001 16 DG O3' 2lod_ambr001 17 DG P parsed_2lod 1 40 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 150.0 300.0 . 2lod_ambr001 17 DG C4' 2lod_ambr001 17 DG C3' 2lod_ambr001 17 DG O3' 2lod_ambr001 18 DA P parsed_2lod 1 41 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 150.0 300.0 . 2lod_ambr001 18 DA C4' 2lod_ambr001 18 DA C3' 2lod_ambr001 18 DA O3' 2lod_ambr001 19 DC P parsed_2lod 1 42 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 150.0 300.0 . 2lod_ambr001 19 DC C4' 2lod_ambr001 19 DC C3' 2lod_ambr001 19 DC O3' 2lod_ambr001 20 DG P parsed_2lod 1 43 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 150.0 300.0 . 2lod_ambr001 20 DG C4' 2lod_ambr001 20 DG C3' 2lod_ambr001 20 DG O3' 2lod_ambr001 21 DG P parsed_2lod 1 44 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 150.0 300.0 . 2lod_ambr001 21 DG C4' 2lod_ambr001 21 DG C3' 2lod_ambr001 21 DG O3' 2lod_ambr001 22 DG P parsed_2lod 1 45 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 150.0 300.0 . 2lod_ambr001 21 DG C4' 2lod_ambr001 21 DG C3' 2lod_ambr001 21 DG O3' 2lod_ambr001 22 DG P parsed_2lod 1 46 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -40.0 -30.0 . 2lod_ambr001 1 DG C1' 2lod_ambr001 1 DG C2' 2lod_ambr001 1 DG C3' 2lod_ambr001 1 DG C4' parsed_2lod 1 47 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -40.0 -30.0 . 2lod_ambr001 2 DG C1' 2lod_ambr001 2 DG C2' 2lod_ambr001 2 DG C3' 2lod_ambr001 2 DG C4' parsed_2lod 1 48 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -40.0 -30.0 . 2lod_ambr001 3 DG C1' 2lod_ambr001 3 DG C2' 2lod_ambr001 3 DG C3' 2lod_ambr001 3 DG C4' parsed_2lod 1 49 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -40.0 -30.0 . 2lod_ambr001 4 DA C1' 2lod_ambr001 4 DA C2' 2lod_ambr001 4 DA C3' 2lod_ambr001 4 DA C4' parsed_2lod 1 50 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -40.0 -30.0 . 2lod_ambr001 5 DT C1' 2lod_ambr001 5 DT C2' 2lod_ambr001 5 DT C3' 2lod_ambr001 5 DT C4' parsed_2lod 1 51 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -40.0 -30.0 . 2lod_ambr001 6 DG C1' 2lod_ambr001 6 DG C2' 2lod_ambr001 6 DG C3' 2lod_ambr001 6 DG C4' parsed_2lod 1 52 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -40.0 -30.0 . 2lod_ambr001 7 DG C1' 2lod_ambr001 7 DG C2' 2lod_ambr001 7 DG C3' 2lod_ambr001 7 DG C4' parsed_2lod 1 53 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -40.0 -30.0 . 2lod_ambr001 8 DG C1' 2lod_ambr001 8 DG C2' 2lod_ambr001 8 DG C3' 2lod_ambr001 8 DG C4' parsed_2lod 1 54 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -40.0 -30.0 . 2lod_ambr001 9 DA C1' 2lod_ambr001 9 DA C2' 2lod_ambr001 9 DA C3' 2lod_ambr001 9 DA C4' parsed_2lod 1 55 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -40.0 -30.0 . 2lod_ambr001 10 DC C1' 2lod_ambr001 10 DC C2' 2lod_ambr001 10 DC C3' 2lod_ambr001 10 DC C4' parsed_2lod 1 56 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -40.0 -30.0 . 2lod_ambr001 11 DA C1' 2lod_ambr001 11 DA C2' 2lod_ambr001 11 DA C3' 2lod_ambr001 11 DA C4' parsed_2lod 1 57 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -40.0 -30.0 . 2lod_ambr001 12 DC C1' 2lod_ambr001 12 DC C2' 2lod_ambr001 12 DC C3' 2lod_ambr001 12 DC C4' parsed_2lod 1 58 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -40.0 -30.0 . 2lod_ambr001 13 DA C1' 2lod_ambr001 13 DA C2' 2lod_ambr001 13 DA C3' 2lod_ambr001 13 DA C4' parsed_2lod 1 59 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -40.0 -30.0 . 2lod_ambr001 14 DG C1' 2lod_ambr001 14 DG C2' 2lod_ambr001 14 DG C3' 2lod_ambr001 14 DG C4' parsed_2lod 1 60 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -40.0 -30.0 . 2lod_ambr001 15 DG C1' 2lod_ambr001 15 DG C2' 2lod_ambr001 15 DG C3' 2lod_ambr001 15 DG C4' parsed_2lod 1 61 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -40.0 -30.0 . 2lod_ambr001 16 DG C1' 2lod_ambr001 16 DG C2' 2lod_ambr001 16 DG C3' 2lod_ambr001 16 DG C4' parsed_2lod 1 62 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -40.0 -30.0 . 2lod_ambr001 17 DG C1' 2lod_ambr001 17 DG C2' 2lod_ambr001 17 DG C3' 2lod_ambr001 17 DG C4' parsed_2lod 1 63 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -40.0 -30.0 . 2lod_ambr001 18 DA C1' 2lod_ambr001 18 DA C2' 2lod_ambr001 18 DA C3' 2lod_ambr001 18 DA C4' parsed_2lod 1 64 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -40.0 -30.0 . 2lod_ambr001 19 DC C1' 2lod_ambr001 19 DC C2' 2lod_ambr001 19 DC C3' 2lod_ambr001 19 DC C4' parsed_2lod 1 65 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -40.0 -30.0 . 2lod_ambr001 20 DG C1' 2lod_ambr001 20 DG C2' 2lod_ambr001 20 DG C3' 2lod_ambr001 20 DG C4' parsed_2lod 1 66 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -40.0 -30.0 . 2lod_ambr001 21 DG C1' 2lod_ambr001 21 DG C2' 2lod_ambr001 21 DG C3' 2lod_ambr001 21 DG C4' parsed_2lod 1 67 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -40.0 -30.0 . 2lod_ambr001 22 DG C1' 2lod_ambr001 22 DG C2' 2lod_ambr001 22 DG C3' 2lod_ambr001 22 DG C4' parsed_2lod 1 68 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -40.0 -30.0 . 2lod_ambr001 22 DG C1' 2lod_ambr001 22 DG C2' 2lod_ambr001 22 DG C3' 2lod_ambr001 22 DG C4' parsed_2lod 1 stop_ loop_ _TA_constraint_comment_org.ID _TA_constraint_comment_org.Comment_text _TA_constraint_comment_org.Comment_begin_line _TA_constraint_comment_org.Comment_begin_column _TA_constraint_comment_org.Comment_end_line _TA_constraint_comment_org.Comment_end_column _TA_constraint_comment_org.Entry_ID _TA_constraint_comment_org.Torsion_angle_constraint_list_ID 1 ; DIHEDRAL ANGLES RESTRAINTS 1 GUA CHI: (1 DG5 O4')-(1 DG5 C1')-(1 DG5 N9)-(1 DG5 C4) 0.0 110.0 ; 1 1 2 72 parsed_2lod 1 2 "2 GUA CHI: (2 DG O4')-(2 DG C1')-(2 DG N9)-(2 DG C4) 170.0 310.0" 7 1 7 68 parsed_2lod 1 3 "3 GUA CHI: (3 DG O4')-(3 DG C1')-(3 DG N9)-(3 DG C4) 170.0 310.0" 12 1 12 68 parsed_2lod 1 4 "4 ADE CHI: (4 DA O4')-(4 DA C1')-(4 DA N9)-(4 DA C4) 170.0 310.0" 17 1 17 68 parsed_2lod 1 5 "5 THY CHI: (5 DT O4')-(5 DT C1')-(5 DT N1)-(5 DT C2) 170.0 310.0" 22 1 22 68 parsed_2lod 1 6 "6 GUA CHI: (6 DG O4')-(6 DG C1')-(6 DG N9)-(6 DG C4) 0.0 100.0" 27 1 27 68 parsed_2lod 1 7 "7 GUA CHI: (7 DG O4')-(7 DG C1')-(7 DG N9)-(7 DG C4) 170.0 310.0" 32 1 32 68 parsed_2lod 1 8 "8 GUA CHI: (8 DG O4')-(8 DG C1')-(8 DG N9)-(8 DG C4) 170.0 310.0" 37 1 37 68 parsed_2lod 1 9 "9 ADE CHI: (9 DA O4')-(9 DA C1')-(9 DA N9)-(9 DA C4) 170.0 310.0" 42 1 42 68 parsed_2lod 1 10 "10 CYT CHI: (10 DC O4')-(10 DC C1')-(10 DC N1)-(10 DC C2) 170.0 310.0" 47 1 47 73 parsed_2lod 1 11 "11 ADE CHI: (11 DA O4')-(11 DA C1')-(11 DA N9)-(11 DA C4) 170.0 310.0" 52 1 52 73 parsed_2lod 1 12 "12 CYT CHI: (12 DC O4')-(12 DC C1')-(12 DC N1)-(12 DC C2) 170.0 310.0" 57 1 57 73 parsed_2lod 1 13 "13 ADE CHI: (13 DA O4')-(13 DA C1')-(13 DA N9)-(13 DA C4) 170.0 310.0" 62 1 62 73 parsed_2lod 1 14 "14 GUA CHI: (14 DG O4')-(14 DG C1')-(14 DG N9)-(14 DG C4) 0.0 110.0" 67 1 67 73 parsed_2lod 1 15 "15 GUA CHI: (15 DG O4')-(15 DG C1')-(15 DG N9)-(15 DG C4) 0.0 110.0" 72 1 72 73 parsed_2lod 1 16 "16 GUA CHI: (16 DG O4')-(16 DG C1')-(16 DG N9)-(16 DG C4) 170.0 310.0" 77 1 77 73 parsed_2lod 1 17 "17 GUA CHI: (17 DG O4')-(17 DG C1')-(17 DG N9)-(17 DG C4) 170.0 310.0" 82 1 82 73 parsed_2lod 1 18 "18 ADE CHI: (18 DA O4')-(18 DA C1')-(18 DA N9)-(18 DA C4) 170.0 310.0" 87 1 87 73 parsed_2lod 1 19 "19 CYT CHI: (19 DC O4')-(19 DC C1')-(19 DC N1)-(19 DC C2) 170.0 310.0" 92 1 92 73 parsed_2lod 1 20 "20 GUA CHI: (20 DG O4')-(20 DG C1')-(20 DG N9)-(20 DG C4) 0.0 110.0" 97 1 97 73 parsed_2lod 1 21 "21 GUA CHI: (21 DG O4')-(21 DG C1')-(21 DG N9)-(21 DG C4) 170.0 310.0" 102 1 102 73 parsed_2lod 1 22 "22 GUA CHI: (22 DG3 O4')-(22 DG3 C1')-(22 DG3 N9)-(22 DG3 C4) 170.0 310.0" 107 1 107 77 parsed_2lod 1 23 "22 GUA CHI: (22 DG3 O4')-(22 DG3 C1')-(22 DG3 N9)-(22 DG3 C4) 170.0 310.0" 112 1 112 77 parsed_2lod 1 24 "1 GUA EPSILN: (1 DG5 C4')-(1 DG5 C3')-(1 DG5 O3')-(2 DG P) 150.0 300.0" 119 1 120 74 parsed_2lod 1 25 "2 GUA EPSILN: (2 DG C4')-(2 DG C3')-(2 DG O3')-(3 DG P) 150.0 300.0" 125 1 125 71 parsed_2lod 1 26 "3 GUA EPSILN: (3 DG C4')-(3 DG C3')-(3 DG O3')-(4 DA P) 150.0 300.0" 130 1 130 71 parsed_2lod 1 27 "4 ADE EPSILN: (4 DA C4')-(4 DA C3')-(4 DA O3')-(5 DT P) 150.0 300.0" 135 1 135 71 parsed_2lod 1 28 "5 THY EPSILN: (5 DT C4')-(5 DT C3')-(5 DT O3')-(6 DG P) 150.0 300.0" 140 1 140 71 parsed_2lod 1 29 "6 GUA EPSILN: (6 DG C4')-(6 DG C3')-(6 DG O3')-(7 DG P) 150.0 300.0" 145 1 145 71 parsed_2lod 1 30 "7 GUA EPSILN: (7 DG C4')-(7 DG C3')-(7 DG O3')-(8 DG P) 150.0 300.0" 150 1 150 71 parsed_2lod 1 31 "8 GUA EPSILN: (8 DG C4')-(8 DG C3')-(8 DG O3')-(9 DA P) 150.0 300.0" 155 1 155 71 parsed_2lod 1 32 "9 ADE EPSILN: (9 DA C4')-(9 DA C3')-(9 DA O3')-(10 DC P) 150.0 300.0" 160 1 160 72 parsed_2lod 1 33 "10 CYT EPSILN: (10 DC C4')-(10 DC C3')-(10 DC O3')-(11 DA P) 150.0 300.0" 165 1 165 76 parsed_2lod 1 34 "11 ADE EPSILN: (11 DA C4')-(11 DA C3')-(11 DA O3')-(12 DC P) 150.0 300.0" 170 1 170 76 parsed_2lod 1 35 "12 CYT EPSILN: (12 DC C4')-(12 DC C3')-(12 DC O3')-(13 DA P) 150.0 300.0" 175 1 175 76 parsed_2lod 1 36 "13 ADE EPSILN: (13 DA C4')-(13 DA C3')-(13 DA O3')-(14 DG P) 150.0 300.0" 180 1 180 76 parsed_2lod 1 37 "14 GUA EPSILN: (14 DG C4')-(14 DG C3')-(14 DG O3')-(15 DG P) 150.0 300.0" 185 1 185 76 parsed_2lod 1 38 "15 GUA EPSILN: (15 DG C4')-(15 DG C3')-(15 DG O3')-(16 DG P) 150.0 300.0" 190 1 190 76 parsed_2lod 1 39 "16 GUA EPSILN: (16 DG C4')-(16 DG C3')-(16 DG O3')-(17 DG P) 150.0 300.0" 195 1 195 76 parsed_2lod 1 40 "17 GUA EPSILN: (17 DG C4')-(17 DG C3')-(17 DG O3')-(18 DA P) 150.0 300.0" 200 1 200 76 parsed_2lod 1 41 "18 ADE EPSILN: (18 DA C4')-(18 DA C3')-(18 DA O3')-(19 DC P) 150.0 300.0" 205 1 205 76 parsed_2lod 1 42 "19 CYT EPSILN: (19 DC C4')-(19 DC C3')-(19 DC O3')-(20 DG P) 150.0 300.0" 210 1 210 76 parsed_2lod 1 43 "20 GUA EPSILN: (20 DG C4')-(20 DG C3')-(20 DG O3')-(21 DG P) 150.0 300.0" 215 1 215 76 parsed_2lod 1 44 "21 GUA EPSILN: (21 DG C4')-(21 DG C3')-(21 DG O3')-(22 DG3 P) 150.0 300.0" 220 1 220 77 parsed_2lod 1 45 "21 GUA EPSILN: (21 DG C4')-(21 DG C3')-(21 DG O3')-(22 DG3 P) 150.0 300.0" 225 1 225 77 parsed_2lod 1 46 "1 GUA NU2: (1 DG5 C1')-(1 DG5 C2')-(1 DG5 C3')-(1 DG5 C4') -40.0 -30.0" 233 1 234 74 parsed_2lod 1 47 "2 GUA NU2: (2 DG C1')-(2 DG C2')-(2 DG C3')-(2 DG C4') -40.0 -30.0" 239 1 239 70 parsed_2lod 1 48 "3 GUA NU2: (3 DG C1')-(3 DG C2')-(3 DG C3')-(3 DG C4') -40.0 -30.0" 244 1 244 70 parsed_2lod 1 49 "4 ADE NU2: (4 DA C1')-(4 DA C2')-(4 DA C3')-(4 DA C4') -40.0 -30.0" 249 1 249 70 parsed_2lod 1 50 "5 THY NU2: (5 DT C1')-(5 DT C2')-(5 DT C3')-(5 DT C4') -40.0 -30.0" 254 1 254 70 parsed_2lod 1 51 "6 GUA NU2: (6 DG C1')-(6 DG C2')-(6 DG C3')-(6 DG C4') -40.0 -30.0" 259 1 259 70 parsed_2lod 1 52 "7 GUA NU2: (7 DG C1')-(7 DG C2')-(7 DG C3')-(7 DG C4') -40.0 -30.0" 264 1 264 70 parsed_2lod 1 53 "8 GUA NU2: (8 DG C1')-(8 DG C2')-(8 DG C3')-(8 DG C4') -40.0 -30.0" 269 1 269 70 parsed_2lod 1 54 "9 ADE NU2: (9 DA C1')-(9 DA C2')-(9 DA C3')-(9 DA C4') -40.0 -30.0" 274 1 274 70 parsed_2lod 1 55 "10 CYT NU2: (10 DC C1')-(10 DC C2')-(10 DC C3')-(10 DC C4') -40.0 -30.0" 279 1 279 75 parsed_2lod 1 56 "11 ADE NU2: (11 DA C1')-(11 DA C2')-(11 DA C3')-(11 DA C4') -40.0 -30.0" 284 1 284 75 parsed_2lod 1 57 "12 CYT NU2: (12 DC C1')-(12 DC C2')-(12 DC C3')-(12 DC C4') -40.0 -30.0" 289 1 289 75 parsed_2lod 1 58 "13 ADE NU2: (13 DA C1')-(13 DA C2')-(13 DA C3')-(13 DA C4') -40.0 -30.0" 294 1 294 75 parsed_2lod 1 59 "14 GUA NU2: (14 DG C1')-(14 DG C2')-(14 DG C3')-(14 DG C4') -40.0 -30.0" 299 1 299 75 parsed_2lod 1 60 "15 GUA NU2: (15 DG C1')-(15 DG C2')-(15 DG C3')-(15 DG C4') -40.0 -30.0" 304 1 304 75 parsed_2lod 1 61 "16 GUA NU2: (16 DG C1')-(16 DG C2')-(16 DG C3')-(16 DG C4') -40.0 -30.0" 309 1 309 75 parsed_2lod 1 62 "17 GUA NU2: (17 DG C1')-(17 DG C2')-(17 DG C3')-(17 DG C4') -40.0 -30.0" 314 1 314 75 parsed_2lod 1 63 "18 ADE NU2: (18 DA C1')-(18 DA C2')-(18 DA C3')-(18 DA C4') -40.0 -30.0" 319 1 319 75 parsed_2lod 1 64 "19 CYT NU2: (19 DC C1')-(19 DC C2')-(19 DC C3')-(19 DC C4') -40.0 -30.0" 324 1 324 75 parsed_2lod 1 65 "20 GUA NU2: (20 DG C1')-(20 DG C2')-(20 DG C3')-(20 DG C4') -40.0 -30.0" 329 1 329 75 parsed_2lod 1 66 "21 GUA NU2: (21 DG C1')-(21 DG C2')-(21 DG C3')-(21 DG C4') -40.0 -30.0" 334 1 334 75 parsed_2lod 1 67 "22 GUA NU2: (22 DG3 C1')-(22 DG3 C2')-(22 DG3 C3')-(22 DG3 C4') -40.0 -30.0" 339 1 339 79 parsed_2lod 1 68 "22 GUA NU2: (22 DG3 C1')-(22 DG3 C2')-(22 DG3 C3')-(22 DG3 C4') -40.0 -30.0" 344 1 344 79 parsed_2lod 1 stop_ save_
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