data_PB ############################# # Protein Blocks Annotation # ############################# ####################################################################################### # PB encoding by Protein Blocks Expert 2.0 server (http://www.bo-protscience.fr/pbe/) # # Reference: Biophys Rev. 2010 Aug;2(3):137-147. Epub 2010 Aug 5. # # : Nucleic Acids Res. 2006 Jul 1;34(Web Server issue):W119-23. # ####################################################################################### save_PB_annotation_1 _PB_list.Sf_category PB_list _PB_list.ID 1 _PB_list.Query_ID db2fvf_1579#A _PB_list.Queried_date 2014-12-15 _PB_list.Input_file_name pdb2fvf.ent _PB_list.Output_file_name bmr6790_PB.str _PB_list.Electronic_address http://bmrbpub.protein.osaka-u.ac.jp/archive/pb/bmr6790_PB.str _PB_list.AA_seq_one_letter_code AKKETIDKVSDIVKEKLALGADVVVTADSEFSKLGADSLDTVEIVMNLEEEFGINVDEDKAQDISTIQQAADVIEGLLEKKA _PB_list.PB_seq_code zzklmmmmmmmmmmmnmnolmpccdfklcfklnopafklmmmmmmmmmmmnopaddfklmmmpmbfklmmmmmmmmmmmnzz _PB_list.PDB_ID 2FVF _PB_list.PDBX_exptl_method "SOLUTION NMR" _PB_list.PDBX_NMR_refine_method "Initial structure from torsion angle dynamics (in CYANA). Fatty acid and phosphopantetheine were added and docked using ambiguous distance restraints in XPLOR-NIH" _PB_list.Entry_ID 6790 loop_ _PB_char.Entity_assembly_ID _PB_char.Assembly_ID _PB_char.Entity_ID _PB_char.Comp_index_ID _PB_char.Comp_ID _PB_char.PDB_model_num _PB_char.PDB_strand_ID _PB_char.PDB_ins_code _PB_char.PDB_residue_no _PB_char.PDB_residue_name _PB_char.PB_code _PB_char.Align _PB_char.Entry_ID _PB_char.PB_list_ID 1 1 1 1 ALA 1 A . 1 ALA . 1 6790 1 1 1 1 2 LYS 1 A . 2 LYS . 1 6790 1 1 1 1 3 LYS 1 A . 3 LYS k 1 6790 1 1 1 1 4 GLU 1 A . 4 GLU l 1 6790 1 1 1 1 5 THR 1 A . 5 THR m 1 6790 1 1 1 1 6 ILE 1 A . 6 ILE m 1 6790 1 1 1 1 7 ASP 1 A . 7 ASP m 1 6790 1 1 1 1 8 LYS 1 A . 8 LYS m 1 6790 1 1 1 1 9 VAL 1 A . 9 VAL m 1 6790 1 1 1 1 10 SER 1 A . 10 SER m 1 6790 1 1 1 1 11 ASP 1 A . 11 ASP m 1 6790 1 1 1 1 12 ILE 1 A . 12 ILE m 1 6790 1 1 1 1 13 VAL 1 A . 13 VAL m 1 6790 1 1 1 1 14 LYS 1 A . 14 LYS m 1 6790 1 1 1 1 15 GLU 1 A . 15 GLU m 1 6790 1 1 1 1 16 LYS 1 A . 16 LYS n 1 6790 1 1 1 1 17 LEU 1 A . 17 LEU m 1 6790 1 1 1 1 18 ALA 1 A . 18 ALA n 1 6790 1 1 1 1 19 LEU 1 A . 19 LEU o 1 6790 1 1 1 1 20 GLY 1 A . 20 GLY l 1 6790 1 1 1 1 21 ALA 1 A . 21 ALA m 1 6790 1 1 1 1 22 ASP 1 A . 22 ASP p 1 6790 1 1 1 1 23 VAL 1 A . 23 VAL c 1 6790 1 1 1 1 24 VAL 1 A . 24 VAL c 1 6790 1 1 1 1 25 VAL 1 A . 25 VAL d 1 6790 1 1 1 1 26 THR 1 A . 26 THR f 1 6790 1 1 1 1 27 ALA 1 A . 27 ALA k 1 6790 1 1 1 1 28 ASP 1 A . 28 ASP l 1 6790 1 1 1 1 29 SER 1 A . 29 SER c 1 6790 1 1 1 1 30 GLU 1 A . 30 GLU f 1 6790 1 1 1 1 31 PHE 1 A . 31 PHE k 1 6790 1 1 1 1 32 SER 1 A . 32 SER l 1 6790 1 1 1 1 33 LYS 1 A . 33 LYS n 1 6790 1 1 1 1 34 LEU 1 A . 34 LEU o 1 6790 1 1 1 1 35 GLY 1 A . 35 GLY p 1 6790 1 1 1 1 36 ALA 1 A . 36 ALA a 1 6790 1 1 1 1 37 ASP 1 A . 37 ASP f 1 6790 1 1 1 1 38 SER 1 A . 38 SER k 1 6790 1 1 1 1 39 LEU 1 A . 39 LEU l 1 6790 1 1 1 1 40 ASP 1 A . 40 ASP m 1 6790 1 1 1 1 41 THR 1 A . 41 THR m 1 6790 1 1 1 1 42 VAL 1 A . 42 VAL m 1 6790 1 1 1 1 43 GLU 1 A . 43 GLU m 1 6790 1 1 1 1 44 ILE 1 A . 44 ILE m 1 6790 1 1 1 1 45 VAL 1 A . 45 VAL m 1 6790 1 1 1 1 46 MET 1 A . 46 MET m 1 6790 1 1 1 1 47 ASN 1 A . 47 ASN m 1 6790 1 1 1 1 48 LEU 1 A . 48 LEU m 1 6790 1 1 1 1 49 GLU 1 A . 49 GLU m 1 6790 1 1 1 1 50 GLU 1 A . 50 GLU m 1 6790 1 1 1 1 51 GLU 1 A . 51 GLU n 1 6790 1 1 1 1 52 PHE 1 A . 52 PHE o 1 6790 1 1 1 1 53 GLY 1 A . 53 GLY p 1 6790 1 1 1 1 54 ILE 1 A . 54 ILE a 1 6790 1 1 1 1 55 ASN 1 A . 55 ASN d 1 6790 1 1 1 1 56 VAL 1 A . 56 VAL d 1 6790 1 1 1 1 57 ASP 1 A . 57 ASP f 1 6790 1 1 1 1 58 GLU 1 A . 58 GLU k 1 6790 1 1 1 1 59 ASP 1 A . 59 ASP l 1 6790 1 1 1 1 60 LYS 1 A . 60 LYS m 1 6790 1 1 1 1 61 ALA 1 A . 61 ALA m 1 6790 1 1 1 1 62 GLN 1 A . 62 GLN m 1 6790 1 1 1 1 63 ASP 1 A . 63 ASP p 1 6790 1 1 1 1 64 ILE 1 A . 64 ILE m 1 6790 1 1 1 1 65 SER 1 A . 65 SER b 1 6790 1 1 1 1 66 THR 1 A . 66 THR f 1 6790 1 1 1 1 67 ILE 1 A . 67 ILE k 1 6790 1 1 1 1 68 GLN 1 A . 68 GLN l 1 6790 1 1 1 1 69 GLN 1 A . 69 GLN m 1 6790 1 1 1 1 70 ALA 1 A . 70 ALA m 1 6790 1 1 1 1 71 ALA 1 A . 71 ALA m 1 6790 1 1 1 1 72 ASP 1 A . 72 ASP m 1 6790 1 1 1 1 73 VAL 1 A . 73 VAL m 1 6790 1 1 1 1 74 ILE 1 A . 74 ILE m 1 6790 1 1 1 1 75 GLU 1 A . 75 GLU m 1 6790 1 1 1 1 76 GLY 1 A . 76 GLY m 1 6790 1 1 1 1 77 LEU 1 A . 77 LEU m 1 6790 1 1 1 1 78 LEU 1 A . 78 LEU m 1 6790 1 1 1 1 79 GLU 1 A . 79 GLU m 1 6790 1 1 1 1 80 LYS 1 A . 80 LYS n 1 6790 1 1 1 1 81 LYS 1 A . 81 LYS . 1 6790 1 1 1 1 82 ALA 1 A . 82 ALA . 1 6790 1 stop_ save_ save_PB_annotation_2 _PB_list.Sf_category PB_list _PB_list.ID 2 _PB_list.Query_ID db2fvf_1579#A _PB_list.Queried_date 2014-12-15 _PB_list.Input_file_name pdb2fvf.ent _PB_list.Output_file_name bmr6790_PB.str _PB_list.Electronic_address http://bmrbpub.protein.osaka-u.ac.jp/archive/pb/bmr6790_PB.str _PB_list.AA_seq_one_letter_code AKKETIDKVSDIVKEKLALGADVVVTADSEFSKLGADSLDTVEIVMNLEEEFGINVDEDKAQDISTIQQAADVIEGLLEKKA _PB_list.PB_seq_code zzklmmmmmmmmmmmnmnolmpccdfklcfklnopafklmmmmmmmmmmmnopaddfklmmmpmbfmlmmmmmmmmmmmnzz _PB_list.PDB_ID 2FVF _PB_list.PDBX_exptl_method "SOLUTION NMR" _PB_list.PDBX_NMR_refine_method "Initial structure from torsion angle dynamics (in CYANA). Fatty acid and phosphopantetheine were added and docked using ambiguous distance restraints in XPLOR-NIH" _PB_list.Entry_ID 6790 loop_ _PB_char.Entity_assembly_ID _PB_char.Assembly_ID _PB_char.Entity_ID _PB_char.Comp_index_ID _PB_char.Comp_ID _PB_char.PDB_model_num _PB_char.PDB_strand_ID _PB_char.PDB_ins_code _PB_char.PDB_residue_no _PB_char.PDB_residue_name _PB_char.PB_code _PB_char.Align _PB_char.Entry_ID _PB_char.PB_list_ID 1 1 1 1 ALA 2 A . 1 ALA . 1 6790 2 1 1 1 2 LYS 2 A . 2 LYS . 1 6790 2 1 1 1 3 LYS 2 A . 3 LYS k 1 6790 2 1 1 1 4 GLU 2 A . 4 GLU l 1 6790 2 1 1 1 5 THR 2 A . 5 THR m 1 6790 2 1 1 1 6 ILE 2 A . 6 ILE m 1 6790 2 1 1 1 7 ASP 2 A . 7 ASP m 1 6790 2 1 1 1 8 LYS 2 A . 8 LYS m 1 6790 2 1 1 1 9 VAL 2 A . 9 VAL m 1 6790 2 1 1 1 10 SER 2 A . 10 SER m 1 6790 2 1 1 1 11 ASP 2 A . 11 ASP m 1 6790 2 1 1 1 12 ILE 2 A . 12 ILE m 1 6790 2 1 1 1 13 VAL 2 A . 13 VAL m 1 6790 2 1 1 1 14 LYS 2 A . 14 LYS m 1 6790 2 1 1 1 15 GLU 2 A . 15 GLU m 1 6790 2 1 1 1 16 LYS 2 A . 16 LYS n 1 6790 2 1 1 1 17 LEU 2 A . 17 LEU m 1 6790 2 1 1 1 18 ALA 2 A . 18 ALA n 1 6790 2 1 1 1 19 LEU 2 A . 19 LEU o 1 6790 2 1 1 1 20 GLY 2 A . 20 GLY l 1 6790 2 1 1 1 21 ALA 2 A . 21 ALA m 1 6790 2 1 1 1 22 ASP 2 A . 22 ASP p 1 6790 2 1 1 1 23 VAL 2 A . 23 VAL c 1 6790 2 1 1 1 24 VAL 2 A . 24 VAL c 1 6790 2 1 1 1 25 VAL 2 A . 25 VAL d 1 6790 2 1 1 1 26 THR 2 A . 26 THR f 1 6790 2 1 1 1 27 ALA 2 A . 27 ALA k 1 6790 2 1 1 1 28 ASP 2 A . 28 ASP l 1 6790 2 1 1 1 29 SER 2 A . 29 SER c 1 6790 2 1 1 1 30 GLU 2 A . 30 GLU f 1 6790 2 1 1 1 31 PHE 2 A . 31 PHE k 1 6790 2 1 1 1 32 SER 2 A . 32 SER l 1 6790 2 1 1 1 33 LYS 2 A . 33 LYS n 1 6790 2 1 1 1 34 LEU 2 A . 34 LEU o 1 6790 2 1 1 1 35 GLY 2 A . 35 GLY p 1 6790 2 1 1 1 36 ALA 2 A . 36 ALA a 1 6790 2 1 1 1 37 ASP 2 A . 37 ASP f 1 6790 2 1 1 1 38 SER 2 A . 38 SER k 1 6790 2 1 1 1 39 LEU 2 A . 39 LEU l 1 6790 2 1 1 1 40 ASP 2 A . 40 ASP m 1 6790 2 1 1 1 41 THR 2 A . 41 THR m 1 6790 2 1 1 1 42 VAL 2 A . 42 VAL m 1 6790 2 1 1 1 43 GLU 2 A . 43 GLU m 1 6790 2 1 1 1 44 ILE 2 A . 44 ILE m 1 6790 2 1 1 1 45 VAL 2 A . 45 VAL m 1 6790 2 1 1 1 46 MET 2 A . 46 MET m 1 6790 2 1 1 1 47 ASN 2 A . 47 ASN m 1 6790 2 1 1 1 48 LEU 2 A . 48 LEU m 1 6790 2 1 1 1 49 GLU 2 A . 49 GLU m 1 6790 2 1 1 1 50 GLU 2 A . 50 GLU m 1 6790 2 1 1 1 51 GLU 2 A . 51 GLU n 1 6790 2 1 1 1 52 PHE 2 A . 52 PHE o 1 6790 2 1 1 1 53 GLY 2 A . 53 GLY p 1 6790 2 1 1 1 54 ILE 2 A . 54 ILE a 1 6790 2 1 1 1 55 ASN 2 A . 55 ASN d 1 6790 2 1 1 1 56 VAL 2 A . 56 VAL d 1 6790 2 1 1 1 57 ASP 2 A . 57 ASP f 1 6790 2 1 1 1 58 GLU 2 A . 58 GLU k 1 6790 2 1 1 1 59 ASP 2 A . 59 ASP l 1 6790 2 1 1 1 60 LYS 2 A . 60 LYS m 1 6790 2 1 1 1 61 ALA 2 A . 61 ALA m 1 6790 2 1 1 1 62 GLN 2 A . 62 GLN m 1 6790 2 1 1 1 63 ASP 2 A . 63 ASP p 1 6790 2 1 1 1 64 ILE 2 A . 64 ILE m 1 6790 2 1 1 1 65 SER 2 A . 65 SER b 1 6790 2 1 1 1 66 THR 2 A . 66 THR f 1 6790 2 1 1 1 67 ILE 2 A . 67 ILE m 1 6790 2 1 1 1 68 GLN 2 A . 68 GLN l 1 6790 2 1 1 1 69 GLN 2 A . 69 GLN m 1 6790 2 1 1 1 70 ALA 2 A . 70 ALA m 1 6790 2 1 1 1 71 ALA 2 A . 71 ALA m 1 6790 2 1 1 1 72 ASP 2 A . 72 ASP m 1 6790 2 1 1 1 73 VAL 2 A . 73 VAL m 1 6790 2 1 1 1 74 ILE 2 A . 74 ILE m 1 6790 2 1 1 1 75 GLU 2 A . 75 GLU m 1 6790 2 1 1 1 76 GLY 2 A . 76 GLY m 1 6790 2 1 1 1 77 LEU 2 A . 77 LEU m 1 6790 2 1 1 1 78 LEU 2 A . 78 LEU m 1 6790 2 1 1 1 79 GLU 2 A . 79 GLU m 1 6790 2 1 1 1 80 LYS 2 A . 80 LYS n 1 6790 2 1 1 1 81 LYS 2 A . 81 LYS . 1 6790 2 1 1 1 82 ALA 2 A . 82 ALA . 1 6790 2 stop_ save_ save_PB_annotation_3 _PB_list.Sf_category PB_list _PB_list.ID 3 _PB_list.Query_ID db2fvf_1579#A _PB_list.Queried_date 2014-12-15 _PB_list.Input_file_name pdb2fvf.ent _PB_list.Output_file_name bmr6790_PB.str _PB_list.Electronic_address http://bmrbpub.protein.osaka-u.ac.jp/archive/pb/bmr6790_PB.str _PB_list.AA_seq_one_letter_code AKKETIDKVSDIVKEKLALGADVVVTADSEFSKLGADSLDTVEIVMNLEEEFGINVDEDKAQDISTIQQAADVIEGLLEKKA _PB_list.PB_seq_code zzklmmmmmmmmmmmnonolmpccdfkbcfklnopafklmmmmmmmmmmmnopaddfklmmmpmbfklmmmmmmmmmmmgzz _PB_list.PDB_ID 2FVF _PB_list.PDBX_exptl_method "SOLUTION NMR" _PB_list.PDBX_NMR_refine_method "Initial structure from torsion angle dynamics (in CYANA). Fatty acid and phosphopantetheine were added and docked using ambiguous distance restraints in XPLOR-NIH" _PB_list.Entry_ID 6790 loop_ _PB_char.Entity_assembly_ID _PB_char.Assembly_ID _PB_char.Entity_ID _PB_char.Comp_index_ID _PB_char.Comp_ID _PB_char.PDB_model_num _PB_char.PDB_strand_ID _PB_char.PDB_ins_code _PB_char.PDB_residue_no _PB_char.PDB_residue_name _PB_char.PB_code _PB_char.Align _PB_char.Entry_ID _PB_char.PB_list_ID 1 1 1 1 ALA 3 A . 1 ALA . 1 6790 3 1 1 1 2 LYS 3 A . 2 LYS . 1 6790 3 1 1 1 3 LYS 3 A . 3 LYS k 1 6790 3 1 1 1 4 GLU 3 A . 4 GLU l 1 6790 3 1 1 1 5 THR 3 A . 5 THR m 1 6790 3 1 1 1 6 ILE 3 A . 6 ILE m 1 6790 3 1 1 1 7 ASP 3 A . 7 ASP m 1 6790 3 1 1 1 8 LYS 3 A . 8 LYS m 1 6790 3 1 1 1 9 VAL 3 A . 9 VAL m 1 6790 3 1 1 1 10 SER 3 A . 10 SER m 1 6790 3 1 1 1 11 ASP 3 A . 11 ASP m 1 6790 3 1 1 1 12 ILE 3 A . 12 ILE m 1 6790 3 1 1 1 13 VAL 3 A . 13 VAL m 1 6790 3 1 1 1 14 LYS 3 A . 14 LYS m 1 6790 3 1 1 1 15 GLU 3 A . 15 GLU m 1 6790 3 1 1 1 16 LYS 3 A . 16 LYS n 1 6790 3 1 1 1 17 LEU 3 A . 17 LEU o 1 6790 3 1 1 1 18 ALA 3 A . 18 ALA n 1 6790 3 1 1 1 19 LEU 3 A . 19 LEU o 1 6790 3 1 1 1 20 GLY 3 A . 20 GLY l 1 6790 3 1 1 1 21 ALA 3 A . 21 ALA m 1 6790 3 1 1 1 22 ASP 3 A . 22 ASP p 1 6790 3 1 1 1 23 VAL 3 A . 23 VAL c 1 6790 3 1 1 1 24 VAL 3 A . 24 VAL c 1 6790 3 1 1 1 25 VAL 3 A . 25 VAL d 1 6790 3 1 1 1 26 THR 3 A . 26 THR f 1 6790 3 1 1 1 27 ALA 3 A . 27 ALA k 1 6790 3 1 1 1 28 ASP 3 A . 28 ASP b 1 6790 3 1 1 1 29 SER 3 A . 29 SER c 1 6790 3 1 1 1 30 GLU 3 A . 30 GLU f 1 6790 3 1 1 1 31 PHE 3 A . 31 PHE k 1 6790 3 1 1 1 32 SER 3 A . 32 SER l 1 6790 3 1 1 1 33 LYS 3 A . 33 LYS n 1 6790 3 1 1 1 34 LEU 3 A . 34 LEU o 1 6790 3 1 1 1 35 GLY 3 A . 35 GLY p 1 6790 3 1 1 1 36 ALA 3 A . 36 ALA a 1 6790 3 1 1 1 37 ASP 3 A . 37 ASP f 1 6790 3 1 1 1 38 SER 3 A . 38 SER k 1 6790 3 1 1 1 39 LEU 3 A . 39 LEU l 1 6790 3 1 1 1 40 ASP 3 A . 40 ASP m 1 6790 3 1 1 1 41 THR 3 A . 41 THR m 1 6790 3 1 1 1 42 VAL 3 A . 42 VAL m 1 6790 3 1 1 1 43 GLU 3 A . 43 GLU m 1 6790 3 1 1 1 44 ILE 3 A . 44 ILE m 1 6790 3 1 1 1 45 VAL 3 A . 45 VAL m 1 6790 3 1 1 1 46 MET 3 A . 46 MET m 1 6790 3 1 1 1 47 ASN 3 A . 47 ASN m 1 6790 3 1 1 1 48 LEU 3 A . 48 LEU m 1 6790 3 1 1 1 49 GLU 3 A . 49 GLU m 1 6790 3 1 1 1 50 GLU 3 A . 50 GLU m 1 6790 3 1 1 1 51 GLU 3 A . 51 GLU n 1 6790 3 1 1 1 52 PHE 3 A . 52 PHE o 1 6790 3 1 1 1 53 GLY 3 A . 53 GLY p 1 6790 3 1 1 1 54 ILE 3 A . 54 ILE a 1 6790 3 1 1 1 55 ASN 3 A . 55 ASN d 1 6790 3 1 1 1 56 VAL 3 A . 56 VAL d 1 6790 3 1 1 1 57 ASP 3 A . 57 ASP f 1 6790 3 1 1 1 58 GLU 3 A . 58 GLU k 1 6790 3 1 1 1 59 ASP 3 A . 59 ASP l 1 6790 3 1 1 1 60 LYS 3 A . 60 LYS m 1 6790 3 1 1 1 61 ALA 3 A . 61 ALA m 1 6790 3 1 1 1 62 GLN 3 A . 62 GLN m 1 6790 3 1 1 1 63 ASP 3 A . 63 ASP p 1 6790 3 1 1 1 64 ILE 3 A . 64 ILE m 1 6790 3 1 1 1 65 SER 3 A . 65 SER b 1 6790 3 1 1 1 66 THR 3 A . 66 THR f 1 6790 3 1 1 1 67 ILE 3 A . 67 ILE k 1 6790 3 1 1 1 68 GLN 3 A . 68 GLN l 1 6790 3 1 1 1 69 GLN 3 A . 69 GLN m 1 6790 3 1 1 1 70 ALA 3 A . 70 ALA m 1 6790 3 1 1 1 71 ALA 3 A . 71 ALA m 1 6790 3 1 1 1 72 ASP 3 A . 72 ASP m 1 6790 3 1 1 1 73 VAL 3 A . 73 VAL m 1 6790 3 1 1 1 74 ILE 3 A . 74 ILE m 1 6790 3 1 1 1 75 GLU 3 A . 75 GLU m 1 6790 3 1 1 1 76 GLY 3 A . 76 GLY m 1 6790 3 1 1 1 77 LEU 3 A . 77 LEU m 1 6790 3 1 1 1 78 LEU 3 A . 78 LEU m 1 6790 3 1 1 1 79 GLU 3 A . 79 GLU m 1 6790 3 1 1 1 80 LYS 3 A . 80 LYS g 1 6790 3 1 1 1 81 LYS 3 A . 81 LYS . 1 6790 3 1 1 1 82 ALA 3 A . 82 ALA . 1 6790 3 stop_ save_ save_PB_annotation_4 _PB_list.Sf_category PB_list _PB_list.ID 4 _PB_list.Query_ID db2fvf_1579#A _PB_list.Queried_date 2014-12-15 _PB_list.Input_file_name pdb2fvf.ent _PB_list.Output_file_name bmr6790_PB.str _PB_list.Electronic_address http://bmrbpub.protein.osaka-u.ac.jp/archive/pb/bmr6790_PB.str _PB_list.AA_seq_one_letter_code AKKETIDKVSDIVKEKLALGADVVVTADSEFSKLGADSLDTVEIVMNLEEEFGINVDEDKAQDISTIQQAADVIEGLLEKKA _PB_list.PB_seq_code zzklmmmmmmmmmmmnmnolmpccdfkbcfklnopafklmmmmmmmmmmmnopacdfklmmmpmbfklmmmmmmmmmmmpzz _PB_list.PDB_ID 2FVF _PB_list.PDBX_exptl_method "SOLUTION NMR" _PB_list.PDBX_NMR_refine_method "Initial structure from torsion angle dynamics (in CYANA). Fatty acid and phosphopantetheine were added and docked using ambiguous distance restraints in XPLOR-NIH" _PB_list.Entry_ID 6790 loop_ _PB_char.Entity_assembly_ID _PB_char.Assembly_ID _PB_char.Entity_ID _PB_char.Comp_index_ID _PB_char.Comp_ID _PB_char.PDB_model_num _PB_char.PDB_strand_ID _PB_char.PDB_ins_code _PB_char.PDB_residue_no _PB_char.PDB_residue_name _PB_char.PB_code _PB_char.Align _PB_char.Entry_ID _PB_char.PB_list_ID 1 1 1 1 ALA 4 A . 1 ALA . 1 6790 4 1 1 1 2 LYS 4 A . 2 LYS . 1 6790 4 1 1 1 3 LYS 4 A . 3 LYS k 1 6790 4 1 1 1 4 GLU 4 A . 4 GLU l 1 6790 4 1 1 1 5 THR 4 A . 5 THR m 1 6790 4 1 1 1 6 ILE 4 A . 6 ILE m 1 6790 4 1 1 1 7 ASP 4 A . 7 ASP m 1 6790 4 1 1 1 8 LYS 4 A . 8 LYS m 1 6790 4 1 1 1 9 VAL 4 A . 9 VAL m 1 6790 4 1 1 1 10 SER 4 A . 10 SER m 1 6790 4 1 1 1 11 ASP 4 A . 11 ASP m 1 6790 4 1 1 1 12 ILE 4 A . 12 ILE m 1 6790 4 1 1 1 13 VAL 4 A . 13 VAL m 1 6790 4 1 1 1 14 LYS 4 A . 14 LYS m 1 6790 4 1 1 1 15 GLU 4 A . 15 GLU m 1 6790 4 1 1 1 16 LYS 4 A . 16 LYS n 1 6790 4 1 1 1 17 LEU 4 A . 17 LEU m 1 6790 4 1 1 1 18 ALA 4 A . 18 ALA n 1 6790 4 1 1 1 19 LEU 4 A . 19 LEU o 1 6790 4 1 1 1 20 GLY 4 A . 20 GLY l 1 6790 4 1 1 1 21 ALA 4 A . 21 ALA m 1 6790 4 1 1 1 22 ASP 4 A . 22 ASP p 1 6790 4 1 1 1 23 VAL 4 A . 23 VAL c 1 6790 4 1 1 1 24 VAL 4 A . 24 VAL c 1 6790 4 1 1 1 25 VAL 4 A . 25 VAL d 1 6790 4 1 1 1 26 THR 4 A . 26 THR f 1 6790 4 1 1 1 27 ALA 4 A . 27 ALA k 1 6790 4 1 1 1 28 ASP 4 A . 28 ASP b 1 6790 4 1 1 1 29 SER 4 A . 29 SER c 1 6790 4 1 1 1 30 GLU 4 A . 30 GLU f 1 6790 4 1 1 1 31 PHE 4 A . 31 PHE k 1 6790 4 1 1 1 32 SER 4 A . 32 SER l 1 6790 4 1 1 1 33 LYS 4 A . 33 LYS n 1 6790 4 1 1 1 34 LEU 4 A . 34 LEU o 1 6790 4 1 1 1 35 GLY 4 A . 35 GLY p 1 6790 4 1 1 1 36 ALA 4 A . 36 ALA a 1 6790 4 1 1 1 37 ASP 4 A . 37 ASP f 1 6790 4 1 1 1 38 SER 4 A . 38 SER k 1 6790 4 1 1 1 39 LEU 4 A . 39 LEU l 1 6790 4 1 1 1 40 ASP 4 A . 40 ASP m 1 6790 4 1 1 1 41 THR 4 A . 41 THR m 1 6790 4 1 1 1 42 VAL 4 A . 42 VAL m 1 6790 4 1 1 1 43 GLU 4 A . 43 GLU m 1 6790 4 1 1 1 44 ILE 4 A . 44 ILE m 1 6790 4 1 1 1 45 VAL 4 A . 45 VAL m 1 6790 4 1 1 1 46 MET 4 A . 46 MET m 1 6790 4 1 1 1 47 ASN 4 A . 47 ASN m 1 6790 4 1 1 1 48 LEU 4 A . 48 LEU m 1 6790 4 1 1 1 49 GLU 4 A . 49 GLU m 1 6790 4 1 1 1 50 GLU 4 A . 50 GLU m 1 6790 4 1 1 1 51 GLU 4 A . 51 GLU n 1 6790 4 1 1 1 52 PHE 4 A . 52 PHE o 1 6790 4 1 1 1 53 GLY 4 A . 53 GLY p 1 6790 4 1 1 1 54 ILE 4 A . 54 ILE a 1 6790 4 1 1 1 55 ASN 4 A . 55 ASN c 1 6790 4 1 1 1 56 VAL 4 A . 56 VAL d 1 6790 4 1 1 1 57 ASP 4 A . 57 ASP f 1 6790 4 1 1 1 58 GLU 4 A . 58 GLU k 1 6790 4 1 1 1 59 ASP 4 A . 59 ASP l 1 6790 4 1 1 1 60 LYS 4 A . 60 LYS m 1 6790 4 1 1 1 61 ALA 4 A . 61 ALA m 1 6790 4 1 1 1 62 GLN 4 A . 62 GLN m 1 6790 4 1 1 1 63 ASP 4 A . 63 ASP p 1 6790 4 1 1 1 64 ILE 4 A . 64 ILE m 1 6790 4 1 1 1 65 SER 4 A . 65 SER b 1 6790 4 1 1 1 66 THR 4 A . 66 THR f 1 6790 4 1 1 1 67 ILE 4 A . 67 ILE k 1 6790 4 1 1 1 68 GLN 4 A . 68 GLN l 1 6790 4 1 1 1 69 GLN 4 A . 69 GLN m 1 6790 4 1 1 1 70 ALA 4 A . 70 ALA m 1 6790 4 1 1 1 71 ALA 4 A . 71 ALA m 1 6790 4 1 1 1 72 ASP 4 A . 72 ASP m 1 6790 4 1 1 1 73 VAL 4 A . 73 VAL m 1 6790 4 1 1 1 74 ILE 4 A . 74 ILE m 1 6790 4 1 1 1 75 GLU 4 A . 75 GLU m 1 6790 4 1 1 1 76 GLY 4 A . 76 GLY m 1 6790 4 1 1 1 77 LEU 4 A . 77 LEU m 1 6790 4 1 1 1 78 LEU 4 A . 78 LEU m 1 6790 4 1 1 1 79 GLU 4 A . 79 GLU m 1 6790 4 1 1 1 80 LYS 4 A . 80 LYS p 1 6790 4 1 1 1 81 LYS 4 A . 81 LYS . 1 6790 4 1 1 1 82 ALA 4 A . 82 ALA . 1 6790 4 stop_ save_ save_PB_annotation_5 _PB_list.Sf_category PB_list _PB_list.ID 5 _PB_list.Query_ID db2fvf_1579#A _PB_list.Queried_date 2014-12-15 _PB_list.Input_file_name pdb2fvf.ent _PB_list.Output_file_name bmr6790_PB.str _PB_list.Electronic_address http://bmrbpub.protein.osaka-u.ac.jp/archive/pb/bmr6790_PB.str _PB_list.AA_seq_one_letter_code AKKETIDKVSDIVKEKLALGADVVVTADSEFSKLGADSLDTVEIVMNLEEEFGINVDEDKAQDISTIQQAADVIEGLLEKKA _PB_list.PB_seq_code zzklmmmmmmmmmmmnmnolmpccdfklcfklnopafklmmmmmmmmmmmnopaddfklmmmpcbfklmmmmmmmmmmngzz _PB_list.PDB_ID 2FVF _PB_list.PDBX_exptl_method "SOLUTION NMR" _PB_list.PDBX_NMR_refine_method "Initial structure from torsion angle dynamics (in CYANA). Fatty acid and phosphopantetheine were added and docked using ambiguous distance restraints in XPLOR-NIH" _PB_list.Entry_ID 6790 loop_ _PB_char.Entity_assembly_ID _PB_char.Assembly_ID _PB_char.Entity_ID _PB_char.Comp_index_ID _PB_char.Comp_ID _PB_char.PDB_model_num _PB_char.PDB_strand_ID _PB_char.PDB_ins_code _PB_char.PDB_residue_no _PB_char.PDB_residue_name _PB_char.PB_code _PB_char.Align _PB_char.Entry_ID _PB_char.PB_list_ID 1 1 1 1 ALA 5 A . 1 ALA . 1 6790 5 1 1 1 2 LYS 5 A . 2 LYS . 1 6790 5 1 1 1 3 LYS 5 A . 3 LYS k 1 6790 5 1 1 1 4 GLU 5 A . 4 GLU l 1 6790 5 1 1 1 5 THR 5 A . 5 THR m 1 6790 5 1 1 1 6 ILE 5 A . 6 ILE m 1 6790 5 1 1 1 7 ASP 5 A . 7 ASP m 1 6790 5 1 1 1 8 LYS 5 A . 8 LYS m 1 6790 5 1 1 1 9 VAL 5 A . 9 VAL m 1 6790 5 1 1 1 10 SER 5 A . 10 SER m 1 6790 5 1 1 1 11 ASP 5 A . 11 ASP m 1 6790 5 1 1 1 12 ILE 5 A . 12 ILE m 1 6790 5 1 1 1 13 VAL 5 A . 13 VAL m 1 6790 5 1 1 1 14 LYS 5 A . 14 LYS m 1 6790 5 1 1 1 15 GLU 5 A . 15 GLU m 1 6790 5 1 1 1 16 LYS 5 A . 16 LYS n 1 6790 5 1 1 1 17 LEU 5 A . 17 LEU m 1 6790 5 1 1 1 18 ALA 5 A . 18 ALA n 1 6790 5 1 1 1 19 LEU 5 A . 19 LEU o 1 6790 5 1 1 1 20 GLY 5 A . 20 GLY l 1 6790 5 1 1 1 21 ALA 5 A . 21 ALA m 1 6790 5 1 1 1 22 ASP 5 A . 22 ASP p 1 6790 5 1 1 1 23 VAL 5 A . 23 VAL c 1 6790 5 1 1 1 24 VAL 5 A . 24 VAL c 1 6790 5 1 1 1 25 VAL 5 A . 25 VAL d 1 6790 5 1 1 1 26 THR 5 A . 26 THR f 1 6790 5 1 1 1 27 ALA 5 A . 27 ALA k 1 6790 5 1 1 1 28 ASP 5 A . 28 ASP l 1 6790 5 1 1 1 29 SER 5 A . 29 SER c 1 6790 5 1 1 1 30 GLU 5 A . 30 GLU f 1 6790 5 1 1 1 31 PHE 5 A . 31 PHE k 1 6790 5 1 1 1 32 SER 5 A . 32 SER l 1 6790 5 1 1 1 33 LYS 5 A . 33 LYS n 1 6790 5 1 1 1 34 LEU 5 A . 34 LEU o 1 6790 5 1 1 1 35 GLY 5 A . 35 GLY p 1 6790 5 1 1 1 36 ALA 5 A . 36 ALA a 1 6790 5 1 1 1 37 ASP 5 A . 37 ASP f 1 6790 5 1 1 1 38 SER 5 A . 38 SER k 1 6790 5 1 1 1 39 LEU 5 A . 39 LEU l 1 6790 5 1 1 1 40 ASP 5 A . 40 ASP m 1 6790 5 1 1 1 41 THR 5 A . 41 THR m 1 6790 5 1 1 1 42 VAL 5 A . 42 VAL m 1 6790 5 1 1 1 43 GLU 5 A . 43 GLU m 1 6790 5 1 1 1 44 ILE 5 A . 44 ILE m 1 6790 5 1 1 1 45 VAL 5 A . 45 VAL m 1 6790 5 1 1 1 46 MET 5 A . 46 MET m 1 6790 5 1 1 1 47 ASN 5 A . 47 ASN m 1 6790 5 1 1 1 48 LEU 5 A . 48 LEU m 1 6790 5 1 1 1 49 GLU 5 A . 49 GLU m 1 6790 5 1 1 1 50 GLU 5 A . 50 GLU m 1 6790 5 1 1 1 51 GLU 5 A . 51 GLU n 1 6790 5 1 1 1 52 PHE 5 A . 52 PHE o 1 6790 5 1 1 1 53 GLY 5 A . 53 GLY p 1 6790 5 1 1 1 54 ILE 5 A . 54 ILE a 1 6790 5 1 1 1 55 ASN 5 A . 55 ASN d 1 6790 5 1 1 1 56 VAL 5 A . 56 VAL d 1 6790 5 1 1 1 57 ASP 5 A . 57 ASP f 1 6790 5 1 1 1 58 GLU 5 A . 58 GLU k 1 6790 5 1 1 1 59 ASP 5 A . 59 ASP l 1 6790 5 1 1 1 60 LYS 5 A . 60 LYS m 1 6790 5 1 1 1 61 ALA 5 A . 61 ALA m 1 6790 5 1 1 1 62 GLN 5 A . 62 GLN m 1 6790 5 1 1 1 63 ASP 5 A . 63 ASP p 1 6790 5 1 1 1 64 ILE 5 A . 64 ILE c 1 6790 5 1 1 1 65 SER 5 A . 65 SER b 1 6790 5 1 1 1 66 THR 5 A . 66 THR f 1 6790 5 1 1 1 67 ILE 5 A . 67 ILE k 1 6790 5 1 1 1 68 GLN 5 A . 68 GLN l 1 6790 5 1 1 1 69 GLN 5 A . 69 GLN m 1 6790 5 1 1 1 70 ALA 5 A . 70 ALA m 1 6790 5 1 1 1 71 ALA 5 A . 71 ALA m 1 6790 5 1 1 1 72 ASP 5 A . 72 ASP m 1 6790 5 1 1 1 73 VAL 5 A . 73 VAL m 1 6790 5 1 1 1 74 ILE 5 A . 74 ILE m 1 6790 5 1 1 1 75 GLU 5 A . 75 GLU m 1 6790 5 1 1 1 76 GLY 5 A . 76 GLY m 1 6790 5 1 1 1 77 LEU 5 A . 77 LEU m 1 6790 5 1 1 1 78 LEU 5 A . 78 LEU m 1 6790 5 1 1 1 79 GLU 5 A . 79 GLU n 1 6790 5 1 1 1 80 LYS 5 A . 80 LYS g 1 6790 5 1 1 1 81 LYS 5 A . 81 LYS . 1 6790 5 1 1 1 82 ALA 5 A . 82 ALA . 1 6790 5 stop_ save_ save_PB_annotation_6 _PB_list.Sf_category PB_list _PB_list.ID 6 _PB_list.Query_ID db2fvf_1579#A _PB_list.Queried_date 2014-12-15 _PB_list.Input_file_name pdb2fvf.ent _PB_list.Output_file_name bmr6790_PB.str _PB_list.Electronic_address http://bmrbpub.protein.osaka-u.ac.jp/archive/pb/bmr6790_PB.str _PB_list.AA_seq_one_letter_code AKKETIDKVSDIVKEKLALGADVVVTADSEFSKLGADSLDTVEIVMNLEEEFGINVDEDKAQDISTIQQAADVIEGLLEKKA _PB_list.PB_seq_code zzklmmmmmmmmmmmnmnolmpccdfkbcfklnopafklmmmmmmmmmmmnopaddfklmmmpmbfmlmmmmmmmmmmnmzz _PB_list.PDB_ID 2FVF _PB_list.PDBX_exptl_method "SOLUTION NMR" _PB_list.PDBX_NMR_refine_method "Initial structure from torsion angle dynamics (in CYANA). Fatty acid and phosphopantetheine were added and docked using ambiguous distance restraints in XPLOR-NIH" _PB_list.Entry_ID 6790 loop_ _PB_char.Entity_assembly_ID _PB_char.Assembly_ID _PB_char.Entity_ID _PB_char.Comp_index_ID _PB_char.Comp_ID _PB_char.PDB_model_num _PB_char.PDB_strand_ID _PB_char.PDB_ins_code _PB_char.PDB_residue_no _PB_char.PDB_residue_name _PB_char.PB_code _PB_char.Align _PB_char.Entry_ID _PB_char.PB_list_ID 1 1 1 1 ALA 6 A . 1 ALA . 1 6790 6 1 1 1 2 LYS 6 A . 2 LYS . 1 6790 6 1 1 1 3 LYS 6 A . 3 LYS k 1 6790 6 1 1 1 4 GLU 6 A . 4 GLU l 1 6790 6 1 1 1 5 THR 6 A . 5 THR m 1 6790 6 1 1 1 6 ILE 6 A . 6 ILE m 1 6790 6 1 1 1 7 ASP 6 A . 7 ASP m 1 6790 6 1 1 1 8 LYS 6 A . 8 LYS m 1 6790 6 1 1 1 9 VAL 6 A . 9 VAL m 1 6790 6 1 1 1 10 SER 6 A . 10 SER m 1 6790 6 1 1 1 11 ASP 6 A . 11 ASP m 1 6790 6 1 1 1 12 ILE 6 A . 12 ILE m 1 6790 6 1 1 1 13 VAL 6 A . 13 VAL m 1 6790 6 1 1 1 14 LYS 6 A . 14 LYS m 1 6790 6 1 1 1 15 GLU 6 A . 15 GLU m 1 6790 6 1 1 1 16 LYS 6 A . 16 LYS n 1 6790 6 1 1 1 17 LEU 6 A . 17 LEU m 1 6790 6 1 1 1 18 ALA 6 A . 18 ALA n 1 6790 6 1 1 1 19 LEU 6 A . 19 LEU o 1 6790 6 1 1 1 20 GLY 6 A . 20 GLY l 1 6790 6 1 1 1 21 ALA 6 A . 21 ALA m 1 6790 6 1 1 1 22 ASP 6 A . 22 ASP p 1 6790 6 1 1 1 23 VAL 6 A . 23 VAL c 1 6790 6 1 1 1 24 VAL 6 A . 24 VAL c 1 6790 6 1 1 1 25 VAL 6 A . 25 VAL d 1 6790 6 1 1 1 26 THR 6 A . 26 THR f 1 6790 6 1 1 1 27 ALA 6 A . 27 ALA k 1 6790 6 1 1 1 28 ASP 6 A . 28 ASP b 1 6790 6 1 1 1 29 SER 6 A . 29 SER c 1 6790 6 1 1 1 30 GLU 6 A . 30 GLU f 1 6790 6 1 1 1 31 PHE 6 A . 31 PHE k 1 6790 6 1 1 1 32 SER 6 A . 32 SER l 1 6790 6 1 1 1 33 LYS 6 A . 33 LYS n 1 6790 6 1 1 1 34 LEU 6 A . 34 LEU o 1 6790 6 1 1 1 35 GLY 6 A . 35 GLY p 1 6790 6 1 1 1 36 ALA 6 A . 36 ALA a 1 6790 6 1 1 1 37 ASP 6 A . 37 ASP f 1 6790 6 1 1 1 38 SER 6 A . 38 SER k 1 6790 6 1 1 1 39 LEU 6 A . 39 LEU l 1 6790 6 1 1 1 40 ASP 6 A . 40 ASP m 1 6790 6 1 1 1 41 THR 6 A . 41 THR m 1 6790 6 1 1 1 42 VAL 6 A . 42 VAL m 1 6790 6 1 1 1 43 GLU 6 A . 43 GLU m 1 6790 6 1 1 1 44 ILE 6 A . 44 ILE m 1 6790 6 1 1 1 45 VAL 6 A . 45 VAL m 1 6790 6 1 1 1 46 MET 6 A . 46 MET m 1 6790 6 1 1 1 47 ASN 6 A . 47 ASN m 1 6790 6 1 1 1 48 LEU 6 A . 48 LEU m 1 6790 6 1 1 1 49 GLU 6 A . 49 GLU m 1 6790 6 1 1 1 50 GLU 6 A . 50 GLU m 1 6790 6 1 1 1 51 GLU 6 A . 51 GLU n 1 6790 6 1 1 1 52 PHE 6 A . 52 PHE o 1 6790 6 1 1 1 53 GLY 6 A . 53 GLY p 1 6790 6 1 1 1 54 ILE 6 A . 54 ILE a 1 6790 6 1 1 1 55 ASN 6 A . 55 ASN d 1 6790 6 1 1 1 56 VAL 6 A . 56 VAL d 1 6790 6 1 1 1 57 ASP 6 A . 57 ASP f 1 6790 6 1 1 1 58 GLU 6 A . 58 GLU k 1 6790 6 1 1 1 59 ASP 6 A . 59 ASP l 1 6790 6 1 1 1 60 LYS 6 A . 60 LYS m 1 6790 6 1 1 1 61 ALA 6 A . 61 ALA m 1 6790 6 1 1 1 62 GLN 6 A . 62 GLN m 1 6790 6 1 1 1 63 ASP 6 A . 63 ASP p 1 6790 6 1 1 1 64 ILE 6 A . 64 ILE m 1 6790 6 1 1 1 65 SER 6 A . 65 SER b 1 6790 6 1 1 1 66 THR 6 A . 66 THR f 1 6790 6 1 1 1 67 ILE 6 A . 67 ILE m 1 6790 6 1 1 1 68 GLN 6 A . 68 GLN l 1 6790 6 1 1 1 69 GLN 6 A . 69 GLN m 1 6790 6 1 1 1 70 ALA 6 A . 70 ALA m 1 6790 6 1 1 1 71 ALA 6 A . 71 ALA m 1 6790 6 1 1 1 72 ASP 6 A . 72 ASP m 1 6790 6 1 1 1 73 VAL 6 A . 73 VAL m 1 6790 6 1 1 1 74 ILE 6 A . 74 ILE m 1 6790 6 1 1 1 75 GLU 6 A . 75 GLU m 1 6790 6 1 1 1 76 GLY 6 A . 76 GLY m 1 6790 6 1 1 1 77 LEU 6 A . 77 LEU m 1 6790 6 1 1 1 78 LEU 6 A . 78 LEU m 1 6790 6 1 1 1 79 GLU 6 A . 79 GLU n 1 6790 6 1 1 1 80 LYS 6 A . 80 LYS m 1 6790 6 1 1 1 81 LYS 6 A . 81 LYS . 1 6790 6 1 1 1 82 ALA 6 A . 82 ALA . 1 6790 6 stop_ save_ save_PB_annotation_7 _PB_list.Sf_category PB_list _PB_list.ID 7 _PB_list.Query_ID db2fvf_1579#A _PB_list.Queried_date 2014-12-15 _PB_list.Input_file_name pdb2fvf.ent _PB_list.Output_file_name bmr6790_PB.str _PB_list.Electronic_address http://bmrbpub.protein.osaka-u.ac.jp/archive/pb/bmr6790_PB.str _PB_list.AA_seq_one_letter_code AKKETIDKVSDIVKEKLALGADVVVTADSEFSKLGADSLDTVEIVMNLEEEFGINVDEDKAQDISTIQQAADVIEGLLEKKA _PB_list.PB_seq_code zzklmmmmmmmmmmmnmnolmpccdfklcfklnopafklmmmmmmmmmmmnopaddfklmmmpmbfklmmmmmmmmmmmmzz _PB_list.PDB_ID 2FVF _PB_list.PDBX_exptl_method "SOLUTION NMR" _PB_list.PDBX_NMR_refine_method "Initial structure from torsion angle dynamics (in CYANA). Fatty acid and phosphopantetheine were added and docked using ambiguous distance restraints in XPLOR-NIH" _PB_list.Entry_ID 6790 loop_ _PB_char.Entity_assembly_ID _PB_char.Assembly_ID _PB_char.Entity_ID _PB_char.Comp_index_ID _PB_char.Comp_ID _PB_char.PDB_model_num _PB_char.PDB_strand_ID _PB_char.PDB_ins_code _PB_char.PDB_residue_no _PB_char.PDB_residue_name _PB_char.PB_code _PB_char.Align _PB_char.Entry_ID _PB_char.PB_list_ID 1 1 1 1 ALA 7 A . 1 ALA . 1 6790 7 1 1 1 2 LYS 7 A . 2 LYS . 1 6790 7 1 1 1 3 LYS 7 A . 3 LYS k 1 6790 7 1 1 1 4 GLU 7 A . 4 GLU l 1 6790 7 1 1 1 5 THR 7 A . 5 THR m 1 6790 7 1 1 1 6 ILE 7 A . 6 ILE m 1 6790 7 1 1 1 7 ASP 7 A . 7 ASP m 1 6790 7 1 1 1 8 LYS 7 A . 8 LYS m 1 6790 7 1 1 1 9 VAL 7 A . 9 VAL m 1 6790 7 1 1 1 10 SER 7 A . 10 SER m 1 6790 7 1 1 1 11 ASP 7 A . 11 ASP m 1 6790 7 1 1 1 12 ILE 7 A . 12 ILE m 1 6790 7 1 1 1 13 VAL 7 A . 13 VAL m 1 6790 7 1 1 1 14 LYS 7 A . 14 LYS m 1 6790 7 1 1 1 15 GLU 7 A . 15 GLU m 1 6790 7 1 1 1 16 LYS 7 A . 16 LYS n 1 6790 7 1 1 1 17 LEU 7 A . 17 LEU m 1 6790 7 1 1 1 18 ALA 7 A . 18 ALA n 1 6790 7 1 1 1 19 LEU 7 A . 19 LEU o 1 6790 7 1 1 1 20 GLY 7 A . 20 GLY l 1 6790 7 1 1 1 21 ALA 7 A . 21 ALA m 1 6790 7 1 1 1 22 ASP 7 A . 22 ASP p 1 6790 7 1 1 1 23 VAL 7 A . 23 VAL c 1 6790 7 1 1 1 24 VAL 7 A . 24 VAL c 1 6790 7 1 1 1 25 VAL 7 A . 25 VAL d 1 6790 7 1 1 1 26 THR 7 A . 26 THR f 1 6790 7 1 1 1 27 ALA 7 A . 27 ALA k 1 6790 7 1 1 1 28 ASP 7 A . 28 ASP l 1 6790 7 1 1 1 29 SER 7 A . 29 SER c 1 6790 7 1 1 1 30 GLU 7 A . 30 GLU f 1 6790 7 1 1 1 31 PHE 7 A . 31 PHE k 1 6790 7 1 1 1 32 SER 7 A . 32 SER l 1 6790 7 1 1 1 33 LYS 7 A . 33 LYS n 1 6790 7 1 1 1 34 LEU 7 A . 34 LEU o 1 6790 7 1 1 1 35 GLY 7 A . 35 GLY p 1 6790 7 1 1 1 36 ALA 7 A . 36 ALA a 1 6790 7 1 1 1 37 ASP 7 A . 37 ASP f 1 6790 7 1 1 1 38 SER 7 A . 38 SER k 1 6790 7 1 1 1 39 LEU 7 A . 39 LEU l 1 6790 7 1 1 1 40 ASP 7 A . 40 ASP m 1 6790 7 1 1 1 41 THR 7 A . 41 THR m 1 6790 7 1 1 1 42 VAL 7 A . 42 VAL m 1 6790 7 1 1 1 43 GLU 7 A . 43 GLU m 1 6790 7 1 1 1 44 ILE 7 A . 44 ILE m 1 6790 7 1 1 1 45 VAL 7 A . 45 VAL m 1 6790 7 1 1 1 46 MET 7 A . 46 MET m 1 6790 7 1 1 1 47 ASN 7 A . 47 ASN m 1 6790 7 1 1 1 48 LEU 7 A . 48 LEU m 1 6790 7 1 1 1 49 GLU 7 A . 49 GLU m 1 6790 7 1 1 1 50 GLU 7 A . 50 GLU m 1 6790 7 1 1 1 51 GLU 7 A . 51 GLU n 1 6790 7 1 1 1 52 PHE 7 A . 52 PHE o 1 6790 7 1 1 1 53 GLY 7 A . 53 GLY p 1 6790 7 1 1 1 54 ILE 7 A . 54 ILE a 1 6790 7 1 1 1 55 ASN 7 A . 55 ASN d 1 6790 7 1 1 1 56 VAL 7 A . 56 VAL d 1 6790 7 1 1 1 57 ASP 7 A . 57 ASP f 1 6790 7 1 1 1 58 GLU 7 A . 58 GLU k 1 6790 7 1 1 1 59 ASP 7 A . 59 ASP l 1 6790 7 1 1 1 60 LYS 7 A . 60 LYS m 1 6790 7 1 1 1 61 ALA 7 A . 61 ALA m 1 6790 7 1 1 1 62 GLN 7 A . 62 GLN m 1 6790 7 1 1 1 63 ASP 7 A . 63 ASP p 1 6790 7 1 1 1 64 ILE 7 A . 64 ILE m 1 6790 7 1 1 1 65 SER 7 A . 65 SER b 1 6790 7 1 1 1 66 THR 7 A . 66 THR f 1 6790 7 1 1 1 67 ILE 7 A . 67 ILE k 1 6790 7 1 1 1 68 GLN 7 A . 68 GLN l 1 6790 7 1 1 1 69 GLN 7 A . 69 GLN m 1 6790 7 1 1 1 70 ALA 7 A . 70 ALA m 1 6790 7 1 1 1 71 ALA 7 A . 71 ALA m 1 6790 7 1 1 1 72 ASP 7 A . 72 ASP m 1 6790 7 1 1 1 73 VAL 7 A . 73 VAL m 1 6790 7 1 1 1 74 ILE 7 A . 74 ILE m 1 6790 7 1 1 1 75 GLU 7 A . 75 GLU m 1 6790 7 1 1 1 76 GLY 7 A . 76 GLY m 1 6790 7 1 1 1 77 LEU 7 A . 77 LEU m 1 6790 7 1 1 1 78 LEU 7 A . 78 LEU m 1 6790 7 1 1 1 79 GLU 7 A . 79 GLU m 1 6790 7 1 1 1 80 LYS 7 A . 80 LYS m 1 6790 7 1 1 1 81 LYS 7 A . 81 LYS . 1 6790 7 1 1 1 82 ALA 7 A . 82 ALA . 1 6790 7 stop_ save_ save_PB_annotation_8 _PB_list.Sf_category PB_list _PB_list.ID 8 _PB_list.Query_ID db2fvf_1579#A _PB_list.Queried_date 2014-12-15 _PB_list.Input_file_name pdb2fvf.ent _PB_list.Output_file_name bmr6790_PB.str _PB_list.Electronic_address http://bmrbpub.protein.osaka-u.ac.jp/archive/pb/bmr6790_PB.str _PB_list.AA_seq_one_letter_code AKKETIDKVSDIVKEKLALGADVVVTADSEFSKLGADSLDTVEIVMNLEEEFGINVDEDKAQDISTIQQAADVIEGLLEKKA _PB_list.PB_seq_code zzklmmmmmmmmmmmnmnolmpccdfkbcfklnopafklmmmmmmmmmmmnopacdfklmmmpmbfmlmmmmmmmmmmmmzz _PB_list.PDB_ID 2FVF _PB_list.PDBX_exptl_method "SOLUTION NMR" _PB_list.PDBX_NMR_refine_method "Initial structure from torsion angle dynamics (in CYANA). Fatty acid and phosphopantetheine were added and docked using ambiguous distance restraints in XPLOR-NIH" _PB_list.Entry_ID 6790 loop_ _PB_char.Entity_assembly_ID _PB_char.Assembly_ID _PB_char.Entity_ID _PB_char.Comp_index_ID _PB_char.Comp_ID _PB_char.PDB_model_num _PB_char.PDB_strand_ID _PB_char.PDB_ins_code _PB_char.PDB_residue_no _PB_char.PDB_residue_name _PB_char.PB_code _PB_char.Align _PB_char.Entry_ID _PB_char.PB_list_ID 1 1 1 1 ALA 8 A . 1 ALA . 1 6790 8 1 1 1 2 LYS 8 A . 2 LYS . 1 6790 8 1 1 1 3 LYS 8 A . 3 LYS k 1 6790 8 1 1 1 4 GLU 8 A . 4 GLU l 1 6790 8 1 1 1 5 THR 8 A . 5 THR m 1 6790 8 1 1 1 6 ILE 8 A . 6 ILE m 1 6790 8 1 1 1 7 ASP 8 A . 7 ASP m 1 6790 8 1 1 1 8 LYS 8 A . 8 LYS m 1 6790 8 1 1 1 9 VAL 8 A . 9 VAL m 1 6790 8 1 1 1 10 SER 8 A . 10 SER m 1 6790 8 1 1 1 11 ASP 8 A . 11 ASP m 1 6790 8 1 1 1 12 ILE 8 A . 12 ILE m 1 6790 8 1 1 1 13 VAL 8 A . 13 VAL m 1 6790 8 1 1 1 14 LYS 8 A . 14 LYS m 1 6790 8 1 1 1 15 GLU 8 A . 15 GLU m 1 6790 8 1 1 1 16 LYS 8 A . 16 LYS n 1 6790 8 1 1 1 17 LEU 8 A . 17 LEU m 1 6790 8 1 1 1 18 ALA 8 A . 18 ALA n 1 6790 8 1 1 1 19 LEU 8 A . 19 LEU o 1 6790 8 1 1 1 20 GLY 8 A . 20 GLY l 1 6790 8 1 1 1 21 ALA 8 A . 21 ALA m 1 6790 8 1 1 1 22 ASP 8 A . 22 ASP p 1 6790 8 1 1 1 23 VAL 8 A . 23 VAL c 1 6790 8 1 1 1 24 VAL 8 A . 24 VAL c 1 6790 8 1 1 1 25 VAL 8 A . 25 VAL d 1 6790 8 1 1 1 26 THR 8 A . 26 THR f 1 6790 8 1 1 1 27 ALA 8 A . 27 ALA k 1 6790 8 1 1 1 28 ASP 8 A . 28 ASP b 1 6790 8 1 1 1 29 SER 8 A . 29 SER c 1 6790 8 1 1 1 30 GLU 8 A . 30 GLU f 1 6790 8 1 1 1 31 PHE 8 A . 31 PHE k 1 6790 8 1 1 1 32 SER 8 A . 32 SER l 1 6790 8 1 1 1 33 LYS 8 A . 33 LYS n 1 6790 8 1 1 1 34 LEU 8 A . 34 LEU o 1 6790 8 1 1 1 35 GLY 8 A . 35 GLY p 1 6790 8 1 1 1 36 ALA 8 A . 36 ALA a 1 6790 8 1 1 1 37 ASP 8 A . 37 ASP f 1 6790 8 1 1 1 38 SER 8 A . 38 SER k 1 6790 8 1 1 1 39 LEU 8 A . 39 LEU l 1 6790 8 1 1 1 40 ASP 8 A . 40 ASP m 1 6790 8 1 1 1 41 THR 8 A . 41 THR m 1 6790 8 1 1 1 42 VAL 8 A . 42 VAL m 1 6790 8 1 1 1 43 GLU 8 A . 43 GLU m 1 6790 8 1 1 1 44 ILE 8 A . 44 ILE m 1 6790 8 1 1 1 45 VAL 8 A . 45 VAL m 1 6790 8 1 1 1 46 MET 8 A . 46 MET m 1 6790 8 1 1 1 47 ASN 8 A . 47 ASN m 1 6790 8 1 1 1 48 LEU 8 A . 48 LEU m 1 6790 8 1 1 1 49 GLU 8 A . 49 GLU m 1 6790 8 1 1 1 50 GLU 8 A . 50 GLU m 1 6790 8 1 1 1 51 GLU 8 A . 51 GLU n 1 6790 8 1 1 1 52 PHE 8 A . 52 PHE o 1 6790 8 1 1 1 53 GLY 8 A . 53 GLY p 1 6790 8 1 1 1 54 ILE 8 A . 54 ILE a 1 6790 8 1 1 1 55 ASN 8 A . 55 ASN c 1 6790 8 1 1 1 56 VAL 8 A . 56 VAL d 1 6790 8 1 1 1 57 ASP 8 A . 57 ASP f 1 6790 8 1 1 1 58 GLU 8 A . 58 GLU k 1 6790 8 1 1 1 59 ASP 8 A . 59 ASP l 1 6790 8 1 1 1 60 LYS 8 A . 60 LYS m 1 6790 8 1 1 1 61 ALA 8 A . 61 ALA m 1 6790 8 1 1 1 62 GLN 8 A . 62 GLN m 1 6790 8 1 1 1 63 ASP 8 A . 63 ASP p 1 6790 8 1 1 1 64 ILE 8 A . 64 ILE m 1 6790 8 1 1 1 65 SER 8 A . 65 SER b 1 6790 8 1 1 1 66 THR 8 A . 66 THR f 1 6790 8 1 1 1 67 ILE 8 A . 67 ILE m 1 6790 8 1 1 1 68 GLN 8 A . 68 GLN l 1 6790 8 1 1 1 69 GLN 8 A . 69 GLN m 1 6790 8 1 1 1 70 ALA 8 A . 70 ALA m 1 6790 8 1 1 1 71 ALA 8 A . 71 ALA m 1 6790 8 1 1 1 72 ASP 8 A . 72 ASP m 1 6790 8 1 1 1 73 VAL 8 A . 73 VAL m 1 6790 8 1 1 1 74 ILE 8 A . 74 ILE m 1 6790 8 1 1 1 75 GLU 8 A . 75 GLU m 1 6790 8 1 1 1 76 GLY 8 A . 76 GLY m 1 6790 8 1 1 1 77 LEU 8 A . 77 LEU m 1 6790 8 1 1 1 78 LEU 8 A . 78 LEU m 1 6790 8 1 1 1 79 GLU 8 A . 79 GLU m 1 6790 8 1 1 1 80 LYS 8 A . 80 LYS m 1 6790 8 1 1 1 81 LYS 8 A . 81 LYS . 1 6790 8 1 1 1 82 ALA 8 A . 82 ALA . 1 6790 8 stop_ save_ save_PB_annotation_9 _PB_list.Sf_category PB_list _PB_list.ID 9 _PB_list.Query_ID db2fvf_1579#A _PB_list.Queried_date 2014-12-15 _PB_list.Input_file_name pdb2fvf.ent _PB_list.Output_file_name bmr6790_PB.str _PB_list.Electronic_address http://bmrbpub.protein.osaka-u.ac.jp/archive/pb/bmr6790_PB.str _PB_list.AA_seq_one_letter_code AKKETIDKVSDIVKEKLALGADVVVTADSEFSKLGADSLDTVEIVMNLEEEFGINVDEDKAQDISTIQQAADVIEGLLEKKA _PB_list.PB_seq_code zzklmmmmmmmmmmmnmnolmpccdfkbcfklnopafklmmmmmmmmmmmnopacdfklmmmpmbfmlmmmmmmmmmmmpzz _PB_list.PDB_ID 2FVF _PB_list.PDBX_exptl_method "SOLUTION NMR" _PB_list.PDBX_NMR_refine_method "Initial structure from torsion angle dynamics (in CYANA). Fatty acid and phosphopantetheine were added and docked using ambiguous distance restraints in XPLOR-NIH" _PB_list.Entry_ID 6790 loop_ _PB_char.Entity_assembly_ID _PB_char.Assembly_ID _PB_char.Entity_ID _PB_char.Comp_index_ID _PB_char.Comp_ID _PB_char.PDB_model_num _PB_char.PDB_strand_ID _PB_char.PDB_ins_code _PB_char.PDB_residue_no _PB_char.PDB_residue_name _PB_char.PB_code _PB_char.Align _PB_char.Entry_ID _PB_char.PB_list_ID 1 1 1 1 ALA 9 A . 1 ALA . 1 6790 9 1 1 1 2 LYS 9 A . 2 LYS . 1 6790 9 1 1 1 3 LYS 9 A . 3 LYS k 1 6790 9 1 1 1 4 GLU 9 A . 4 GLU l 1 6790 9 1 1 1 5 THR 9 A . 5 THR m 1 6790 9 1 1 1 6 ILE 9 A . 6 ILE m 1 6790 9 1 1 1 7 ASP 9 A . 7 ASP m 1 6790 9 1 1 1 8 LYS 9 A . 8 LYS m 1 6790 9 1 1 1 9 VAL 9 A . 9 VAL m 1 6790 9 1 1 1 10 SER 9 A . 10 SER m 1 6790 9 1 1 1 11 ASP 9 A . 11 ASP m 1 6790 9 1 1 1 12 ILE 9 A . 12 ILE m 1 6790 9 1 1 1 13 VAL 9 A . 13 VAL m 1 6790 9 1 1 1 14 LYS 9 A . 14 LYS m 1 6790 9 1 1 1 15 GLU 9 A . 15 GLU m 1 6790 9 1 1 1 16 LYS 9 A . 16 LYS n 1 6790 9 1 1 1 17 LEU 9 A . 17 LEU m 1 6790 9 1 1 1 18 ALA 9 A . 18 ALA n 1 6790 9 1 1 1 19 LEU 9 A . 19 LEU o 1 6790 9 1 1 1 20 GLY 9 A . 20 GLY l 1 6790 9 1 1 1 21 ALA 9 A . 21 ALA m 1 6790 9 1 1 1 22 ASP 9 A . 22 ASP p 1 6790 9 1 1 1 23 VAL 9 A . 23 VAL c 1 6790 9 1 1 1 24 VAL 9 A . 24 VAL c 1 6790 9 1 1 1 25 VAL 9 A . 25 VAL d 1 6790 9 1 1 1 26 THR 9 A . 26 THR f 1 6790 9 1 1 1 27 ALA 9 A . 27 ALA k 1 6790 9 1 1 1 28 ASP 9 A . 28 ASP b 1 6790 9 1 1 1 29 SER 9 A . 29 SER c 1 6790 9 1 1 1 30 GLU 9 A . 30 GLU f 1 6790 9 1 1 1 31 PHE 9 A . 31 PHE k 1 6790 9 1 1 1 32 SER 9 A . 32 SER l 1 6790 9 1 1 1 33 LYS 9 A . 33 LYS n 1 6790 9 1 1 1 34 LEU 9 A . 34 LEU o 1 6790 9 1 1 1 35 GLY 9 A . 35 GLY p 1 6790 9 1 1 1 36 ALA 9 A . 36 ALA a 1 6790 9 1 1 1 37 ASP 9 A . 37 ASP f 1 6790 9 1 1 1 38 SER 9 A . 38 SER k 1 6790 9 1 1 1 39 LEU 9 A . 39 LEU l 1 6790 9 1 1 1 40 ASP 9 A . 40 ASP m 1 6790 9 1 1 1 41 THR 9 A . 41 THR m 1 6790 9 1 1 1 42 VAL 9 A . 42 VAL m 1 6790 9 1 1 1 43 GLU 9 A . 43 GLU m 1 6790 9 1 1 1 44 ILE 9 A . 44 ILE m 1 6790 9 1 1 1 45 VAL 9 A . 45 VAL m 1 6790 9 1 1 1 46 MET 9 A . 46 MET m 1 6790 9 1 1 1 47 ASN 9 A . 47 ASN m 1 6790 9 1 1 1 48 LEU 9 A . 48 LEU m 1 6790 9 1 1 1 49 GLU 9 A . 49 GLU m 1 6790 9 1 1 1 50 GLU 9 A . 50 GLU m 1 6790 9 1 1 1 51 GLU 9 A . 51 GLU n 1 6790 9 1 1 1 52 PHE 9 A . 52 PHE o 1 6790 9 1 1 1 53 GLY 9 A . 53 GLY p 1 6790 9 1 1 1 54 ILE 9 A . 54 ILE a 1 6790 9 1 1 1 55 ASN 9 A . 55 ASN c 1 6790 9 1 1 1 56 VAL 9 A . 56 VAL d 1 6790 9 1 1 1 57 ASP 9 A . 57 ASP f 1 6790 9 1 1 1 58 GLU 9 A . 58 GLU k 1 6790 9 1 1 1 59 ASP 9 A . 59 ASP l 1 6790 9 1 1 1 60 LYS 9 A . 60 LYS m 1 6790 9 1 1 1 61 ALA 9 A . 61 ALA m 1 6790 9 1 1 1 62 GLN 9 A . 62 GLN m 1 6790 9 1 1 1 63 ASP 9 A . 63 ASP p 1 6790 9 1 1 1 64 ILE 9 A . 64 ILE m 1 6790 9 1 1 1 65 SER 9 A . 65 SER b 1 6790 9 1 1 1 66 THR 9 A . 66 THR f 1 6790 9 1 1 1 67 ILE 9 A . 67 ILE m 1 6790 9 1 1 1 68 GLN 9 A . 68 GLN l 1 6790 9 1 1 1 69 GLN 9 A . 69 GLN m 1 6790 9 1 1 1 70 ALA 9 A . 70 ALA m 1 6790 9 1 1 1 71 ALA 9 A . 71 ALA m 1 6790 9 1 1 1 72 ASP 9 A . 72 ASP m 1 6790 9 1 1 1 73 VAL 9 A . 73 VAL m 1 6790 9 1 1 1 74 ILE 9 A . 74 ILE m 1 6790 9 1 1 1 75 GLU 9 A . 75 GLU m 1 6790 9 1 1 1 76 GLY 9 A . 76 GLY m 1 6790 9 1 1 1 77 LEU 9 A . 77 LEU m 1 6790 9 1 1 1 78 LEU 9 A . 78 LEU m 1 6790 9 1 1 1 79 GLU 9 A . 79 GLU m 1 6790 9 1 1 1 80 LYS 9 A . 80 LYS p 1 6790 9 1 1 1 81 LYS 9 A . 81 LYS . 1 6790 9 1 1 1 82 ALA 9 A . 82 ALA . 1 6790 9 stop_ save_ save_PB_annotation_10 _PB_list.Sf_category PB_list _PB_list.ID 10 _PB_list.Query_ID db2fvf_1579#A _PB_list.Queried_date 2014-12-15 _PB_list.Input_file_name pdb2fvf.ent _PB_list.Output_file_name bmr6790_PB.str _PB_list.Electronic_address http://bmrbpub.protein.osaka-u.ac.jp/archive/pb/bmr6790_PB.str _PB_list.AA_seq_one_letter_code AKKETIDKVSDIVKEKLALGADVVVTADSEFSKLGADSLDTVEIVMNLEEEFGINVDEDKAQDISTIQQAADVIEGLLEKKA _PB_list.PB_seq_code zzklmmmmmmmmmmmnmnolmpccdfkbcfklnopafklmmmmmmmmmmmnopaddfklmmmpmblmlmmmmmmmmmmnozz _PB_list.PDB_ID 2FVF _PB_list.PDBX_exptl_method "SOLUTION NMR" _PB_list.PDBX_NMR_refine_method "Initial structure from torsion angle dynamics (in CYANA). Fatty acid and phosphopantetheine were added and docked using ambiguous distance restraints in XPLOR-NIH" _PB_list.Entry_ID 6790 loop_ _PB_char.Entity_assembly_ID _PB_char.Assembly_ID _PB_char.Entity_ID _PB_char.Comp_index_ID _PB_char.Comp_ID _PB_char.PDB_model_num _PB_char.PDB_strand_ID _PB_char.PDB_ins_code _PB_char.PDB_residue_no _PB_char.PDB_residue_name _PB_char.PB_code _PB_char.Align _PB_char.Entry_ID _PB_char.PB_list_ID 1 1 1 1 ALA 10 A . 1 ALA . 1 6790 10 1 1 1 2 LYS 10 A . 2 LYS . 1 6790 10 1 1 1 3 LYS 10 A . 3 LYS k 1 6790 10 1 1 1 4 GLU 10 A . 4 GLU l 1 6790 10 1 1 1 5 THR 10 A . 5 THR m 1 6790 10 1 1 1 6 ILE 10 A . 6 ILE m 1 6790 10 1 1 1 7 ASP 10 A . 7 ASP m 1 6790 10 1 1 1 8 LYS 10 A . 8 LYS m 1 6790 10 1 1 1 9 VAL 10 A . 9 VAL m 1 6790 10 1 1 1 10 SER 10 A . 10 SER m 1 6790 10 1 1 1 11 ASP 10 A . 11 ASP m 1 6790 10 1 1 1 12 ILE 10 A . 12 ILE m 1 6790 10 1 1 1 13 VAL 10 A . 13 VAL m 1 6790 10 1 1 1 14 LYS 10 A . 14 LYS m 1 6790 10 1 1 1 15 GLU 10 A . 15 GLU m 1 6790 10 1 1 1 16 LYS 10 A . 16 LYS n 1 6790 10 1 1 1 17 LEU 10 A . 17 LEU m 1 6790 10 1 1 1 18 ALA 10 A . 18 ALA n 1 6790 10 1 1 1 19 LEU 10 A . 19 LEU o 1 6790 10 1 1 1 20 GLY 10 A . 20 GLY l 1 6790 10 1 1 1 21 ALA 10 A . 21 ALA m 1 6790 10 1 1 1 22 ASP 10 A . 22 ASP p 1 6790 10 1 1 1 23 VAL 10 A . 23 VAL c 1 6790 10 1 1 1 24 VAL 10 A . 24 VAL c 1 6790 10 1 1 1 25 VAL 10 A . 25 VAL d 1 6790 10 1 1 1 26 THR 10 A . 26 THR f 1 6790 10 1 1 1 27 ALA 10 A . 27 ALA k 1 6790 10 1 1 1 28 ASP 10 A . 28 ASP b 1 6790 10 1 1 1 29 SER 10 A . 29 SER c 1 6790 10 1 1 1 30 GLU 10 A . 30 GLU f 1 6790 10 1 1 1 31 PHE 10 A . 31 PHE k 1 6790 10 1 1 1 32 SER 10 A . 32 SER l 1 6790 10 1 1 1 33 LYS 10 A . 33 LYS n 1 6790 10 1 1 1 34 LEU 10 A . 34 LEU o 1 6790 10 1 1 1 35 GLY 10 A . 35 GLY p 1 6790 10 1 1 1 36 ALA 10 A . 36 ALA a 1 6790 10 1 1 1 37 ASP 10 A . 37 ASP f 1 6790 10 1 1 1 38 SER 10 A . 38 SER k 1 6790 10 1 1 1 39 LEU 10 A . 39 LEU l 1 6790 10 1 1 1 40 ASP 10 A . 40 ASP m 1 6790 10 1 1 1 41 THR 10 A . 41 THR m 1 6790 10 1 1 1 42 VAL 10 A . 42 VAL m 1 6790 10 1 1 1 43 GLU 10 A . 43 GLU m 1 6790 10 1 1 1 44 ILE 10 A . 44 ILE m 1 6790 10 1 1 1 45 VAL 10 A . 45 VAL m 1 6790 10 1 1 1 46 MET 10 A . 46 MET m 1 6790 10 1 1 1 47 ASN 10 A . 47 ASN m 1 6790 10 1 1 1 48 LEU 10 A . 48 LEU m 1 6790 10 1 1 1 49 GLU 10 A . 49 GLU m 1 6790 10 1 1 1 50 GLU 10 A . 50 GLU m 1 6790 10 1 1 1 51 GLU 10 A . 51 GLU n 1 6790 10 1 1 1 52 PHE 10 A . 52 PHE o 1 6790 10 1 1 1 53 GLY 10 A . 53 GLY p 1 6790 10 1 1 1 54 ILE 10 A . 54 ILE a 1 6790 10 1 1 1 55 ASN 10 A . 55 ASN d 1 6790 10 1 1 1 56 VAL 10 A . 56 VAL d 1 6790 10 1 1 1 57 ASP 10 A . 57 ASP f 1 6790 10 1 1 1 58 GLU 10 A . 58 GLU k 1 6790 10 1 1 1 59 ASP 10 A . 59 ASP l 1 6790 10 1 1 1 60 LYS 10 A . 60 LYS m 1 6790 10 1 1 1 61 ALA 10 A . 61 ALA m 1 6790 10 1 1 1 62 GLN 10 A . 62 GLN m 1 6790 10 1 1 1 63 ASP 10 A . 63 ASP p 1 6790 10 1 1 1 64 ILE 10 A . 64 ILE m 1 6790 10 1 1 1 65 SER 10 A . 65 SER b 1 6790 10 1 1 1 66 THR 10 A . 66 THR l 1 6790 10 1 1 1 67 ILE 10 A . 67 ILE m 1 6790 10 1 1 1 68 GLN 10 A . 68 GLN l 1 6790 10 1 1 1 69 GLN 10 A . 69 GLN m 1 6790 10 1 1 1 70 ALA 10 A . 70 ALA m 1 6790 10 1 1 1 71 ALA 10 A . 71 ALA m 1 6790 10 1 1 1 72 ASP 10 A . 72 ASP m 1 6790 10 1 1 1 73 VAL 10 A . 73 VAL m 1 6790 10 1 1 1 74 ILE 10 A . 74 ILE m 1 6790 10 1 1 1 75 GLU 10 A . 75 GLU m 1 6790 10 1 1 1 76 GLY 10 A . 76 GLY m 1 6790 10 1 1 1 77 LEU 10 A . 77 LEU m 1 6790 10 1 1 1 78 LEU 10 A . 78 LEU m 1 6790 10 1 1 1 79 GLU 10 A . 79 GLU n 1 6790 10 1 1 1 80 LYS 10 A . 80 LYS o 1 6790 10 1 1 1 81 LYS 10 A . 81 LYS . 1 6790 10 1 1 1 82 ALA 10 A . 82 ALA . 1 6790 10 stop_ save_ save_PB_annotation_11 _PB_list.Sf_category PB_list _PB_list.ID 11 _PB_list.Query_ID db2fvf_1579#A _PB_list.Queried_date 2014-12-15 _PB_list.Input_file_name pdb2fvf.ent _PB_list.Output_file_name bmr6790_PB.str _PB_list.Electronic_address http://bmrbpub.protein.osaka-u.ac.jp/archive/pb/bmr6790_PB.str _PB_list.AA_seq_one_letter_code AKKETIDKVSDIVKEKLALGADVVVTADSEFSKLGADSLDTVEIVMNLEEEFGINVDEDKAQDISTIQQAADVIEGLLEKKA _PB_list.PB_seq_code zzklmmmmmmmmmmmnonolmpccdfklcfklnopafklmmmmmmmmmmmnopaddfklmmmpmbfmlmmmmmmmmmmmgzz _PB_list.PDB_ID 2FVF _PB_list.PDBX_exptl_method "SOLUTION NMR" _PB_list.PDBX_NMR_refine_method "Initial structure from torsion angle dynamics (in CYANA). Fatty acid and phosphopantetheine were added and docked using ambiguous distance restraints in XPLOR-NIH" _PB_list.Entry_ID 6790 loop_ _PB_char.Entity_assembly_ID _PB_char.Assembly_ID _PB_char.Entity_ID _PB_char.Comp_index_ID _PB_char.Comp_ID _PB_char.PDB_model_num _PB_char.PDB_strand_ID _PB_char.PDB_ins_code _PB_char.PDB_residue_no _PB_char.PDB_residue_name _PB_char.PB_code _PB_char.Align _PB_char.Entry_ID _PB_char.PB_list_ID 1 1 1 1 ALA 11 A . 1 ALA . 1 6790 11 1 1 1 2 LYS 11 A . 2 LYS . 1 6790 11 1 1 1 3 LYS 11 A . 3 LYS k 1 6790 11 1 1 1 4 GLU 11 A . 4 GLU l 1 6790 11 1 1 1 5 THR 11 A . 5 THR m 1 6790 11 1 1 1 6 ILE 11 A . 6 ILE m 1 6790 11 1 1 1 7 ASP 11 A . 7 ASP m 1 6790 11 1 1 1 8 LYS 11 A . 8 LYS m 1 6790 11 1 1 1 9 VAL 11 A . 9 VAL m 1 6790 11 1 1 1 10 SER 11 A . 10 SER m 1 6790 11 1 1 1 11 ASP 11 A . 11 ASP m 1 6790 11 1 1 1 12 ILE 11 A . 12 ILE m 1 6790 11 1 1 1 13 VAL 11 A . 13 VAL m 1 6790 11 1 1 1 14 LYS 11 A . 14 LYS m 1 6790 11 1 1 1 15 GLU 11 A . 15 GLU m 1 6790 11 1 1 1 16 LYS 11 A . 16 LYS n 1 6790 11 1 1 1 17 LEU 11 A . 17 LEU o 1 6790 11 1 1 1 18 ALA 11 A . 18 ALA n 1 6790 11 1 1 1 19 LEU 11 A . 19 LEU o 1 6790 11 1 1 1 20 GLY 11 A . 20 GLY l 1 6790 11 1 1 1 21 ALA 11 A . 21 ALA m 1 6790 11 1 1 1 22 ASP 11 A . 22 ASP p 1 6790 11 1 1 1 23 VAL 11 A . 23 VAL c 1 6790 11 1 1 1 24 VAL 11 A . 24 VAL c 1 6790 11 1 1 1 25 VAL 11 A . 25 VAL d 1 6790 11 1 1 1 26 THR 11 A . 26 THR f 1 6790 11 1 1 1 27 ALA 11 A . 27 ALA k 1 6790 11 1 1 1 28 ASP 11 A . 28 ASP l 1 6790 11 1 1 1 29 SER 11 A . 29 SER c 1 6790 11 1 1 1 30 GLU 11 A . 30 GLU f 1 6790 11 1 1 1 31 PHE 11 A . 31 PHE k 1 6790 11 1 1 1 32 SER 11 A . 32 SER l 1 6790 11 1 1 1 33 LYS 11 A . 33 LYS n 1 6790 11 1 1 1 34 LEU 11 A . 34 LEU o 1 6790 11 1 1 1 35 GLY 11 A . 35 GLY p 1 6790 11 1 1 1 36 ALA 11 A . 36 ALA a 1 6790 11 1 1 1 37 ASP 11 A . 37 ASP f 1 6790 11 1 1 1 38 SER 11 A . 38 SER k 1 6790 11 1 1 1 39 LEU 11 A . 39 LEU l 1 6790 11 1 1 1 40 ASP 11 A . 40 ASP m 1 6790 11 1 1 1 41 THR 11 A . 41 THR m 1 6790 11 1 1 1 42 VAL 11 A . 42 VAL m 1 6790 11 1 1 1 43 GLU 11 A . 43 GLU m 1 6790 11 1 1 1 44 ILE 11 A . 44 ILE m 1 6790 11 1 1 1 45 VAL 11 A . 45 VAL m 1 6790 11 1 1 1 46 MET 11 A . 46 MET m 1 6790 11 1 1 1 47 ASN 11 A . 47 ASN m 1 6790 11 1 1 1 48 LEU 11 A . 48 LEU m 1 6790 11 1 1 1 49 GLU 11 A . 49 GLU m 1 6790 11 1 1 1 50 GLU 11 A . 50 GLU m 1 6790 11 1 1 1 51 GLU 11 A . 51 GLU n 1 6790 11 1 1 1 52 PHE 11 A . 52 PHE o 1 6790 11 1 1 1 53 GLY 11 A . 53 GLY p 1 6790 11 1 1 1 54 ILE 11 A . 54 ILE a 1 6790 11 1 1 1 55 ASN 11 A . 55 ASN d 1 6790 11 1 1 1 56 VAL 11 A . 56 VAL d 1 6790 11 1 1 1 57 ASP 11 A . 57 ASP f 1 6790 11 1 1 1 58 GLU 11 A . 58 GLU k 1 6790 11 1 1 1 59 ASP 11 A . 59 ASP l 1 6790 11 1 1 1 60 LYS 11 A . 60 LYS m 1 6790 11 1 1 1 61 ALA 11 A . 61 ALA m 1 6790 11 1 1 1 62 GLN 11 A . 62 GLN m 1 6790 11 1 1 1 63 ASP 11 A . 63 ASP p 1 6790 11 1 1 1 64 ILE 11 A . 64 ILE m 1 6790 11 1 1 1 65 SER 11 A . 65 SER b 1 6790 11 1 1 1 66 THR 11 A . 66 THR f 1 6790 11 1 1 1 67 ILE 11 A . 67 ILE m 1 6790 11 1 1 1 68 GLN 11 A . 68 GLN l 1 6790 11 1 1 1 69 GLN 11 A . 69 GLN m 1 6790 11 1 1 1 70 ALA 11 A . 70 ALA m 1 6790 11 1 1 1 71 ALA 11 A . 71 ALA m 1 6790 11 1 1 1 72 ASP 11 A . 72 ASP m 1 6790 11 1 1 1 73 VAL 11 A . 73 VAL m 1 6790 11 1 1 1 74 ILE 11 A . 74 ILE m 1 6790 11 1 1 1 75 GLU 11 A . 75 GLU m 1 6790 11 1 1 1 76 GLY 11 A . 76 GLY m 1 6790 11 1 1 1 77 LEU 11 A . 77 LEU m 1 6790 11 1 1 1 78 LEU 11 A . 78 LEU m 1 6790 11 1 1 1 79 GLU 11 A . 79 GLU m 1 6790 11 1 1 1 80 LYS 11 A . 80 LYS g 1 6790 11 1 1 1 81 LYS 11 A . 81 LYS . 1 6790 11 1 1 1 82 ALA 11 A . 82 ALA . 1 6790 11 stop_ save_ save_PB_annotation_12 _PB_list.Sf_category PB_list _PB_list.ID 12 _PB_list.Query_ID db2fvf_1579#A _PB_list.Queried_date 2014-12-15 _PB_list.Input_file_name pdb2fvf.ent _PB_list.Output_file_name bmr6790_PB.str _PB_list.Electronic_address http://bmrbpub.protein.osaka-u.ac.jp/archive/pb/bmr6790_PB.str _PB_list.AA_seq_one_letter_code AKKETIDKVSDIVKEKLALGADVVVTADSEFSKLGADSLDTVEIVMNLEEEFGINVDEDKAQDISTIQQAADVIEGLLEKKA _PB_list.PB_seq_code zzklmmmmmmmmmmmnmnolmpccdfkbcfklnopafklmmmmmmmmmmmnopacdfklmmmpmbfmlmmmmmmmmmmnozz _PB_list.PDB_ID 2FVF _PB_list.PDBX_exptl_method "SOLUTION NMR" _PB_list.PDBX_NMR_refine_method "Initial structure from torsion angle dynamics (in CYANA). Fatty acid and phosphopantetheine were added and docked using ambiguous distance restraints in XPLOR-NIH" _PB_list.Entry_ID 6790 loop_ _PB_char.Entity_assembly_ID _PB_char.Assembly_ID _PB_char.Entity_ID _PB_char.Comp_index_ID _PB_char.Comp_ID _PB_char.PDB_model_num _PB_char.PDB_strand_ID _PB_char.PDB_ins_code _PB_char.PDB_residue_no _PB_char.PDB_residue_name _PB_char.PB_code _PB_char.Align _PB_char.Entry_ID _PB_char.PB_list_ID 1 1 1 1 ALA 12 A . 1 ALA . 1 6790 12 1 1 1 2 LYS 12 A . 2 LYS . 1 6790 12 1 1 1 3 LYS 12 A . 3 LYS k 1 6790 12 1 1 1 4 GLU 12 A . 4 GLU l 1 6790 12 1 1 1 5 THR 12 A . 5 THR m 1 6790 12 1 1 1 6 ILE 12 A . 6 ILE m 1 6790 12 1 1 1 7 ASP 12 A . 7 ASP m 1 6790 12 1 1 1 8 LYS 12 A . 8 LYS m 1 6790 12 1 1 1 9 VAL 12 A . 9 VAL m 1 6790 12 1 1 1 10 SER 12 A . 10 SER m 1 6790 12 1 1 1 11 ASP 12 A . 11 ASP m 1 6790 12 1 1 1 12 ILE 12 A . 12 ILE m 1 6790 12 1 1 1 13 VAL 12 A . 13 VAL m 1 6790 12 1 1 1 14 LYS 12 A . 14 LYS m 1 6790 12 1 1 1 15 GLU 12 A . 15 GLU m 1 6790 12 1 1 1 16 LYS 12 A . 16 LYS n 1 6790 12 1 1 1 17 LEU 12 A . 17 LEU m 1 6790 12 1 1 1 18 ALA 12 A . 18 ALA n 1 6790 12 1 1 1 19 LEU 12 A . 19 LEU o 1 6790 12 1 1 1 20 GLY 12 A . 20 GLY l 1 6790 12 1 1 1 21 ALA 12 A . 21 ALA m 1 6790 12 1 1 1 22 ASP 12 A . 22 ASP p 1 6790 12 1 1 1 23 VAL 12 A . 23 VAL c 1 6790 12 1 1 1 24 VAL 12 A . 24 VAL c 1 6790 12 1 1 1 25 VAL 12 A . 25 VAL d 1 6790 12 1 1 1 26 THR 12 A . 26 THR f 1 6790 12 1 1 1 27 ALA 12 A . 27 ALA k 1 6790 12 1 1 1 28 ASP 12 A . 28 ASP b 1 6790 12 1 1 1 29 SER 12 A . 29 SER c 1 6790 12 1 1 1 30 GLU 12 A . 30 GLU f 1 6790 12 1 1 1 31 PHE 12 A . 31 PHE k 1 6790 12 1 1 1 32 SER 12 A . 32 SER l 1 6790 12 1 1 1 33 LYS 12 A . 33 LYS n 1 6790 12 1 1 1 34 LEU 12 A . 34 LEU o 1 6790 12 1 1 1 35 GLY 12 A . 35 GLY p 1 6790 12 1 1 1 36 ALA 12 A . 36 ALA a 1 6790 12 1 1 1 37 ASP 12 A . 37 ASP f 1 6790 12 1 1 1 38 SER 12 A . 38 SER k 1 6790 12 1 1 1 39 LEU 12 A . 39 LEU l 1 6790 12 1 1 1 40 ASP 12 A . 40 ASP m 1 6790 12 1 1 1 41 THR 12 A . 41 THR m 1 6790 12 1 1 1 42 VAL 12 A . 42 VAL m 1 6790 12 1 1 1 43 GLU 12 A . 43 GLU m 1 6790 12 1 1 1 44 ILE 12 A . 44 ILE m 1 6790 12 1 1 1 45 VAL 12 A . 45 VAL m 1 6790 12 1 1 1 46 MET 12 A . 46 MET m 1 6790 12 1 1 1 47 ASN 12 A . 47 ASN m 1 6790 12 1 1 1 48 LEU 12 A . 48 LEU m 1 6790 12 1 1 1 49 GLU 12 A . 49 GLU m 1 6790 12 1 1 1 50 GLU 12 A . 50 GLU m 1 6790 12 1 1 1 51 GLU 12 A . 51 GLU n 1 6790 12 1 1 1 52 PHE 12 A . 52 PHE o 1 6790 12 1 1 1 53 GLY 12 A . 53 GLY p 1 6790 12 1 1 1 54 ILE 12 A . 54 ILE a 1 6790 12 1 1 1 55 ASN 12 A . 55 ASN c 1 6790 12 1 1 1 56 VAL 12 A . 56 VAL d 1 6790 12 1 1 1 57 ASP 12 A . 57 ASP f 1 6790 12 1 1 1 58 GLU 12 A . 58 GLU k 1 6790 12 1 1 1 59 ASP 12 A . 59 ASP l 1 6790 12 1 1 1 60 LYS 12 A . 60 LYS m 1 6790 12 1 1 1 61 ALA 12 A . 61 ALA m 1 6790 12 1 1 1 62 GLN 12 A . 62 GLN m 1 6790 12 1 1 1 63 ASP 12 A . 63 ASP p 1 6790 12 1 1 1 64 ILE 12 A . 64 ILE m 1 6790 12 1 1 1 65 SER 12 A . 65 SER b 1 6790 12 1 1 1 66 THR 12 A . 66 THR f 1 6790 12 1 1 1 67 ILE 12 A . 67 ILE m 1 6790 12 1 1 1 68 GLN 12 A . 68 GLN l 1 6790 12 1 1 1 69 GLN 12 A . 69 GLN m 1 6790 12 1 1 1 70 ALA 12 A . 70 ALA m 1 6790 12 1 1 1 71 ALA 12 A . 71 ALA m 1 6790 12 1 1 1 72 ASP 12 A . 72 ASP m 1 6790 12 1 1 1 73 VAL 12 A . 73 VAL m 1 6790 12 1 1 1 74 ILE 12 A . 74 ILE m 1 6790 12 1 1 1 75 GLU 12 A . 75 GLU m 1 6790 12 1 1 1 76 GLY 12 A . 76 GLY m 1 6790 12 1 1 1 77 LEU 12 A . 77 LEU m 1 6790 12 1 1 1 78 LEU 12 A . 78 LEU m 1 6790 12 1 1 1 79 GLU 12 A . 79 GLU n 1 6790 12 1 1 1 80 LYS 12 A . 80 LYS o 1 6790 12 1 1 1 81 LYS 12 A . 81 LYS . 1 6790 12 1 1 1 82 ALA 12 A . 82 ALA . 1 6790 12 stop_ save_ save_PB_annotation_13 _PB_list.Sf_category PB_list _PB_list.ID 13 _PB_list.Query_ID db2fvf_1579#A _PB_list.Queried_date 2014-12-15 _PB_list.Input_file_name pdb2fvf.ent _PB_list.Output_file_name bmr6790_PB.str _PB_list.Electronic_address http://bmrbpub.protein.osaka-u.ac.jp/archive/pb/bmr6790_PB.str _PB_list.AA_seq_one_letter_code AKKETIDKVSDIVKEKLALGADVVVTADSEFSKLGADSLDTVEIVMNLEEEFGINVDEDKAQDISTIQQAADVIEGLLEKKA _PB_list.PB_seq_code zzklmmmmmmmmmmmnmnolmpccdfklcfklnopafklmmmmmmmmmmmnopaddfklmmmpmbfmlmmmmmmmmmmnmzz _PB_list.PDB_ID 2FVF _PB_list.PDBX_exptl_method "SOLUTION NMR" _PB_list.PDBX_NMR_refine_method "Initial structure from torsion angle dynamics (in CYANA). Fatty acid and phosphopantetheine were added and docked using ambiguous distance restraints in XPLOR-NIH" _PB_list.Entry_ID 6790 loop_ _PB_char.Entity_assembly_ID _PB_char.Assembly_ID _PB_char.Entity_ID _PB_char.Comp_index_ID _PB_char.Comp_ID _PB_char.PDB_model_num _PB_char.PDB_strand_ID _PB_char.PDB_ins_code _PB_char.PDB_residue_no _PB_char.PDB_residue_name _PB_char.PB_code _PB_char.Align _PB_char.Entry_ID _PB_char.PB_list_ID 1 1 1 1 ALA 13 A . 1 ALA . 1 6790 13 1 1 1 2 LYS 13 A . 2 LYS . 1 6790 13 1 1 1 3 LYS 13 A . 3 LYS k 1 6790 13 1 1 1 4 GLU 13 A . 4 GLU l 1 6790 13 1 1 1 5 THR 13 A . 5 THR m 1 6790 13 1 1 1 6 ILE 13 A . 6 ILE m 1 6790 13 1 1 1 7 ASP 13 A . 7 ASP m 1 6790 13 1 1 1 8 LYS 13 A . 8 LYS m 1 6790 13 1 1 1 9 VAL 13 A . 9 VAL m 1 6790 13 1 1 1 10 SER 13 A . 10 SER m 1 6790 13 1 1 1 11 ASP 13 A . 11 ASP m 1 6790 13 1 1 1 12 ILE 13 A . 12 ILE m 1 6790 13 1 1 1 13 VAL 13 A . 13 VAL m 1 6790 13 1 1 1 14 LYS 13 A . 14 LYS m 1 6790 13 1 1 1 15 GLU 13 A . 15 GLU m 1 6790 13 1 1 1 16 LYS 13 A . 16 LYS n 1 6790 13 1 1 1 17 LEU 13 A . 17 LEU m 1 6790 13 1 1 1 18 ALA 13 A . 18 ALA n 1 6790 13 1 1 1 19 LEU 13 A . 19 LEU o 1 6790 13 1 1 1 20 GLY 13 A . 20 GLY l 1 6790 13 1 1 1 21 ALA 13 A . 21 ALA m 1 6790 13 1 1 1 22 ASP 13 A . 22 ASP p 1 6790 13 1 1 1 23 VAL 13 A . 23 VAL c 1 6790 13 1 1 1 24 VAL 13 A . 24 VAL c 1 6790 13 1 1 1 25 VAL 13 A . 25 VAL d 1 6790 13 1 1 1 26 THR 13 A . 26 THR f 1 6790 13 1 1 1 27 ALA 13 A . 27 ALA k 1 6790 13 1 1 1 28 ASP 13 A . 28 ASP l 1 6790 13 1 1 1 29 SER 13 A . 29 SER c 1 6790 13 1 1 1 30 GLU 13 A . 30 GLU f 1 6790 13 1 1 1 31 PHE 13 A . 31 PHE k 1 6790 13 1 1 1 32 SER 13 A . 32 SER l 1 6790 13 1 1 1 33 LYS 13 A . 33 LYS n 1 6790 13 1 1 1 34 LEU 13 A . 34 LEU o 1 6790 13 1 1 1 35 GLY 13 A . 35 GLY p 1 6790 13 1 1 1 36 ALA 13 A . 36 ALA a 1 6790 13 1 1 1 37 ASP 13 A . 37 ASP f 1 6790 13 1 1 1 38 SER 13 A . 38 SER k 1 6790 13 1 1 1 39 LEU 13 A . 39 LEU l 1 6790 13 1 1 1 40 ASP 13 A . 40 ASP m 1 6790 13 1 1 1 41 THR 13 A . 41 THR m 1 6790 13 1 1 1 42 VAL 13 A . 42 VAL m 1 6790 13 1 1 1 43 GLU 13 A . 43 GLU m 1 6790 13 1 1 1 44 ILE 13 A . 44 ILE m 1 6790 13 1 1 1 45 VAL 13 A . 45 VAL m 1 6790 13 1 1 1 46 MET 13 A . 46 MET m 1 6790 13 1 1 1 47 ASN 13 A . 47 ASN m 1 6790 13 1 1 1 48 LEU 13 A . 48 LEU m 1 6790 13 1 1 1 49 GLU 13 A . 49 GLU m 1 6790 13 1 1 1 50 GLU 13 A . 50 GLU m 1 6790 13 1 1 1 51 GLU 13 A . 51 GLU n 1 6790 13 1 1 1 52 PHE 13 A . 52 PHE o 1 6790 13 1 1 1 53 GLY 13 A . 53 GLY p 1 6790 13 1 1 1 54 ILE 13 A . 54 ILE a 1 6790 13 1 1 1 55 ASN 13 A . 55 ASN d 1 6790 13 1 1 1 56 VAL 13 A . 56 VAL d 1 6790 13 1 1 1 57 ASP 13 A . 57 ASP f 1 6790 13 1 1 1 58 GLU 13 A . 58 GLU k 1 6790 13 1 1 1 59 ASP 13 A . 59 ASP l 1 6790 13 1 1 1 60 LYS 13 A . 60 LYS m 1 6790 13 1 1 1 61 ALA 13 A . 61 ALA m 1 6790 13 1 1 1 62 GLN 13 A . 62 GLN m 1 6790 13 1 1 1 63 ASP 13 A . 63 ASP p 1 6790 13 1 1 1 64 ILE 13 A . 64 ILE m 1 6790 13 1 1 1 65 SER 13 A . 65 SER b 1 6790 13 1 1 1 66 THR 13 A . 66 THR f 1 6790 13 1 1 1 67 ILE 13 A . 67 ILE m 1 6790 13 1 1 1 68 GLN 13 A . 68 GLN l 1 6790 13 1 1 1 69 GLN 13 A . 69 GLN m 1 6790 13 1 1 1 70 ALA 13 A . 70 ALA m 1 6790 13 1 1 1 71 ALA 13 A . 71 ALA m 1 6790 13 1 1 1 72 ASP 13 A . 72 ASP m 1 6790 13 1 1 1 73 VAL 13 A . 73 VAL m 1 6790 13 1 1 1 74 ILE 13 A . 74 ILE m 1 6790 13 1 1 1 75 GLU 13 A . 75 GLU m 1 6790 13 1 1 1 76 GLY 13 A . 76 GLY m 1 6790 13 1 1 1 77 LEU 13 A . 77 LEU m 1 6790 13 1 1 1 78 LEU 13 A . 78 LEU m 1 6790 13 1 1 1 79 GLU 13 A . 79 GLU n 1 6790 13 1 1 1 80 LYS 13 A . 80 LYS m 1 6790 13 1 1 1 81 LYS 13 A . 81 LYS . 1 6790 13 1 1 1 82 ALA 13 A . 82 ALA . 1 6790 13 stop_ save_ save_PB_annotation_14 _PB_list.Sf_category PB_list _PB_list.ID 14 _PB_list.Query_ID db2fvf_1579#A _PB_list.Queried_date 2014-12-15 _PB_list.Input_file_name pdb2fvf.ent _PB_list.Output_file_name bmr6790_PB.str _PB_list.Electronic_address http://bmrbpub.protein.osaka-u.ac.jp/archive/pb/bmr6790_PB.str _PB_list.AA_seq_one_letter_code AKKETIDKVSDIVKEKLALGADVVVTADSEFSKLGADSLDTVEIVMNLEEEFGINVDEDKAQDISTIQQAADVIEGLLEKKA _PB_list.PB_seq_code zzklmmmmmmmmmmmnmnolmpccdfklcfklnopafklmmmmmmmmmmmnopaddfklmmmpmbfklmmmmmmmmmmmmzz _PB_list.PDB_ID 2FVF _PB_list.PDBX_exptl_method "SOLUTION NMR" _PB_list.PDBX_NMR_refine_method "Initial structure from torsion angle dynamics (in CYANA). Fatty acid and phosphopantetheine were added and docked using ambiguous distance restraints in XPLOR-NIH" _PB_list.Entry_ID 6790 loop_ _PB_char.Entity_assembly_ID _PB_char.Assembly_ID _PB_char.Entity_ID _PB_char.Comp_index_ID _PB_char.Comp_ID _PB_char.PDB_model_num _PB_char.PDB_strand_ID _PB_char.PDB_ins_code _PB_char.PDB_residue_no _PB_char.PDB_residue_name _PB_char.PB_code _PB_char.Align _PB_char.Entry_ID _PB_char.PB_list_ID 1 1 1 1 ALA 14 A . 1 ALA . 1 6790 14 1 1 1 2 LYS 14 A . 2 LYS . 1 6790 14 1 1 1 3 LYS 14 A . 3 LYS k 1 6790 14 1 1 1 4 GLU 14 A . 4 GLU l 1 6790 14 1 1 1 5 THR 14 A . 5 THR m 1 6790 14 1 1 1 6 ILE 14 A . 6 ILE m 1 6790 14 1 1 1 7 ASP 14 A . 7 ASP m 1 6790 14 1 1 1 8 LYS 14 A . 8 LYS m 1 6790 14 1 1 1 9 VAL 14 A . 9 VAL m 1 6790 14 1 1 1 10 SER 14 A . 10 SER m 1 6790 14 1 1 1 11 ASP 14 A . 11 ASP m 1 6790 14 1 1 1 12 ILE 14 A . 12 ILE m 1 6790 14 1 1 1 13 VAL 14 A . 13 VAL m 1 6790 14 1 1 1 14 LYS 14 A . 14 LYS m 1 6790 14 1 1 1 15 GLU 14 A . 15 GLU m 1 6790 14 1 1 1 16 LYS 14 A . 16 LYS n 1 6790 14 1 1 1 17 LEU 14 A . 17 LEU m 1 6790 14 1 1 1 18 ALA 14 A . 18 ALA n 1 6790 14 1 1 1 19 LEU 14 A . 19 LEU o 1 6790 14 1 1 1 20 GLY 14 A . 20 GLY l 1 6790 14 1 1 1 21 ALA 14 A . 21 ALA m 1 6790 14 1 1 1 22 ASP 14 A . 22 ASP p 1 6790 14 1 1 1 23 VAL 14 A . 23 VAL c 1 6790 14 1 1 1 24 VAL 14 A . 24 VAL c 1 6790 14 1 1 1 25 VAL 14 A . 25 VAL d 1 6790 14 1 1 1 26 THR 14 A . 26 THR f 1 6790 14 1 1 1 27 ALA 14 A . 27 ALA k 1 6790 14 1 1 1 28 ASP 14 A . 28 ASP l 1 6790 14 1 1 1 29 SER 14 A . 29 SER c 1 6790 14 1 1 1 30 GLU 14 A . 30 GLU f 1 6790 14 1 1 1 31 PHE 14 A . 31 PHE k 1 6790 14 1 1 1 32 SER 14 A . 32 SER l 1 6790 14 1 1 1 33 LYS 14 A . 33 LYS n 1 6790 14 1 1 1 34 LEU 14 A . 34 LEU o 1 6790 14 1 1 1 35 GLY 14 A . 35 GLY p 1 6790 14 1 1 1 36 ALA 14 A . 36 ALA a 1 6790 14 1 1 1 37 ASP 14 A . 37 ASP f 1 6790 14 1 1 1 38 SER 14 A . 38 SER k 1 6790 14 1 1 1 39 LEU 14 A . 39 LEU l 1 6790 14 1 1 1 40 ASP 14 A . 40 ASP m 1 6790 14 1 1 1 41 THR 14 A . 41 THR m 1 6790 14 1 1 1 42 VAL 14 A . 42 VAL m 1 6790 14 1 1 1 43 GLU 14 A . 43 GLU m 1 6790 14 1 1 1 44 ILE 14 A . 44 ILE m 1 6790 14 1 1 1 45 VAL 14 A . 45 VAL m 1 6790 14 1 1 1 46 MET 14 A . 46 MET m 1 6790 14 1 1 1 47 ASN 14 A . 47 ASN m 1 6790 14 1 1 1 48 LEU 14 A . 48 LEU m 1 6790 14 1 1 1 49 GLU 14 A . 49 GLU m 1 6790 14 1 1 1 50 GLU 14 A . 50 GLU m 1 6790 14 1 1 1 51 GLU 14 A . 51 GLU n 1 6790 14 1 1 1 52 PHE 14 A . 52 PHE o 1 6790 14 1 1 1 53 GLY 14 A . 53 GLY p 1 6790 14 1 1 1 54 ILE 14 A . 54 ILE a 1 6790 14 1 1 1 55 ASN 14 A . 55 ASN d 1 6790 14 1 1 1 56 VAL 14 A . 56 VAL d 1 6790 14 1 1 1 57 ASP 14 A . 57 ASP f 1 6790 14 1 1 1 58 GLU 14 A . 58 GLU k 1 6790 14 1 1 1 59 ASP 14 A . 59 ASP l 1 6790 14 1 1 1 60 LYS 14 A . 60 LYS m 1 6790 14 1 1 1 61 ALA 14 A . 61 ALA m 1 6790 14 1 1 1 62 GLN 14 A . 62 GLN m 1 6790 14 1 1 1 63 ASP 14 A . 63 ASP p 1 6790 14 1 1 1 64 ILE 14 A . 64 ILE m 1 6790 14 1 1 1 65 SER 14 A . 65 SER b 1 6790 14 1 1 1 66 THR 14 A . 66 THR f 1 6790 14 1 1 1 67 ILE 14 A . 67 ILE k 1 6790 14 1 1 1 68 GLN 14 A . 68 GLN l 1 6790 14 1 1 1 69 GLN 14 A . 69 GLN m 1 6790 14 1 1 1 70 ALA 14 A . 70 ALA m 1 6790 14 1 1 1 71 ALA 14 A . 71 ALA m 1 6790 14 1 1 1 72 ASP 14 A . 72 ASP m 1 6790 14 1 1 1 73 VAL 14 A . 73 VAL m 1 6790 14 1 1 1 74 ILE 14 A . 74 ILE m 1 6790 14 1 1 1 75 GLU 14 A . 75 GLU m 1 6790 14 1 1 1 76 GLY 14 A . 76 GLY m 1 6790 14 1 1 1 77 LEU 14 A . 77 LEU m 1 6790 14 1 1 1 78 LEU 14 A . 78 LEU m 1 6790 14 1 1 1 79 GLU 14 A . 79 GLU m 1 6790 14 1 1 1 80 LYS 14 A . 80 LYS m 1 6790 14 1 1 1 81 LYS 14 A . 81 LYS . 1 6790 14 1 1 1 82 ALA 14 A . 82 ALA . 1 6790 14 stop_ save_ save_PB_annotation_15 _PB_list.Sf_category PB_list _PB_list.ID 15 _PB_list.Query_ID db2fvf_1579#A _PB_list.Queried_date 2014-12-15 _PB_list.Input_file_name pdb2fvf.ent _PB_list.Output_file_name bmr6790_PB.str _PB_list.Electronic_address http://bmrbpub.protein.osaka-u.ac.jp/archive/pb/bmr6790_PB.str _PB_list.AA_seq_one_letter_code AKKETIDKVSDIVKEKLALGADVVVTADSEFSKLGADSLDTVEIVMNLEEEFGINVDEDKAQDISTIQQAADVIEGLLEKKA _PB_list.PB_seq_code zzklmmmmmmmmmmmnmnolmpccdfklcfklnopafklmmmmmmmmmmmnopaddfklmmmpmbfklmmmmmmmmmmmmzz _PB_list.PDB_ID 2FVF _PB_list.PDBX_exptl_method "SOLUTION NMR" _PB_list.PDBX_NMR_refine_method "Initial structure from torsion angle dynamics (in CYANA). Fatty acid and phosphopantetheine were added and docked using ambiguous distance restraints in XPLOR-NIH" _PB_list.Entry_ID 6790 loop_ _PB_char.Entity_assembly_ID _PB_char.Assembly_ID _PB_char.Entity_ID _PB_char.Comp_index_ID _PB_char.Comp_ID _PB_char.PDB_model_num _PB_char.PDB_strand_ID _PB_char.PDB_ins_code _PB_char.PDB_residue_no _PB_char.PDB_residue_name _PB_char.PB_code _PB_char.Align _PB_char.Entry_ID _PB_char.PB_list_ID 1 1 1 1 ALA 15 A . 1 ALA . 1 6790 15 1 1 1 2 LYS 15 A . 2 LYS . 1 6790 15 1 1 1 3 LYS 15 A . 3 LYS k 1 6790 15 1 1 1 4 GLU 15 A . 4 GLU l 1 6790 15 1 1 1 5 THR 15 A . 5 THR m 1 6790 15 1 1 1 6 ILE 15 A . 6 ILE m 1 6790 15 1 1 1 7 ASP 15 A . 7 ASP m 1 6790 15 1 1 1 8 LYS 15 A . 8 LYS m 1 6790 15 1 1 1 9 VAL 15 A . 9 VAL m 1 6790 15 1 1 1 10 SER 15 A . 10 SER m 1 6790 15 1 1 1 11 ASP 15 A . 11 ASP m 1 6790 15 1 1 1 12 ILE 15 A . 12 ILE m 1 6790 15 1 1 1 13 VAL 15 A . 13 VAL m 1 6790 15 1 1 1 14 LYS 15 A . 14 LYS m 1 6790 15 1 1 1 15 GLU 15 A . 15 GLU m 1 6790 15 1 1 1 16 LYS 15 A . 16 LYS n 1 6790 15 1 1 1 17 LEU 15 A . 17 LEU m 1 6790 15 1 1 1 18 ALA 15 A . 18 ALA n 1 6790 15 1 1 1 19 LEU 15 A . 19 LEU o 1 6790 15 1 1 1 20 GLY 15 A . 20 GLY l 1 6790 15 1 1 1 21 ALA 15 A . 21 ALA m 1 6790 15 1 1 1 22 ASP 15 A . 22 ASP p 1 6790 15 1 1 1 23 VAL 15 A . 23 VAL c 1 6790 15 1 1 1 24 VAL 15 A . 24 VAL c 1 6790 15 1 1 1 25 VAL 15 A . 25 VAL d 1 6790 15 1 1 1 26 THR 15 A . 26 THR f 1 6790 15 1 1 1 27 ALA 15 A . 27 ALA k 1 6790 15 1 1 1 28 ASP 15 A . 28 ASP l 1 6790 15 1 1 1 29 SER 15 A . 29 SER c 1 6790 15 1 1 1 30 GLU 15 A . 30 GLU f 1 6790 15 1 1 1 31 PHE 15 A . 31 PHE k 1 6790 15 1 1 1 32 SER 15 A . 32 SER l 1 6790 15 1 1 1 33 LYS 15 A . 33 LYS n 1 6790 15 1 1 1 34 LEU 15 A . 34 LEU o 1 6790 15 1 1 1 35 GLY 15 A . 35 GLY p 1 6790 15 1 1 1 36 ALA 15 A . 36 ALA a 1 6790 15 1 1 1 37 ASP 15 A . 37 ASP f 1 6790 15 1 1 1 38 SER 15 A . 38 SER k 1 6790 15 1 1 1 39 LEU 15 A . 39 LEU l 1 6790 15 1 1 1 40 ASP 15 A . 40 ASP m 1 6790 15 1 1 1 41 THR 15 A . 41 THR m 1 6790 15 1 1 1 42 VAL 15 A . 42 VAL m 1 6790 15 1 1 1 43 GLU 15 A . 43 GLU m 1 6790 15 1 1 1 44 ILE 15 A . 44 ILE m 1 6790 15 1 1 1 45 VAL 15 A . 45 VAL m 1 6790 15 1 1 1 46 MET 15 A . 46 MET m 1 6790 15 1 1 1 47 ASN 15 A . 47 ASN m 1 6790 15 1 1 1 48 LEU 15 A . 48 LEU m 1 6790 15 1 1 1 49 GLU 15 A . 49 GLU m 1 6790 15 1 1 1 50 GLU 15 A . 50 GLU m 1 6790 15 1 1 1 51 GLU 15 A . 51 GLU n 1 6790 15 1 1 1 52 PHE 15 A . 52 PHE o 1 6790 15 1 1 1 53 GLY 15 A . 53 GLY p 1 6790 15 1 1 1 54 ILE 15 A . 54 ILE a 1 6790 15 1 1 1 55 ASN 15 A . 55 ASN d 1 6790 15 1 1 1 56 VAL 15 A . 56 VAL d 1 6790 15 1 1 1 57 ASP 15 A . 57 ASP f 1 6790 15 1 1 1 58 GLU 15 A . 58 GLU k 1 6790 15 1 1 1 59 ASP 15 A . 59 ASP l 1 6790 15 1 1 1 60 LYS 15 A . 60 LYS m 1 6790 15 1 1 1 61 ALA 15 A . 61 ALA m 1 6790 15 1 1 1 62 GLN 15 A . 62 GLN m 1 6790 15 1 1 1 63 ASP 15 A . 63 ASP p 1 6790 15 1 1 1 64 ILE 15 A . 64 ILE m 1 6790 15 1 1 1 65 SER 15 A . 65 SER b 1 6790 15 1 1 1 66 THR 15 A . 66 THR f 1 6790 15 1 1 1 67 ILE 15 A . 67 ILE k 1 6790 15 1 1 1 68 GLN 15 A . 68 GLN l 1 6790 15 1 1 1 69 GLN 15 A . 69 GLN m 1 6790 15 1 1 1 70 ALA 15 A . 70 ALA m 1 6790 15 1 1 1 71 ALA 15 A . 71 ALA m 1 6790 15 1 1 1 72 ASP 15 A . 72 ASP m 1 6790 15 1 1 1 73 VAL 15 A . 73 VAL m 1 6790 15 1 1 1 74 ILE 15 A . 74 ILE m 1 6790 15 1 1 1 75 GLU 15 A . 75 GLU m 1 6790 15 1 1 1 76 GLY 15 A . 76 GLY m 1 6790 15 1 1 1 77 LEU 15 A . 77 LEU m 1 6790 15 1 1 1 78 LEU 15 A . 78 LEU m 1 6790 15 1 1 1 79 GLU 15 A . 79 GLU m 1 6790 15 1 1 1 80 LYS 15 A . 80 LYS m 1 6790 15 1 1 1 81 LYS 15 A . 81 LYS . 1 6790 15 1 1 1 82 ALA 15 A . 82 ALA . 1 6790 15 stop_ save_ save_PB_annotation_16 _PB_list.Sf_category PB_list _PB_list.ID 16 _PB_list.Query_ID db2fvf_1579#A _PB_list.Queried_date 2014-12-15 _PB_list.Input_file_name pdb2fvf.ent _PB_list.Output_file_name bmr6790_PB.str _PB_list.Electronic_address http://bmrbpub.protein.osaka-u.ac.jp/archive/pb/bmr6790_PB.str _PB_list.AA_seq_one_letter_code AKKETIDKVSDIVKEKLALGADVVVTADSEFSKLGADSLDTVEIVMNLEEEFGINVDEDKAQDISTIQQAADVIEGLLEKKA _PB_list.PB_seq_code zzklmmmmmmmmmmmnmnolmpccdfklcfklnopafklmmmmmmmmmmmnopacdfklmmmpmbfklmmmmmmmmmmmmzz _PB_list.PDB_ID 2FVF _PB_list.PDBX_exptl_method "SOLUTION NMR" _PB_list.PDBX_NMR_refine_method "Initial structure from torsion angle dynamics (in CYANA). Fatty acid and phosphopantetheine were added and docked using ambiguous distance restraints in XPLOR-NIH" _PB_list.Entry_ID 6790 loop_ _PB_char.Entity_assembly_ID _PB_char.Assembly_ID _PB_char.Entity_ID _PB_char.Comp_index_ID _PB_char.Comp_ID _PB_char.PDB_model_num _PB_char.PDB_strand_ID _PB_char.PDB_ins_code _PB_char.PDB_residue_no _PB_char.PDB_residue_name _PB_char.PB_code _PB_char.Align _PB_char.Entry_ID _PB_char.PB_list_ID 1 1 1 1 ALA 16 A . 1 ALA . 1 6790 16 1 1 1 2 LYS 16 A . 2 LYS . 1 6790 16 1 1 1 3 LYS 16 A . 3 LYS k 1 6790 16 1 1 1 4 GLU 16 A . 4 GLU l 1 6790 16 1 1 1 5 THR 16 A . 5 THR m 1 6790 16 1 1 1 6 ILE 16 A . 6 ILE m 1 6790 16 1 1 1 7 ASP 16 A . 7 ASP m 1 6790 16 1 1 1 8 LYS 16 A . 8 LYS m 1 6790 16 1 1 1 9 VAL 16 A . 9 VAL m 1 6790 16 1 1 1 10 SER 16 A . 10 SER m 1 6790 16 1 1 1 11 ASP 16 A . 11 ASP m 1 6790 16 1 1 1 12 ILE 16 A . 12 ILE m 1 6790 16 1 1 1 13 VAL 16 A . 13 VAL m 1 6790 16 1 1 1 14 LYS 16 A . 14 LYS m 1 6790 16 1 1 1 15 GLU 16 A . 15 GLU m 1 6790 16 1 1 1 16 LYS 16 A . 16 LYS n 1 6790 16 1 1 1 17 LEU 16 A . 17 LEU m 1 6790 16 1 1 1 18 ALA 16 A . 18 ALA n 1 6790 16 1 1 1 19 LEU 16 A . 19 LEU o 1 6790 16 1 1 1 20 GLY 16 A . 20 GLY l 1 6790 16 1 1 1 21 ALA 16 A . 21 ALA m 1 6790 16 1 1 1 22 ASP 16 A . 22 ASP p 1 6790 16 1 1 1 23 VAL 16 A . 23 VAL c 1 6790 16 1 1 1 24 VAL 16 A . 24 VAL c 1 6790 16 1 1 1 25 VAL 16 A . 25 VAL d 1 6790 16 1 1 1 26 THR 16 A . 26 THR f 1 6790 16 1 1 1 27 ALA 16 A . 27 ALA k 1 6790 16 1 1 1 28 ASP 16 A . 28 ASP l 1 6790 16 1 1 1 29 SER 16 A . 29 SER c 1 6790 16 1 1 1 30 GLU 16 A . 30 GLU f 1 6790 16 1 1 1 31 PHE 16 A . 31 PHE k 1 6790 16 1 1 1 32 SER 16 A . 32 SER l 1 6790 16 1 1 1 33 LYS 16 A . 33 LYS n 1 6790 16 1 1 1 34 LEU 16 A . 34 LEU o 1 6790 16 1 1 1 35 GLY 16 A . 35 GLY p 1 6790 16 1 1 1 36 ALA 16 A . 36 ALA a 1 6790 16 1 1 1 37 ASP 16 A . 37 ASP f 1 6790 16 1 1 1 38 SER 16 A . 38 SER k 1 6790 16 1 1 1 39 LEU 16 A . 39 LEU l 1 6790 16 1 1 1 40 ASP 16 A . 40 ASP m 1 6790 16 1 1 1 41 THR 16 A . 41 THR m 1 6790 16 1 1 1 42 VAL 16 A . 42 VAL m 1 6790 16 1 1 1 43 GLU 16 A . 43 GLU m 1 6790 16 1 1 1 44 ILE 16 A . 44 ILE m 1 6790 16 1 1 1 45 VAL 16 A . 45 VAL m 1 6790 16 1 1 1 46 MET 16 A . 46 MET m 1 6790 16 1 1 1 47 ASN 16 A . 47 ASN m 1 6790 16 1 1 1 48 LEU 16 A . 48 LEU m 1 6790 16 1 1 1 49 GLU 16 A . 49 GLU m 1 6790 16 1 1 1 50 GLU 16 A . 50 GLU m 1 6790 16 1 1 1 51 GLU 16 A . 51 GLU n 1 6790 16 1 1 1 52 PHE 16 A . 52 PHE o 1 6790 16 1 1 1 53 GLY 16 A . 53 GLY p 1 6790 16 1 1 1 54 ILE 16 A . 54 ILE a 1 6790 16 1 1 1 55 ASN 16 A . 55 ASN c 1 6790 16 1 1 1 56 VAL 16 A . 56 VAL d 1 6790 16 1 1 1 57 ASP 16 A . 57 ASP f 1 6790 16 1 1 1 58 GLU 16 A . 58 GLU k 1 6790 16 1 1 1 59 ASP 16 A . 59 ASP l 1 6790 16 1 1 1 60 LYS 16 A . 60 LYS m 1 6790 16 1 1 1 61 ALA 16 A . 61 ALA m 1 6790 16 1 1 1 62 GLN 16 A . 62 GLN m 1 6790 16 1 1 1 63 ASP 16 A . 63 ASP p 1 6790 16 1 1 1 64 ILE 16 A . 64 ILE m 1 6790 16 1 1 1 65 SER 16 A . 65 SER b 1 6790 16 1 1 1 66 THR 16 A . 66 THR f 1 6790 16 1 1 1 67 ILE 16 A . 67 ILE k 1 6790 16 1 1 1 68 GLN 16 A . 68 GLN l 1 6790 16 1 1 1 69 GLN 16 A . 69 GLN m 1 6790 16 1 1 1 70 ALA 16 A . 70 ALA m 1 6790 16 1 1 1 71 ALA 16 A . 71 ALA m 1 6790 16 1 1 1 72 ASP 16 A . 72 ASP m 1 6790 16 1 1 1 73 VAL 16 A . 73 VAL m 1 6790 16 1 1 1 74 ILE 16 A . 74 ILE m 1 6790 16 1 1 1 75 GLU 16 A . 75 GLU m 1 6790 16 1 1 1 76 GLY 16 A . 76 GLY m 1 6790 16 1 1 1 77 LEU 16 A . 77 LEU m 1 6790 16 1 1 1 78 LEU 16 A . 78 LEU m 1 6790 16 1 1 1 79 GLU 16 A . 79 GLU m 1 6790 16 1 1 1 80 LYS 16 A . 80 LYS m 1 6790 16 1 1 1 81 LYS 16 A . 81 LYS . 1 6790 16 1 1 1 82 ALA 16 A . 82 ALA . 1 6790 16 stop_ save_ save_PB_annotation_17 _PB_list.Sf_category PB_list _PB_list.ID 17 _PB_list.Query_ID db2fvf_1579#A _PB_list.Queried_date 2014-12-15 _PB_list.Input_file_name pdb2fvf.ent _PB_list.Output_file_name bmr6790_PB.str _PB_list.Electronic_address http://bmrbpub.protein.osaka-u.ac.jp/archive/pb/bmr6790_PB.str _PB_list.AA_seq_one_letter_code AKKETIDKVSDIVKEKLALGADVVVTADSEFSKLGADSLDTVEIVMNLEEEFGINVDEDKAQDISTIQQAADVIEGLLEKKA _PB_list.PB_seq_code zzklmmmmmmmmmmmnmnolmpccdfklcfklnopafklmmmmmmmmmmmnopacdfklmmmpmbfmlmmmmmmmmmmmmzz _PB_list.PDB_ID 2FVF _PB_list.PDBX_exptl_method "SOLUTION NMR" _PB_list.PDBX_NMR_refine_method "Initial structure from torsion angle dynamics (in CYANA). Fatty acid and phosphopantetheine were added and docked using ambiguous distance restraints in XPLOR-NIH" _PB_list.Entry_ID 6790 loop_ _PB_char.Entity_assembly_ID _PB_char.Assembly_ID _PB_char.Entity_ID _PB_char.Comp_index_ID _PB_char.Comp_ID _PB_char.PDB_model_num _PB_char.PDB_strand_ID _PB_char.PDB_ins_code _PB_char.PDB_residue_no _PB_char.PDB_residue_name _PB_char.PB_code _PB_char.Align _PB_char.Entry_ID _PB_char.PB_list_ID 1 1 1 1 ALA 17 A . 1 ALA . 1 6790 17 1 1 1 2 LYS 17 A . 2 LYS . 1 6790 17 1 1 1 3 LYS 17 A . 3 LYS k 1 6790 17 1 1 1 4 GLU 17 A . 4 GLU l 1 6790 17 1 1 1 5 THR 17 A . 5 THR m 1 6790 17 1 1 1 6 ILE 17 A . 6 ILE m 1 6790 17 1 1 1 7 ASP 17 A . 7 ASP m 1 6790 17 1 1 1 8 LYS 17 A . 8 LYS m 1 6790 17 1 1 1 9 VAL 17 A . 9 VAL m 1 6790 17 1 1 1 10 SER 17 A . 10 SER m 1 6790 17 1 1 1 11 ASP 17 A . 11 ASP m 1 6790 17 1 1 1 12 ILE 17 A . 12 ILE m 1 6790 17 1 1 1 13 VAL 17 A . 13 VAL m 1 6790 17 1 1 1 14 LYS 17 A . 14 LYS m 1 6790 17 1 1 1 15 GLU 17 A . 15 GLU m 1 6790 17 1 1 1 16 LYS 17 A . 16 LYS n 1 6790 17 1 1 1 17 LEU 17 A . 17 LEU m 1 6790 17 1 1 1 18 ALA 17 A . 18 ALA n 1 6790 17 1 1 1 19 LEU 17 A . 19 LEU o 1 6790 17 1 1 1 20 GLY 17 A . 20 GLY l 1 6790 17 1 1 1 21 ALA 17 A . 21 ALA m 1 6790 17 1 1 1 22 ASP 17 A . 22 ASP p 1 6790 17 1 1 1 23 VAL 17 A . 23 VAL c 1 6790 17 1 1 1 24 VAL 17 A . 24 VAL c 1 6790 17 1 1 1 25 VAL 17 A . 25 VAL d 1 6790 17 1 1 1 26 THR 17 A . 26 THR f 1 6790 17 1 1 1 27 ALA 17 A . 27 ALA k 1 6790 17 1 1 1 28 ASP 17 A . 28 ASP l 1 6790 17 1 1 1 29 SER 17 A . 29 SER c 1 6790 17 1 1 1 30 GLU 17 A . 30 GLU f 1 6790 17 1 1 1 31 PHE 17 A . 31 PHE k 1 6790 17 1 1 1 32 SER 17 A . 32 SER l 1 6790 17 1 1 1 33 LYS 17 A . 33 LYS n 1 6790 17 1 1 1 34 LEU 17 A . 34 LEU o 1 6790 17 1 1 1 35 GLY 17 A . 35 GLY p 1 6790 17 1 1 1 36 ALA 17 A . 36 ALA a 1 6790 17 1 1 1 37 ASP 17 A . 37 ASP f 1 6790 17 1 1 1 38 SER 17 A . 38 SER k 1 6790 17 1 1 1 39 LEU 17 A . 39 LEU l 1 6790 17 1 1 1 40 ASP 17 A . 40 ASP m 1 6790 17 1 1 1 41 THR 17 A . 41 THR m 1 6790 17 1 1 1 42 VAL 17 A . 42 VAL m 1 6790 17 1 1 1 43 GLU 17 A . 43 GLU m 1 6790 17 1 1 1 44 ILE 17 A . 44 ILE m 1 6790 17 1 1 1 45 VAL 17 A . 45 VAL m 1 6790 17 1 1 1 46 MET 17 A . 46 MET m 1 6790 17 1 1 1 47 ASN 17 A . 47 ASN m 1 6790 17 1 1 1 48 LEU 17 A . 48 LEU m 1 6790 17 1 1 1 49 GLU 17 A . 49 GLU m 1 6790 17 1 1 1 50 GLU 17 A . 50 GLU m 1 6790 17 1 1 1 51 GLU 17 A . 51 GLU n 1 6790 17 1 1 1 52 PHE 17 A . 52 PHE o 1 6790 17 1 1 1 53 GLY 17 A . 53 GLY p 1 6790 17 1 1 1 54 ILE 17 A . 54 ILE a 1 6790 17 1 1 1 55 ASN 17 A . 55 ASN c 1 6790 17 1 1 1 56 VAL 17 A . 56 VAL d 1 6790 17 1 1 1 57 ASP 17 A . 57 ASP f 1 6790 17 1 1 1 58 GLU 17 A . 58 GLU k 1 6790 17 1 1 1 59 ASP 17 A . 59 ASP l 1 6790 17 1 1 1 60 LYS 17 A . 60 LYS m 1 6790 17 1 1 1 61 ALA 17 A . 61 ALA m 1 6790 17 1 1 1 62 GLN 17 A . 62 GLN m 1 6790 17 1 1 1 63 ASP 17 A . 63 ASP p 1 6790 17 1 1 1 64 ILE 17 A . 64 ILE m 1 6790 17 1 1 1 65 SER 17 A . 65 SER b 1 6790 17 1 1 1 66 THR 17 A . 66 THR f 1 6790 17 1 1 1 67 ILE 17 A . 67 ILE m 1 6790 17 1 1 1 68 GLN 17 A . 68 GLN l 1 6790 17 1 1 1 69 GLN 17 A . 69 GLN m 1 6790 17 1 1 1 70 ALA 17 A . 70 ALA m 1 6790 17 1 1 1 71 ALA 17 A . 71 ALA m 1 6790 17 1 1 1 72 ASP 17 A . 72 ASP m 1 6790 17 1 1 1 73 VAL 17 A . 73 VAL m 1 6790 17 1 1 1 74 ILE 17 A . 74 ILE m 1 6790 17 1 1 1 75 GLU 17 A . 75 GLU m 1 6790 17 1 1 1 76 GLY 17 A . 76 GLY m 1 6790 17 1 1 1 77 LEU 17 A . 77 LEU m 1 6790 17 1 1 1 78 LEU 17 A . 78 LEU m 1 6790 17 1 1 1 79 GLU 17 A . 79 GLU m 1 6790 17 1 1 1 80 LYS 17 A . 80 LYS m 1 6790 17 1 1 1 81 LYS 17 A . 81 LYS . 1 6790 17 1 1 1 82 ALA 17 A . 82 ALA . 1 6790 17 stop_ save_ save_PB_annotation_18 _PB_list.Sf_category PB_list _PB_list.ID 18 _PB_list.Query_ID db2fvf_1579#A _PB_list.Queried_date 2014-12-15 _PB_list.Input_file_name pdb2fvf.ent _PB_list.Output_file_name bmr6790_PB.str _PB_list.Electronic_address http://bmrbpub.protein.osaka-u.ac.jp/archive/pb/bmr6790_PB.str _PB_list.AA_seq_one_letter_code AKKETIDKVSDIVKEKLALGADVVVTADSEFSKLGADSLDTVEIVMNLEEEFGINVDEDKAQDISTIQQAADVIEGLLEKKA _PB_list.PB_seq_code zzklmmmmmmmmmmmnonolmpccdfklcfklnopafklmmmmmmmmmmmnopacdfklmmmpmbfmlmmmmmmmmmmmgzz _PB_list.PDB_ID 2FVF _PB_list.PDBX_exptl_method "SOLUTION NMR" _PB_list.PDBX_NMR_refine_method "Initial structure from torsion angle dynamics (in CYANA). Fatty acid and phosphopantetheine were added and docked using ambiguous distance restraints in XPLOR-NIH" _PB_list.Entry_ID 6790 loop_ _PB_char.Entity_assembly_ID _PB_char.Assembly_ID _PB_char.Entity_ID _PB_char.Comp_index_ID _PB_char.Comp_ID _PB_char.PDB_model_num _PB_char.PDB_strand_ID _PB_char.PDB_ins_code _PB_char.PDB_residue_no _PB_char.PDB_residue_name _PB_char.PB_code _PB_char.Align _PB_char.Entry_ID _PB_char.PB_list_ID 1 1 1 1 ALA 18 A . 1 ALA . 1 6790 18 1 1 1 2 LYS 18 A . 2 LYS . 1 6790 18 1 1 1 3 LYS 18 A . 3 LYS k 1 6790 18 1 1 1 4 GLU 18 A . 4 GLU l 1 6790 18 1 1 1 5 THR 18 A . 5 THR m 1 6790 18 1 1 1 6 ILE 18 A . 6 ILE m 1 6790 18 1 1 1 7 ASP 18 A . 7 ASP m 1 6790 18 1 1 1 8 LYS 18 A . 8 LYS m 1 6790 18 1 1 1 9 VAL 18 A . 9 VAL m 1 6790 18 1 1 1 10 SER 18 A . 10 SER m 1 6790 18 1 1 1 11 ASP 18 A . 11 ASP m 1 6790 18 1 1 1 12 ILE 18 A . 12 ILE m 1 6790 18 1 1 1 13 VAL 18 A . 13 VAL m 1 6790 18 1 1 1 14 LYS 18 A . 14 LYS m 1 6790 18 1 1 1 15 GLU 18 A . 15 GLU m 1 6790 18 1 1 1 16 LYS 18 A . 16 LYS n 1 6790 18 1 1 1 17 LEU 18 A . 17 LEU o 1 6790 18 1 1 1 18 ALA 18 A . 18 ALA n 1 6790 18 1 1 1 19 LEU 18 A . 19 LEU o 1 6790 18 1 1 1 20 GLY 18 A . 20 GLY l 1 6790 18 1 1 1 21 ALA 18 A . 21 ALA m 1 6790 18 1 1 1 22 ASP 18 A . 22 ASP p 1 6790 18 1 1 1 23 VAL 18 A . 23 VAL c 1 6790 18 1 1 1 24 VAL 18 A . 24 VAL c 1 6790 18 1 1 1 25 VAL 18 A . 25 VAL d 1 6790 18 1 1 1 26 THR 18 A . 26 THR f 1 6790 18 1 1 1 27 ALA 18 A . 27 ALA k 1 6790 18 1 1 1 28 ASP 18 A . 28 ASP l 1 6790 18 1 1 1 29 SER 18 A . 29 SER c 1 6790 18 1 1 1 30 GLU 18 A . 30 GLU f 1 6790 18 1 1 1 31 PHE 18 A . 31 PHE k 1 6790 18 1 1 1 32 SER 18 A . 32 SER l 1 6790 18 1 1 1 33 LYS 18 A . 33 LYS n 1 6790 18 1 1 1 34 LEU 18 A . 34 LEU o 1 6790 18 1 1 1 35 GLY 18 A . 35 GLY p 1 6790 18 1 1 1 36 ALA 18 A . 36 ALA a 1 6790 18 1 1 1 37 ASP 18 A . 37 ASP f 1 6790 18 1 1 1 38 SER 18 A . 38 SER k 1 6790 18 1 1 1 39 LEU 18 A . 39 LEU l 1 6790 18 1 1 1 40 ASP 18 A . 40 ASP m 1 6790 18 1 1 1 41 THR 18 A . 41 THR m 1 6790 18 1 1 1 42 VAL 18 A . 42 VAL m 1 6790 18 1 1 1 43 GLU 18 A . 43 GLU m 1 6790 18 1 1 1 44 ILE 18 A . 44 ILE m 1 6790 18 1 1 1 45 VAL 18 A . 45 VAL m 1 6790 18 1 1 1 46 MET 18 A . 46 MET m 1 6790 18 1 1 1 47 ASN 18 A . 47 ASN m 1 6790 18 1 1 1 48 LEU 18 A . 48 LEU m 1 6790 18 1 1 1 49 GLU 18 A . 49 GLU m 1 6790 18 1 1 1 50 GLU 18 A . 50 GLU m 1 6790 18 1 1 1 51 GLU 18 A . 51 GLU n 1 6790 18 1 1 1 52 PHE 18 A . 52 PHE o 1 6790 18 1 1 1 53 GLY 18 A . 53 GLY p 1 6790 18 1 1 1 54 ILE 18 A . 54 ILE a 1 6790 18 1 1 1 55 ASN 18 A . 55 ASN c 1 6790 18 1 1 1 56 VAL 18 A . 56 VAL d 1 6790 18 1 1 1 57 ASP 18 A . 57 ASP f 1 6790 18 1 1 1 58 GLU 18 A . 58 GLU k 1 6790 18 1 1 1 59 ASP 18 A . 59 ASP l 1 6790 18 1 1 1 60 LYS 18 A . 60 LYS m 1 6790 18 1 1 1 61 ALA 18 A . 61 ALA m 1 6790 18 1 1 1 62 GLN 18 A . 62 GLN m 1 6790 18 1 1 1 63 ASP 18 A . 63 ASP p 1 6790 18 1 1 1 64 ILE 18 A . 64 ILE m 1 6790 18 1 1 1 65 SER 18 A . 65 SER b 1 6790 18 1 1 1 66 THR 18 A . 66 THR f 1 6790 18 1 1 1 67 ILE 18 A . 67 ILE m 1 6790 18 1 1 1 68 GLN 18 A . 68 GLN l 1 6790 18 1 1 1 69 GLN 18 A . 69 GLN m 1 6790 18 1 1 1 70 ALA 18 A . 70 ALA m 1 6790 18 1 1 1 71 ALA 18 A . 71 ALA m 1 6790 18 1 1 1 72 ASP 18 A . 72 ASP m 1 6790 18 1 1 1 73 VAL 18 A . 73 VAL m 1 6790 18 1 1 1 74 ILE 18 A . 74 ILE m 1 6790 18 1 1 1 75 GLU 18 A . 75 GLU m 1 6790 18 1 1 1 76 GLY 18 A . 76 GLY m 1 6790 18 1 1 1 77 LEU 18 A . 77 LEU m 1 6790 18 1 1 1 78 LEU 18 A . 78 LEU m 1 6790 18 1 1 1 79 GLU 18 A . 79 GLU m 1 6790 18 1 1 1 80 LYS 18 A . 80 LYS g 1 6790 18 1 1 1 81 LYS 18 A . 81 LYS . 1 6790 18 1 1 1 82 ALA 18 A . 82 ALA . 1 6790 18 stop_ save_ save_PB_annotation_19 _PB_list.Sf_category PB_list _PB_list.ID 19 _PB_list.Query_ID db2fvf_1579#A _PB_list.Queried_date 2014-12-15 _PB_list.Input_file_name pdb2fvf.ent _PB_list.Output_file_name bmr6790_PB.str _PB_list.Electronic_address http://bmrbpub.protein.osaka-u.ac.jp/archive/pb/bmr6790_PB.str _PB_list.AA_seq_one_letter_code AKKETIDKVSDIVKEKLALGADVVVTADSEFSKLGADSLDTVEIVMNLEEEFGINVDEDKAQDISTIQQAADVIEGLLEKKA _PB_list.PB_seq_code zzklmmmmmmmmmmmnmnolmpccdfklcfklnopafklmmmmmmmmmmmnopaddfklmmmpmbfklmmmmmmmmmmmgzz _PB_list.PDB_ID 2FVF _PB_list.PDBX_exptl_method "SOLUTION NMR" _PB_list.PDBX_NMR_refine_method "Initial structure from torsion angle dynamics (in CYANA). Fatty acid and phosphopantetheine were added and docked using ambiguous distance restraints in XPLOR-NIH" _PB_list.Entry_ID 6790 loop_ _PB_char.Entity_assembly_ID _PB_char.Assembly_ID _PB_char.Entity_ID _PB_char.Comp_index_ID _PB_char.Comp_ID _PB_char.PDB_model_num _PB_char.PDB_strand_ID _PB_char.PDB_ins_code _PB_char.PDB_residue_no _PB_char.PDB_residue_name _PB_char.PB_code _PB_char.Align _PB_char.Entry_ID _PB_char.PB_list_ID 1 1 1 1 ALA 19 A . 1 ALA . 1 6790 19 1 1 1 2 LYS 19 A . 2 LYS . 1 6790 19 1 1 1 3 LYS 19 A . 3 LYS k 1 6790 19 1 1 1 4 GLU 19 A . 4 GLU l 1 6790 19 1 1 1 5 THR 19 A . 5 THR m 1 6790 19 1 1 1 6 ILE 19 A . 6 ILE m 1 6790 19 1 1 1 7 ASP 19 A . 7 ASP m 1 6790 19 1 1 1 8 LYS 19 A . 8 LYS m 1 6790 19 1 1 1 9 VAL 19 A . 9 VAL m 1 6790 19 1 1 1 10 SER 19 A . 10 SER m 1 6790 19 1 1 1 11 ASP 19 A . 11 ASP m 1 6790 19 1 1 1 12 ILE 19 A . 12 ILE m 1 6790 19 1 1 1 13 VAL 19 A . 13 VAL m 1 6790 19 1 1 1 14 LYS 19 A . 14 LYS m 1 6790 19 1 1 1 15 GLU 19 A . 15 GLU m 1 6790 19 1 1 1 16 LYS 19 A . 16 LYS n 1 6790 19 1 1 1 17 LEU 19 A . 17 LEU m 1 6790 19 1 1 1 18 ALA 19 A . 18 ALA n 1 6790 19 1 1 1 19 LEU 19 A . 19 LEU o 1 6790 19 1 1 1 20 GLY 19 A . 20 GLY l 1 6790 19 1 1 1 21 ALA 19 A . 21 ALA m 1 6790 19 1 1 1 22 ASP 19 A . 22 ASP p 1 6790 19 1 1 1 23 VAL 19 A . 23 VAL c 1 6790 19 1 1 1 24 VAL 19 A . 24 VAL c 1 6790 19 1 1 1 25 VAL 19 A . 25 VAL d 1 6790 19 1 1 1 26 THR 19 A . 26 THR f 1 6790 19 1 1 1 27 ALA 19 A . 27 ALA k 1 6790 19 1 1 1 28 ASP 19 A . 28 ASP l 1 6790 19 1 1 1 29 SER 19 A . 29 SER c 1 6790 19 1 1 1 30 GLU 19 A . 30 GLU f 1 6790 19 1 1 1 31 PHE 19 A . 31 PHE k 1 6790 19 1 1 1 32 SER 19 A . 32 SER l 1 6790 19 1 1 1 33 LYS 19 A . 33 LYS n 1 6790 19 1 1 1 34 LEU 19 A . 34 LEU o 1 6790 19 1 1 1 35 GLY 19 A . 35 GLY p 1 6790 19 1 1 1 36 ALA 19 A . 36 ALA a 1 6790 19 1 1 1 37 ASP 19 A . 37 ASP f 1 6790 19 1 1 1 38 SER 19 A . 38 SER k 1 6790 19 1 1 1 39 LEU 19 A . 39 LEU l 1 6790 19 1 1 1 40 ASP 19 A . 40 ASP m 1 6790 19 1 1 1 41 THR 19 A . 41 THR m 1 6790 19 1 1 1 42 VAL 19 A . 42 VAL m 1 6790 19 1 1 1 43 GLU 19 A . 43 GLU m 1 6790 19 1 1 1 44 ILE 19 A . 44 ILE m 1 6790 19 1 1 1 45 VAL 19 A . 45 VAL m 1 6790 19 1 1 1 46 MET 19 A . 46 MET m 1 6790 19 1 1 1 47 ASN 19 A . 47 ASN m 1 6790 19 1 1 1 48 LEU 19 A . 48 LEU m 1 6790 19 1 1 1 49 GLU 19 A . 49 GLU m 1 6790 19 1 1 1 50 GLU 19 A . 50 GLU m 1 6790 19 1 1 1 51 GLU 19 A . 51 GLU n 1 6790 19 1 1 1 52 PHE 19 A . 52 PHE o 1 6790 19 1 1 1 53 GLY 19 A . 53 GLY p 1 6790 19 1 1 1 54 ILE 19 A . 54 ILE a 1 6790 19 1 1 1 55 ASN 19 A . 55 ASN d 1 6790 19 1 1 1 56 VAL 19 A . 56 VAL d 1 6790 19 1 1 1 57 ASP 19 A . 57 ASP f 1 6790 19 1 1 1 58 GLU 19 A . 58 GLU k 1 6790 19 1 1 1 59 ASP 19 A . 59 ASP l 1 6790 19 1 1 1 60 LYS 19 A . 60 LYS m 1 6790 19 1 1 1 61 ALA 19 A . 61 ALA m 1 6790 19 1 1 1 62 GLN 19 A . 62 GLN m 1 6790 19 1 1 1 63 ASP 19 A . 63 ASP p 1 6790 19 1 1 1 64 ILE 19 A . 64 ILE m 1 6790 19 1 1 1 65 SER 19 A . 65 SER b 1 6790 19 1 1 1 66 THR 19 A . 66 THR f 1 6790 19 1 1 1 67 ILE 19 A . 67 ILE k 1 6790 19 1 1 1 68 GLN 19 A . 68 GLN l 1 6790 19 1 1 1 69 GLN 19 A . 69 GLN m 1 6790 19 1 1 1 70 ALA 19 A . 70 ALA m 1 6790 19 1 1 1 71 ALA 19 A . 71 ALA m 1 6790 19 1 1 1 72 ASP 19 A . 72 ASP m 1 6790 19 1 1 1 73 VAL 19 A . 73 VAL m 1 6790 19 1 1 1 74 ILE 19 A . 74 ILE m 1 6790 19 1 1 1 75 GLU 19 A . 75 GLU m 1 6790 19 1 1 1 76 GLY 19 A . 76 GLY m 1 6790 19 1 1 1 77 LEU 19 A . 77 LEU m 1 6790 19 1 1 1 78 LEU 19 A . 78 LEU m 1 6790 19 1 1 1 79 GLU 19 A . 79 GLU m 1 6790 19 1 1 1 80 LYS 19 A . 80 LYS g 1 6790 19 1 1 1 81 LYS 19 A . 81 LYS . 1 6790 19 1 1 1 82 ALA 19 A . 82 ALA . 1 6790 19 stop_ save_ save_PB_annotation_20 _PB_list.Sf_category PB_list _PB_list.ID 20 _PB_list.Query_ID db2fvf_1579#A _PB_list.Queried_date 2014-12-15 _PB_list.Input_file_name pdb2fvf.ent _PB_list.Output_file_name bmr6790_PB.str _PB_list.Electronic_address http://bmrbpub.protein.osaka-u.ac.jp/archive/pb/bmr6790_PB.str _PB_list.AA_seq_one_letter_code AKKETIDKVSDIVKEKLALGADVVVTADSEFSKLGADSLDTVEIVMNLEEEFGINVDEDKAQDISTIQQAADVIEGLLEKKA _PB_list.PB_seq_code zzklmmmmmmmmmmmnmnolmpccdfklcfklnopafklmmmmmmmmmmmnopacdfklmmmpmblmlmmmmmmmmmmnmzz _PB_list.PDB_ID 2FVF _PB_list.PDBX_exptl_method "SOLUTION NMR" _PB_list.PDBX_NMR_refine_method "Initial structure from torsion angle dynamics (in CYANA). Fatty acid and phosphopantetheine were added and docked using ambiguous distance restraints in XPLOR-NIH" _PB_list.Entry_ID 6790 loop_ _PB_char.Entity_assembly_ID _PB_char.Assembly_ID _PB_char.Entity_ID _PB_char.Comp_index_ID _PB_char.Comp_ID _PB_char.PDB_model_num _PB_char.PDB_strand_ID _PB_char.PDB_ins_code _PB_char.PDB_residue_no _PB_char.PDB_residue_name _PB_char.PB_code _PB_char.Align _PB_char.Entry_ID _PB_char.PB_list_ID 1 1 1 1 ALA 20 A . 1 ALA . 1 6790 20 1 1 1 2 LYS 20 A . 2 LYS . 1 6790 20 1 1 1 3 LYS 20 A . 3 LYS k 1 6790 20 1 1 1 4 GLU 20 A . 4 GLU l 1 6790 20 1 1 1 5 THR 20 A . 5 THR m 1 6790 20 1 1 1 6 ILE 20 A . 6 ILE m 1 6790 20 1 1 1 7 ASP 20 A . 7 ASP m 1 6790 20 1 1 1 8 LYS 20 A . 8 LYS m 1 6790 20 1 1 1 9 VAL 20 A . 9 VAL m 1 6790 20 1 1 1 10 SER 20 A . 10 SER m 1 6790 20 1 1 1 11 ASP 20 A . 11 ASP m 1 6790 20 1 1 1 12 ILE 20 A . 12 ILE m 1 6790 20 1 1 1 13 VAL 20 A . 13 VAL m 1 6790 20 1 1 1 14 LYS 20 A . 14 LYS m 1 6790 20 1 1 1 15 GLU 20 A . 15 GLU m 1 6790 20 1 1 1 16 LYS 20 A . 16 LYS n 1 6790 20 1 1 1 17 LEU 20 A . 17 LEU m 1 6790 20 1 1 1 18 ALA 20 A . 18 ALA n 1 6790 20 1 1 1 19 LEU 20 A . 19 LEU o 1 6790 20 1 1 1 20 GLY 20 A . 20 GLY l 1 6790 20 1 1 1 21 ALA 20 A . 21 ALA m 1 6790 20 1 1 1 22 ASP 20 A . 22 ASP p 1 6790 20 1 1 1 23 VAL 20 A . 23 VAL c 1 6790 20 1 1 1 24 VAL 20 A . 24 VAL c 1 6790 20 1 1 1 25 VAL 20 A . 25 VAL d 1 6790 20 1 1 1 26 THR 20 A . 26 THR f 1 6790 20 1 1 1 27 ALA 20 A . 27 ALA k 1 6790 20 1 1 1 28 ASP 20 A . 28 ASP l 1 6790 20 1 1 1 29 SER 20 A . 29 SER c 1 6790 20 1 1 1 30 GLU 20 A . 30 GLU f 1 6790 20 1 1 1 31 PHE 20 A . 31 PHE k 1 6790 20 1 1 1 32 SER 20 A . 32 SER l 1 6790 20 1 1 1 33 LYS 20 A . 33 LYS n 1 6790 20 1 1 1 34 LEU 20 A . 34 LEU o 1 6790 20 1 1 1 35 GLY 20 A . 35 GLY p 1 6790 20 1 1 1 36 ALA 20 A . 36 ALA a 1 6790 20 1 1 1 37 ASP 20 A . 37 ASP f 1 6790 20 1 1 1 38 SER 20 A . 38 SER k 1 6790 20 1 1 1 39 LEU 20 A . 39 LEU l 1 6790 20 1 1 1 40 ASP 20 A . 40 ASP m 1 6790 20 1 1 1 41 THR 20 A . 41 THR m 1 6790 20 1 1 1 42 VAL 20 A . 42 VAL m 1 6790 20 1 1 1 43 GLU 20 A . 43 GLU m 1 6790 20 1 1 1 44 ILE 20 A . 44 ILE m 1 6790 20 1 1 1 45 VAL 20 A . 45 VAL m 1 6790 20 1 1 1 46 MET 20 A . 46 MET m 1 6790 20 1 1 1 47 ASN 20 A . 47 ASN m 1 6790 20 1 1 1 48 LEU 20 A . 48 LEU m 1 6790 20 1 1 1 49 GLU 20 A . 49 GLU m 1 6790 20 1 1 1 50 GLU 20 A . 50 GLU m 1 6790 20 1 1 1 51 GLU 20 A . 51 GLU n 1 6790 20 1 1 1 52 PHE 20 A . 52 PHE o 1 6790 20 1 1 1 53 GLY 20 A . 53 GLY p 1 6790 20 1 1 1 54 ILE 20 A . 54 ILE a 1 6790 20 1 1 1 55 ASN 20 A . 55 ASN c 1 6790 20 1 1 1 56 VAL 20 A . 56 VAL d 1 6790 20 1 1 1 57 ASP 20 A . 57 ASP f 1 6790 20 1 1 1 58 GLU 20 A . 58 GLU k 1 6790 20 1 1 1 59 ASP 20 A . 59 ASP l 1 6790 20 1 1 1 60 LYS 20 A . 60 LYS m 1 6790 20 1 1 1 61 ALA 20 A . 61 ALA m 1 6790 20 1 1 1 62 GLN 20 A . 62 GLN m 1 6790 20 1 1 1 63 ASP 20 A . 63 ASP p 1 6790 20 1 1 1 64 ILE 20 A . 64 ILE m 1 6790 20 1 1 1 65 SER 20 A . 65 SER b 1 6790 20 1 1 1 66 THR 20 A . 66 THR l 1 6790 20 1 1 1 67 ILE 20 A . 67 ILE m 1 6790 20 1 1 1 68 GLN 20 A . 68 GLN l 1 6790 20 1 1 1 69 GLN 20 A . 69 GLN m 1 6790 20 1 1 1 70 ALA 20 A . 70 ALA m 1 6790 20 1 1 1 71 ALA 20 A . 71 ALA m 1 6790 20 1 1 1 72 ASP 20 A . 72 ASP m 1 6790 20 1 1 1 73 VAL 20 A . 73 VAL m 1 6790 20 1 1 1 74 ILE 20 A . 74 ILE m 1 6790 20 1 1 1 75 GLU 20 A . 75 GLU m 1 6790 20 1 1 1 76 GLY 20 A . 76 GLY m 1 6790 20 1 1 1 77 LEU 20 A . 77 LEU m 1 6790 20 1 1 1 78 LEU 20 A . 78 LEU m 1 6790 20 1 1 1 79 GLU 20 A . 79 GLU n 1 6790 20 1 1 1 80 LYS 20 A . 80 LYS m 1 6790 20 1 1 1 81 LYS 20 A . 81 LYS . 1 6790 20 1 1 1 82 ALA 20 A . 82 ALA . 1 6790 20 stop_ save_