1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Milbradt, A.G. Kerek, F. Moroder, L. Renner, C. http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic C3 H7 N O2 89.093 y ALANINE L-peptide linking C6 H15 N4 O2 1 175.209 y ARGININE L-peptide linking C4 H8 N2 O3 132.118 y ASPARAGINE L-peptide linking C4 H7 N O4 133.103 y ASPARTIC ACID L-peptide linking C3 H7 N O2 S 121.158 y CYSTEINE L-peptide linking C5 H10 N2 O3 146.144 y GLUTAMINE L-peptide linking C2 H5 N O2 75.067 y GLYCINE peptide linking C6 H10 N3 O2 1 156.162 y HISTIDINE L-peptide linking C6 H13 N O2 131.173 y ISOLEUCINE L-peptide linking C6 H13 N O2 131.173 y LEUCINE L-peptide linking C6 H15 N2 O2 1 147.195 y LYSINE L-peptide linking C9 H11 N O2 165.189 y PHENYLALANINE L-peptide linking C5 H9 N O2 115.130 y PROLINE L-peptide linking C3 H7 N O3 105.093 y SERINE L-peptide linking C4 H9 N O3 119.119 y THREONINE L-peptide linking C9 H11 N O3 181.189 y TYROSINE L-peptide linking C5 H11 N O2 117.146 y VALINE L-peptide linking US Biochemistry BICHAW 0033 0006-2960 42 2404 2411 10.1021/bi020628h 12600207 Structural Characterization of Hellethionins from Helleborus purpurascens 2003 10.2210/pdb1nbl/pdb pdb_00001nbl 1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 1 SINGLE WAVELENGTH M 1 1.0 4915.618 Hellethionin D 1 nat polymer no no KSCCRNTLARNCYNACRFTGGSQPTCGILCDCIHVTTTTCPSSHPS KSCCRNTLARNCYNACRFTGGSQPTCGILCDCIHVTTTTCPSSHPS A polypeptide(L) n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n Helleborus sample 171899 Helleborus purpurascens database_2 pdbx_nmr_software pdbx_struct_assembly pdbx_struct_oper_list repository Initial release Version format compliance Version format compliance Data collection Database references Derived calculations 1 0 2003-03-11 1 1 2008-04-28 1 2 2011-07-13 1 3 2022-02-23 _database_2.pdbx_DOI _database_2.pdbx_database_accession _pdbx_nmr_software.name SEQUENCE THERE WAS NO SUITABLE SEQUENCE DATABASE REFERENCE AT THE TIME OF PROCESSING. RCSB Y RCSB 2002-12-03 REL REL This structure was determined using standard 2D homonuclear techniques. structures with the lowest energy 100 20 2D NOESY 2D TOCSY DQF-COSY 2D NOESY 2D TOCSY DQF-COSY 2D NOESY 2D TOCSY pH 2.5 2.5 1 bar 293 K pH 2.5 2.5 1 bar 283 K pH 2.5 2.5 1 bar 303 K Structure is based on 577 NOE-derived constraints and 17 distance constraints from hydrogen bonds distance geometry simulated annealing molecular dynamics 4mM Hellethionin D; water pH 2.5; 90% H2O, 10% D2O 90% H2O, 10% D2O pH 2.5 bruker collection XwinNMR 3.0 bruker processing XwinNMR 3.0 Goddard data analysis Sparky 3.98 Accelrys structure solution DGII Accelrys structure solution Discover 2.98 Accelrys refinement Discover 2.98 750 Bruker DMX 500 Bruker DRX 400 Bruker AMX 600 Bruker DRX LYS 1 n 1 LYS 1 A SER 2 n 2 SER 2 A CYS 3 n 3 CYS 3 A CYS 4 n 4 CYS 4 A ARG 5 n 5 ARG 5 A ASN 6 n 6 ASN 6 A THR 7 n 7 THR 7 A LEU 8 n 8 LEU 8 A ALA 9 n 9 ALA 9 A ARG 10 n 10 ARG 10 A ASN 11 n 11 ASN 11 A CYS 12 n 12 CYS 12 A TYR 13 n 13 TYR 13 A ASN 14 n 14 ASN 14 A ALA 15 n 15 ALA 15 A CYS 16 n 16 CYS 16 A ARG 17 n 17 ARG 17 A PHE 18 n 18 PHE 18 A THR 19 n 19 THR 19 A GLY 20 n 20 GLY 20 A GLY 21 n 21 GLY 21 A SER 22 n 22 SER 22 A GLN 23 n 23 GLN 23 A PRO 24 n 24 PRO 24 A THR 25 n 25 THR 25 A CYS 26 n 26 CYS 26 A GLY 27 n 27 GLY 27 A ILE 28 n 28 ILE 28 A LEU 29 n 29 LEU 29 A CYS 30 n 30 CYS 30 A ASP 31 n 31 ASP 31 A CYS 32 n 32 CYS 32 A ILE 33 n 33 ILE 33 A HIS 34 n 34 HIS 34 A VAL 35 n 35 VAL 35 A THR 36 n 36 THR 36 A THR 37 n 37 THR 37 A THR 38 n 38 THR 38 A THR 39 n 39 THR 39 A CYS 40 n 40 CYS 40 A PRO 41 n 41 PRO 41 A SER 42 n 42 SER 42 A SER 43 n 43 SER 43 A HIS 44 n 44 HIS 44 A PRO 45 n 45 PRO 45 A SER 46 n 46 SER 46 A author_defined_assembly 1 monomeric 1.0000000000 0.0000000000 0.0000000000 0.0000000000 1.0000000000 0.0000000000 0.0000000000 0.0000000000 1.0000000000 1_555 x,y,z identity operation 0.0000000000 0.0000000000 0.0000000000 1 A A VAL THR 35 36 148.22 2 A A VAL THR 35 36 145.28 2 A A THR THR 37 38 140.95 3 A A VAL THR 35 36 145.65 4 A A VAL THR 35 36 145.43 5 A A VAL THR 35 36 145.82 6 A A VAL THR 35 36 147.25 7 A A VAL THR 35 36 146.31 8 A A VAL THR 35 36 146.12 9 A A VAL THR 35 36 147.10 9 A A THR THR 37 38 148.69 10 A A VAL THR 35 36 148.40 10 A A THR THR 37 38 145.50 11 A A VAL THR 35 36 145.79 12 A A VAL THR 35 36 148.76 12 A A THR THR 37 38 144.26 13 A A VAL THR 35 36 147.36 13 A A THR THR 37 38 146.85 14 A A VAL THR 35 36 146.76 15 A A VAL THR 35 36 147.25 16 A A VAL THR 35 36 145.41 17 A A VAL THR 35 36 145.74 18 A A VAL THR 35 36 147.00 19 A A VAL THR 35 36 147.75 19 A A THR THR 37 38 148.01 20 A A THR THR 37 38 132.05 6 9.10 1.50 110.90 120.00 A A A CA CB CG2 VAL VAL VAL 35 35 35 N 13 7.19 1.10 114.20 121.39 A A A CA CB SG CYS CYS CYS 32 32 32 N 15 7.12 1.10 114.20 121.32 A A A CA CB SG CYS CYS CYS 32 32 32 N 1 A A C OXT SER SER 46 46 0.135 0.019 1.229 1.364 N 2 A A C OXT SER SER 46 46 0.133 0.019 1.229 1.362 N 3 A A C OXT SER SER 46 46 0.135 0.019 1.229 1.364 N 4 A A C OXT SER SER 46 46 0.134 0.019 1.229 1.363 N 5 A A C OXT SER SER 46 46 0.134 0.019 1.229 1.363 N 6 A A C OXT SER SER 46 46 0.136 0.019 1.229 1.365 N 7 A A C OXT SER SER 46 46 0.134 0.019 1.229 1.363 N 8 A A C OXT SER SER 46 46 0.134 0.019 1.229 1.363 N 9 A A C OXT SER SER 46 46 0.135 0.019 1.229 1.364 N 10 A A C OXT SER SER 46 46 0.134 0.019 1.229 1.363 N 11 A A C OXT SER SER 46 46 0.134 0.019 1.229 1.363 N 12 A A C OXT SER SER 46 46 0.135 0.019 1.229 1.364 N 13 A A C OXT SER SER 46 46 0.136 0.019 1.229 1.365 N 14 A A C OXT SER SER 46 46 0.135 0.019 1.229 1.364 N 15 A A C OXT SER SER 46 46 0.137 0.019 1.229 1.366 N 16 A A C OXT SER SER 46 46 0.135 0.019 1.229 1.364 N 17 A A C OXT SER SER 46 46 0.135 0.019 1.229 1.364 N 18 A A C OXT SER SER 46 46 0.135 0.019 1.229 1.364 N 19 A A C OXT SER SER 46 46 0.137 0.019 1.229 1.366 N 20 A A C OXT SER SER 46 46 0.134 0.019 1.229 1.363 N 1 A THR 37 -65.25 -177.24 2 A THR 36 -111.43 55.15 2 A THR 37 -63.35 -174.37 3 A ILE 33 -101.61 -156.19 3 A THR 36 -109.11 50.72 5 A THR 19 -65.10 -178.93 5 A SER 22 -62.04 -140.00 5 A ILE 33 -123.21 -162.39 7 A ILE 28 -92.00 -61.43 8 A SER 22 -59.64 170.29 8 A ILE 28 -94.24 -60.71 8 A THR 36 -109.92 50.53 9 A SER 22 -68.11 -134.69 9 A ILE 33 -127.17 -163.91 9 A THR 37 -66.53 -179.97 10 A THR 19 -64.03 0.70 10 A ILE 33 -118.44 -159.51 10 A THR 37 -67.21 -179.53 11 A ILE 28 -91.70 -61.01 11 A ILE 33 -118.27 -160.46 12 A THR 37 -65.97 -178.67 13 A THR 19 -63.16 1.28 13 A THR 36 -117.70 50.10 13 A THR 37 -65.89 -179.16 14 A THR 36 -111.80 50.14 15 A THR 19 -63.50 0.51 15 A THR 37 -66.67 -177.73 16 A SER 22 -58.86 171.43 16 A THR 36 -108.55 50.81 17 A THR 19 -63.99 2.38 17 A ILE 28 -91.59 -61.98 17 A ILE 33 -114.73 -159.08 18 A THR 39 -125.53 -153.03 19 A ILE 33 -128.64 -164.10 19 A THR 37 -66.06 -176.23 20 A THR 19 -64.08 -179.04 20 A ILE 33 -113.80 -158.15 20 A THR 37 59.06 152.96 20 A THR 39 -175.39 -179.60 NMR Structure of Hellethionin D 1 N N A ASN 6 A ASN 6 HELX_P A THR 19 A THR 19 1 1 14 A SER 22 A SER 22 HELX_P A CYS 30 A CYS 30 1 2 9 disulf 2.046 A CYS 3 A SG CYS 3 1_555 A CYS 40 A SG CYS 40 1_555 disulf 2.046 A CYS 4 A SG CYS 4 1_555 A CYS 32 A SG CYS 32 1_555 disulf 2.052 A CYS 12 A SG CYS 12 1_555 A CYS 30 A SG CYS 30 1_555 disulf 2.041 A CYS 16 A SG CYS 16 1_555 A CYS 26 A SG CYS 26 1_555 TOXIN Gamma Thionins Helleborus, TOXIN 1NBL PDB 1 1NBL 1 46 1NBL 1 46 1NBL A 1 1 46