1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Pantoja-Uceda, D. Bruix, M. Shewry, P.R. Santoro, J. Rico, M. 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 C5 H9 N O4 147.129 y GLUTAMIC ACID 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 C5 H11 N O2 S 149.211 y METHIONINE 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 C11 H12 N2 O2 204.225 y TRYPTOPHAN 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 43 6976 6986 10.1021/bi0496900 15170335 Solution Structure of a Methionine-Rich 2S Albumin from Sunflower Seeds: Relationship to Its Allergenic and Emulsifying Properties. 2004 10.2210/pdb1s6d/pdb pdb_00001s6d 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 12169.410 Albumin 8 1 nat polymer Methionine-rich 2S protein, SFA8 no no PYGRGRTESGCYQQMEEAEMLNHCGMYLMKNLGERSQVSPRMREEDHKQLCCMQLKNLDEKCMCPAIMMMLNEPMWIRMR DQVMSMAHNLPIECNLMSQPCQM PYGRGRTESGCYQQMEEAEMLNHCGMYLMKNLGERSQVSPRMREEDHKQLCCMQLKNLDEKCMCPAIMMMLNEPMWIRMR DQVMSMAHNLPIECNLMSQPCQM 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 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 n n n n n n n n n n n common sunflower Helianthus sample 4232 Helianthus annuus database_2 pdbx_nmr_software pdbx_nmr_spectrometer pdbx_struct_assembly pdbx_struct_oper_list repository Initial release Version format compliance Version format compliance Data collection Database references Derived calculations 1 0 2004-06-29 1 1 2008-04-29 1 2 2011-07-13 1 3 2022-03-02 _database_2.pdbx_DOI _database_2.pdbx_database_accession _pdbx_nmr_software.name _pdbx_nmr_spectrometer.model chemical shifts RCSB Y RCSB 2004-01-23 REL REL The submitted conformer models are the 20 structures with the lowest target function. 50 20 2D NOESY 2D COSY 2D TOCSY 2D NOESY 2D COSY 2D TOCSY 3.0 308 K simulated annealing combined with molecular dynamics in torsion angle space followed by a final minimization. 1.1mM SFA8 unlabeled ;10 mM phosphate buffer ; TSP 95% H2O/5% D2O 1.1mM SFA8 unlabeled ;10 mM phosphate buffer ; TSP 100% D2O BRUKER processing XwinNMR Bartels data analysis XEASY Guntert, P. structure solution DYANA 1.5 Case refinement Amber 7 600 Bruker AVANCE 800 Bruker AVANCE PRO 1 n 1 PRO 1 A TYR 2 n 2 TYR 2 A GLY 3 n 3 GLY 3 A ARG 4 n 4 ARG 4 A GLY 5 n 5 GLY 5 A ARG 6 n 6 ARG 6 A THR 7 n 7 THR 7 A GLU 8 n 8 GLU 8 A SER 9 n 9 SER 9 A GLY 10 n 10 GLY 10 A CYS 11 n 11 CYS 11 A TYR 12 n 12 TYR 12 A GLN 13 n 13 GLN 13 A GLN 14 n 14 GLN 14 A MET 15 n 15 MET 15 A GLU 16 n 16 GLU 16 A GLU 17 n 17 GLU 17 A ALA 18 n 18 ALA 18 A GLU 19 n 19 GLU 19 A MET 20 n 20 MET 20 A LEU 21 n 21 LEU 21 A ASN 22 n 22 ASN 22 A HIS 23 n 23 HIS 23 A CYS 24 n 24 CYS 24 A GLY 25 n 25 GLY 25 A MET 26 n 26 MET 26 A TYR 27 n 27 TYR 27 A LEU 28 n 28 LEU 28 A MET 29 n 29 MET 29 A LYS 30 n 30 LYS 30 A ASN 31 n 31 ASN 31 A LEU 32 n 32 LEU 32 A GLY 33 n 33 GLY 33 A GLU 34 n 34 GLU 34 A ARG 35 n 35 ARG 35 A SER 36 n 36 SER 36 A GLN 37 n 37 GLN 37 A VAL 38 n 38 VAL 38 A SER 39 n 39 SER 39 A PRO 40 n 40 PRO 40 A ARG 41 n 41 ARG 41 A MET 42 n 42 MET 42 A ARG 43 n 43 ARG 43 A GLU 44 n 44 GLU 44 A GLU 45 n 45 GLU 45 A ASP 46 n 46 ASP 46 A HIS 47 n 47 HIS 47 A LYS 48 n 48 LYS 48 A GLN 49 n 49 GLN 49 A LEU 50 n 50 LEU 50 A CYS 51 n 51 CYS 51 A CYS 52 n 52 CYS 52 A MET 53 n 53 MET 53 A GLN 54 n 54 GLN 54 A LEU 55 n 55 LEU 55 A LYS 56 n 56 LYS 56 A ASN 57 n 57 ASN 57 A LEU 58 n 58 LEU 58 A ASP 59 n 59 ASP 59 A GLU 60 n 60 GLU 60 A LYS 61 n 61 LYS 61 A CYS 62 n 62 CYS 62 A MET 63 n 63 MET 63 A CYS 64 n 64 CYS 64 A PRO 65 n 65 PRO 65 A ALA 66 n 66 ALA 66 A ILE 67 n 67 ILE 67 A MET 68 n 68 MET 68 A MET 69 n 69 MET 69 A MET 70 n 70 MET 70 A LEU 71 n 71 LEU 71 A ASN 72 n 72 ASN 72 A GLU 73 n 73 GLU 73 A PRO 74 n 74 PRO 74 A MET 75 n 75 MET 75 A TRP 76 n 76 TRP 76 A ILE 77 n 77 ILE 77 A ARG 78 n 78 ARG 78 A MET 79 n 79 MET 79 A ARG 80 n 80 ARG 80 A ASP 81 n 81 ASP 81 A GLN 82 n 82 GLN 82 A VAL 83 n 83 VAL 83 A MET 84 n 84 MET 84 A SER 85 n 85 SER 85 A MET 86 n 86 MET 86 A ALA 87 n 87 ALA 87 A HIS 88 n 88 HIS 88 A ASN 89 n 89 ASN 89 A LEU 90 n 90 LEU 90 A PRO 91 n 91 PRO 91 A ILE 92 n 92 ILE 92 A GLU 93 n 93 GLU 93 A CYS 94 n 94 CYS 94 A ASN 95 n 95 ASN 95 A LEU 96 n 96 LEU 96 A MET 97 n 97 MET 97 A SER 98 n 98 SER 98 A GLN 99 n 99 GLN 99 A PRO 100 n 100 PRO 100 A CYS 101 n 101 CYS 101 A GLN 102 n 102 GLN 102 A MET 103 n 103 MET 103 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 HD21 HD12 LEU LEU 55 96 1.04 1 A A HD23 HD13 LEU LEU 21 55 1.29 2 A A HD21 HD12 LEU LEU 55 96 1.16 5 A A HD21 HD12 LEU LEU 55 96 1.09 5 A A HE3 HD11 MET LEU 20 58 1.21 5 A A HD12 HG11 LEU VAL 32 83 1.22 6 A A HD21 HD12 LEU LEU 55 96 1.12 6 A A HE1 HD23 MET LEU 70 71 1.17 6 A A HA HD11 PRO LEU 91 96 1.28 8 A A HE2 HD11 MET LEU 20 21 1.13 8 A A HD21 HD12 LEU LEU 55 96 1.29 11 A A HD21 HD12 LEU LEU 55 96 1.06 11 A A HA HD11 PRO LEU 91 96 1.26 12 A A HD21 HD12 LEU LEU 55 96 1.01 12 A A HE1 HD23 MET LEU 70 71 1.14 12 A A HA HD11 PRO LEU 91 96 1.24 12 A A HE3 HB3 MET ALA 70 87 1.27 13 A A HD21 HD12 LEU LEU 55 96 1.27 17 A A O H MET MET 84 86 1.58 17 A A O H ARG MET 80 84 1.59 18 A A O H MET MET 84 86 1.59 19 A A HE2 H MET LEU 20 55 1.20 19 A A HE1 HD23 MET LEU 70 71 1.23 19 A A HB3 HE2 LEU MET 21 70 1.34 20 A A HD12 HD12 LEU LEU 55 96 1.23 20 A A HD23 HB2 LEU ALA 71 87 1.32 18 A MET 70 10.34 6 A ASN 22 0.076 SIDE CHAIN 2 8.55 1.20 103.80 112.35 A A A N CD CG PRO PRO PRO 1 1 1 N 2 7.98 1.10 114.20 122.18 A A A CA CB SG CYS CYS CYS 11 11 11 N 2 3.01 0.50 120.30 123.31 A A A NE CZ NH1 ARG ARG ARG 80 80 80 N 8 -8.61 1.40 111.50 102.89 A A A CA N CD PRO PRO PRO 1 1 1 N 8 7.25 1.20 103.30 110.55 A A A N CA CB PRO PRO PRO 1 1 1 N 8 7.71 1.20 103.80 111.51 A A A N CD CG PRO PRO PRO 1 1 1 N 9 -11.24 1.40 111.50 100.26 A A A CA N CD PRO PRO PRO 1 1 1 N 9 7.65 1.20 103.30 110.95 A A A N CA CB PRO PRO PRO 1 1 1 N 9 10.14 1.20 103.80 113.94 A A A N CD CG PRO PRO PRO 1 1 1 N 11 7.17 1.10 114.20 121.37 A A A CA CB SG CYS CYS CYS 101 101 101 N 13 7.46 1.20 103.80 111.26 A A A N CD CG PRO PRO PRO 1 1 1 N 14 7.29 1.20 103.80 111.09 A A A N CD CG PRO PRO PRO 1 1 1 N 15 9.52 1.10 114.20 123.72 A A A CA CB SG CYS CYS CYS 11 11 11 N 15 9.20 1.10 114.20 123.40 A A A CA CB SG CYS CYS CYS 62 62 62 N 15 3.34 0.50 120.30 123.64 A A A NE CZ NH1 ARG ARG ARG 80 80 80 N 16 7.72 1.20 103.80 111.52 A A A N CD CG PRO PRO PRO 1 1 1 N 19 -10.56 1.40 111.50 100.94 A A A CA N CD PRO PRO PRO 1 1 1 N 19 8.27 1.20 103.30 111.57 A A A N CA CB PRO PRO PRO 1 1 1 N 19 9.47 1.20 103.80 113.27 A A A N CD CG PRO PRO PRO 1 1 1 N 19 8.81 1.20 123.30 132.11 A A A OE1 CD OE2 GLU GLU GLU 19 19 19 N 1 A GLU 19 -39.86 92.55 1 A LEU 21 -103.65 51.89 1 A ARG 35 -56.69 93.92 1 A GLN 37 -37.42 119.76 1 A PRO 40 -73.92 -164.73 1 A ARG 41 -49.97 -84.42 1 A ARG 43 166.55 128.18 1 A GLU 44 169.23 114.84 1 A GLU 45 -62.93 -175.43 1 A HIS 47 -114.11 78.56 1 A MET 53 -74.14 -79.95 1 A MET 63 -107.99 58.57 1 A CYS 64 171.79 -58.24 1 A PRO 74 -72.89 41.08 1 A MET 75 -169.49 26.12 1 A TRP 76 -158.53 89.47 1 A ILE 77 -130.14 -79.75 1 A ASN 95 82.82 25.05 1 A GLN 99 -157.05 54.98 1 A PRO 100 -74.06 -70.69 2 A TYR 2 -156.31 -49.61 2 A GLU 19 -29.90 84.84 2 A LEU 21 -91.46 43.44 2 A ARG 35 -170.69 32.44 2 A ARG 41 -162.24 83.58 2 A GLU 45 -69.28 -171.52 2 A LYS 48 171.28 -62.66 2 A MET 53 -69.23 -77.19 2 A LEU 58 -67.75 -176.00 2 A CYS 64 158.29 -63.88 2 A PRO 74 -69.84 34.75 2 A MET 75 -154.34 19.04 2 A TRP 76 -156.28 84.28 2 A ILE 77 -108.49 -120.45 2 A ASP 81 -38.64 -35.12 2 A GLN 99 -159.09 51.07 3 A TYR 2 -176.14 -55.88 3 A GLU 8 -47.15 164.71 3 A GLU 19 -7.28 80.52 3 A GLN 37 -44.42 154.38 3 A MET 42 -39.07 -30.29 3 A ARG 43 175.90 96.24 3 A GLU 44 -137.58 -53.40 3 A HIS 47 -98.41 38.36 3 A MET 53 -82.66 -70.45 3 A LEU 58 -67.79 -170.63 3 A CYS 64 171.72 -58.59 3 A PRO 74 -75.00 48.73 3 A MET 75 -165.82 23.48 3 A TRP 76 -160.95 83.44 3 A ILE 77 -117.90 -132.19 3 A ASN 95 82.25 24.21 3 A SER 98 -33.56 -71.25 3 A GLN 99 -157.16 54.01 4 A TYR 2 -154.87 25.57 4 A ARG 6 -179.19 146.48 4 A GLU 8 -63.56 -178.07 4 A SER 9 -57.84 -172.03 4 A GLU 19 -31.86 80.47 4 A GLU 34 -57.75 89.45 4 A SER 36 -113.14 74.44 4 A VAL 38 -50.21 102.44 4 A SER 39 -174.49 82.60 4 A ARG 41 -161.37 82.41 4 A MET 42 -38.33 106.77 4 A ARG 43 -174.16 119.05 4 A LYS 48 166.25 -28.14 4 A MET 53 -71.09 -77.63 4 A LEU 58 -69.37 -173.97 4 A CYS 64 170.87 -62.56 4 A PRO 74 -68.58 34.88 4 A MET 75 -159.13 21.11 4 A TRP 76 -156.53 84.81 4 A ILE 77 -124.00 -97.85 4 A GLN 99 -156.46 51.82 5 A ARG 4 -38.28 129.13 5 A ARG 6 -61.44 -177.81 5 A GLU 8 -60.47 -147.09 5 A SER 9 -39.20 136.64 5 A GLU 19 -69.49 61.05 5 A GLU 34 -140.36 -151.33 5 A PRO 40 -73.39 -163.49 5 A ARG 41 -163.68 84.99 5 A GLU 44 -153.24 -55.44 5 A LYS 48 -173.87 -78.14 5 A MET 53 -89.50 -70.30 5 A LEU 58 -68.89 -89.09 5 A ASP 59 165.45 150.65 5 A MET 63 -104.61 59.70 5 A CYS 64 171.17 -55.90 5 A PRO 74 -72.08 43.21 5 A MET 75 -170.72 26.79 5 A TRP 76 -165.91 67.23 5 A ILE 77 -97.97 -103.01 5 A ASP 81 -39.08 -29.34 5 A ASN 95 83.15 24.87 5 A SER 98 -34.18 -71.79 5 A GLN 99 -158.60 51.92 6 A TYR 2 -160.81 51.22 6 A ARG 6 -177.55 115.32 6 A GLU 8 -80.99 -151.09 6 A SER 9 -65.64 -168.16 6 A GLU 19 -42.94 92.95 6 A ASN 22 -134.60 -42.05 6 A GLU 34 -47.08 90.51 6 A GLN 37 -177.02 132.72 6 A SER 39 -161.05 85.08 6 A PRO 40 -72.54 -168.03 6 A ARG 41 -157.16 -65.13 6 A GLU 45 -33.45 104.77 6 A ASP 46 -41.19 159.10 6 A HIS 47 -49.37 152.09 6 A LYS 48 -171.37 -72.43 6 A MET 53 -68.55 -78.17 6 A CYS 64 170.58 -59.12 6 A ILE 67 -38.90 -38.73 6 A PRO 74 -71.03 39.79 6 A MET 75 -167.41 25.73 6 A TRP 76 -151.26 69.80 6 A ILE 77 -101.41 -118.60 6 A ASN 95 84.14 25.21 6 A SER 98 -32.46 -72.95 6 A GLN 99 -153.88 53.69 6 A PRO 100 -73.86 -74.18 7 A GLU 19 -65.47 73.17 7 A ARG 35 -176.02 -71.19 7 A SER 36 -175.74 -61.85 7 A GLN 37 -164.50 68.90 7 A SER 39 -48.96 164.96 7 A PRO 40 -73.83 -165.98 7 A ARG 41 -77.42 48.73 7 A LYS 48 172.00 -32.53 7 A LEU 58 -63.58 -173.85 7 A CYS 64 172.75 -59.91 7 A PRO 74 -73.30 42.23 7 A MET 75 -175.30 32.14 7 A ILE 77 -119.54 -140.17 7 A GLN 82 -80.06 -81.04 7 A VAL 83 -24.51 -50.85 7 A SER 85 -80.99 39.64 7 A MET 86 -151.75 -45.63 7 A ASN 95 83.61 24.15 7 A GLN 99 -157.97 54.64 8 A GLU 8 -72.83 -151.62 8 A SER 9 -60.96 -167.67 8 A GLU 19 -41.64 90.39 8 A GLN 37 -109.40 75.18 8 A ARG 41 -44.51 -72.71 8 A LYS 48 166.15 -77.62 8 A MET 63 -114.34 56.70 8 A CYS 64 175.92 -58.98 8 A GLU 73 -56.69 176.10 8 A PRO 74 -71.70 35.53 8 A MET 75 -154.77 20.69 8 A TRP 76 -154.94 88.22 8 A ILE 77 -109.19 -123.57 8 A ASN 95 84.04 22.49 8 A GLN 99 -155.67 53.59 9 A TYR 2 -155.12 17.95 9 A ARG 6 -60.08 -179.99 9 A SER 9 -55.89 -174.09 9 A GLU 19 -43.43 88.88 9 A HIS 23 -127.75 -61.61 9 A GLU 34 -60.75 89.32 9 A PRO 40 -72.54 -166.97 9 A ARG 41 -158.10 89.93 9 A ASP 46 -156.88 17.72 9 A LYS 48 171.09 -61.16 9 A MET 63 -104.99 66.68 9 A CYS 64 159.48 -59.72 9 A PRO 74 -70.76 40.23 9 A MET 75 -168.32 26.89 9 A ILE 77 -133.56 -95.52 9 A SER 98 -35.49 -70.10 9 A GLN 99 -155.87 53.62 10 A TYR 2 -177.37 77.00 10 A ARG 6 -176.04 141.53 10 A GLU 8 -55.58 -170.80 10 A GLU 19 -43.26 93.80 10 A GLU 34 -145.33 -155.61 10 A ARG 35 169.36 -64.20 10 A SER 39 -177.50 79.75 10 A ARG 41 -48.70 -73.87 10 A ARG 43 -165.25 110.61 10 A GLU 45 -119.60 -153.27 10 A LYS 48 176.77 -33.99 10 A MET 53 -79.06 -79.75 10 A CYS 64 171.08 -56.99 10 A LEU 71 -96.53 32.48 10 A MET 75 170.29 38.52 10 A TRP 76 -156.22 71.71 10 A ILE 77 -108.17 -137.44 10 A ASP 81 -24.80 -51.99 10 A GLN 82 -82.19 -82.70 10 A VAL 83 -24.35 -50.52 10 A SER 85 -86.24 41.67 10 A MET 86 -151.18 -41.14 10 A ASN 95 83.67 26.87 10 A SER 98 -34.59 -71.29 10 A GLN 99 -157.99 53.90 10 A PRO 100 -72.42 -70.46 11 A TYR 2 -170.05 -38.54 11 A SER 9 -56.68 -167.47 11 A GLU 19 -40.71 93.78 11 A LEU 21 -92.43 39.31 11 A GLU 34 -114.31 -155.40 11 A MET 42 -146.75 -55.27 11 A ARG 43 172.67 -38.73 11 A GLU 45 -161.76 84.86 11 A ASP 46 -175.30 133.78 11 A LYS 48 166.02 -65.78 11 A LEU 58 -66.54 -169.17 11 A CYS 64 173.29 -58.31 11 A PRO 74 -73.76 40.84 11 A MET 75 -165.89 19.83 11 A ILE 77 -130.00 -82.52 11 A ASN 95 93.49 31.29 11 A SER 98 -33.72 -73.02 11 A GLN 99 -151.09 52.27 12 A ARG 6 -58.94 179.80 12 A GLU 8 -174.60 -32.39 12 A SER 9 -53.93 178.00 12 A GLU 19 -41.19 92.32 12 A ASN 22 -133.40 -43.16 12 A SER 36 173.55 162.37 12 A GLN 37 -172.59 68.04 12 A VAL 38 -171.49 146.65 12 A SER 39 -38.53 98.31 12 A ARG 41 -48.85 -71.89 12 A ARG 43 -154.96 82.62 12 A ASP 46 -160.40 94.22 12 A LYS 48 174.57 -33.04 12 A CYS 64 -171.37 -59.89 12 A GLU 73 -57.13 178.24 12 A PRO 74 -72.41 38.07 12 A MET 75 -163.22 25.53 12 A TRP 76 -152.25 89.43 12 A ILE 77 -113.67 -122.61 12 A ASN 95 82.79 27.39 12 A SER 98 -33.04 -73.25 12 A GLN 99 -150.44 49.39 12 A PRO 100 -73.70 -90.07 12 A CYS 101 -61.92 -176.79 13 A SER 9 -108.88 -167.27 13 A ALA 18 -145.79 52.75 13 A GLU 19 -47.01 90.72 13 A GLU 34 -117.61 74.00 13 A SER 36 -176.39 143.16 13 A SER 39 -119.14 76.49 13 A GLU 45 178.68 167.53 13 A LYS 48 163.22 -44.20 13 A GLN 49 -156.44 25.96 13 A CYS 64 155.74 -59.33 13 A PRO 74 -72.43 46.84 13 A MET 75 -170.54 23.12 13 A TRP 76 -157.16 73.46 13 A ILE 77 -103.25 -114.70 13 A MET 84 -76.53 -74.03 13 A ASN 95 82.29 25.99 13 A SER 98 -37.36 -70.52 13 A GLN 99 -156.22 54.53 14 A GLU 8 -58.42 -176.43 14 A GLU 19 -26.35 87.98 14 A SER 36 174.23 115.26 14 A VAL 38 -173.30 146.90 14 A ARG 41 -162.91 87.02 14 A MET 42 -147.14 -67.42 14 A LYS 48 163.91 -68.91 14 A MET 53 -69.51 -76.60 14 A LEU 58 -67.95 -170.98 14 A CYS 64 170.32 -59.08 14 A PRO 74 -69.79 46.35 14 A MET 75 -166.76 26.16 14 A TRP 76 -160.87 91.16 14 A ILE 77 -123.02 -132.03 14 A GLN 82 -68.49 -70.42 14 A SER 85 -83.40 38.75 14 A MET 86 -146.97 -42.54 14 A ASN 95 82.65 25.13 14 A SER 98 -34.90 -71.10 14 A GLN 99 -156.32 54.25 15 A GLU 19 -26.43 78.39 15 A ARG 43 179.09 143.50 15 A GLU 45 157.26 156.13 15 A LYS 48 -172.67 -49.28 15 A MET 53 -78.96 -78.37 15 A CYS 64 165.76 -65.02 15 A PRO 74 -64.49 19.81 15 A MET 75 -140.16 11.80 15 A TRP 76 -154.87 80.43 15 A ILE 77 -110.49 -83.16 15 A ALA 87 -77.54 22.90 15 A GLN 99 -160.61 56.58 16 A CYS 11 -44.09 -77.43 16 A GLU 19 -39.46 88.66 16 A GLU 34 -149.22 51.50 16 A PRO 40 -71.05 -167.02 16 A ARG 41 -157.90 -65.28 16 A ARG 43 -171.29 90.34 16 A ASP 46 -65.98 -176.41 16 A LYS 48 -178.92 -37.43 16 A CYS 64 158.47 -61.52 16 A PRO 74 -72.11 40.50 16 A MET 75 -164.34 22.64 16 A TRP 76 -156.27 85.77 16 A ILE 77 -114.31 -139.37 16 A ASN 95 87.85 41.61 16 A MET 97 -140.73 28.19 16 A GLN 99 -157.17 52.71 16 A PRO 100 -73.61 -80.22 17 A TYR 2 -142.24 -45.64 17 A THR 7 -144.45 -159.33 17 A CYS 11 -61.46 -71.48 17 A GLU 19 -35.33 90.81 17 A GLU 34 -92.38 55.33 17 A ARG 35 -136.18 -55.75 17 A ARG 43 163.57 -29.39 17 A GLU 44 -42.27 161.15 17 A GLU 45 -49.05 175.28 17 A LYS 48 -160.03 -65.01 17 A CYS 64 169.75 -58.29 17 A PRO 74 -72.30 44.27 17 A MET 75 -175.09 27.07 17 A TRP 76 -160.50 89.58 17 A ILE 77 -133.10 -101.93 17 A ASP 81 -25.94 -59.89 17 A GLN 82 -68.28 -76.97 17 A VAL 83 -29.33 -41.64 17 A MET 84 -37.69 -75.95 17 A SER 85 -68.28 43.98 17 A MET 86 -157.52 -38.63 17 A ASN 95 87.64 22.60 17 A SER 98 -32.68 -71.03 17 A GLN 99 -159.31 55.57 18 A TYR 2 -142.34 -45.76 18 A THR 7 -144.91 -159.60 18 A CYS 11 -62.20 -70.86 18 A GLU 19 -35.38 91.14 18 A GLU 34 -92.28 55.00 18 A ARG 35 -135.87 -56.03 18 A ARG 43 163.13 -29.33 18 A GLU 44 -42.72 161.34 18 A GLU 45 -49.26 174.86 18 A LYS 48 -160.04 -64.12 18 A CYS 64 169.30 -58.66 18 A PRO 74 -72.07 44.29 18 A MET 75 -174.82 26.21 18 A TRP 76 -159.85 89.46 18 A ILE 77 -133.80 -101.90 18 A ASP 81 -25.52 -58.97 18 A GLN 82 -69.49 -76.63 18 A VAL 83 -29.14 -42.13 18 A MET 84 -37.05 -76.80 18 A SER 85 -67.83 43.97 18 A MET 86 -157.97 -38.50 18 A ASN 95 87.73 22.34 18 A SER 98 -32.66 -71.21 18 A GLN 99 -158.67 56.07 19 A ARG 6 -158.20 88.38 19 A GLU 19 -41.85 89.98 19 A SER 36 -176.05 -61.44 19 A MET 42 -153.16 -53.80 19 A ARG 43 170.41 160.92 19 A GLU 45 -140.47 -57.54 19 A LYS 48 -161.51 -48.56 19 A MET 53 -53.07 -70.47 19 A CYS 64 164.80 -60.05 19 A MET 68 -52.04 -71.62 19 A PRO 74 -70.92 35.51 19 A MET 75 -152.98 17.10 19 A TRP 76 -154.20 87.66 19 A ILE 77 -133.21 -83.03 19 A ASN 95 84.20 24.03 19 A SER 98 -34.90 -72.36 19 A GLN 99 -153.44 55.13 20 A GLU 8 -49.56 179.63 20 A GLU 19 -48.69 93.06 20 A MET 29 -69.26 2.53 20 A GLN 37 -175.44 -159.58 20 A VAL 38 -56.55 -179.20 20 A PRO 40 -72.11 -166.26 20 A ARG 41 -160.15 87.21 20 A MET 42 -41.36 155.12 20 A GLU 44 -166.62 73.82 20 A ASP 46 -177.25 91.41 20 A LYS 48 -176.64 -55.48 20 A LEU 58 -59.45 -173.26 20 A CYS 64 160.26 -60.62 20 A ILE 77 -109.66 -134.46 20 A ASP 81 -22.71 -59.26 20 A GLN 82 -68.26 -73.84 20 A VAL 83 -32.59 -38.57 20 A MET 84 -38.92 -31.49 20 A SER 85 -88.94 41.96 20 A MET 86 -155.65 -46.09 20 A CYS 94 -85.37 -91.48 20 A ASN 95 174.30 31.70 20 A LEU 96 -90.35 -63.91 20 A SER 98 -38.15 -70.09 20 A GLN 99 -158.29 53.29 Structure in solution of a methionine-rich 2S Albumin protein from Sunflower Seed 1 N N A GLY 10 A GLY 10 HELX_P A ALA 18 A ALA 18 1 1 9 A ASN 22 A ASN 22 HELX_P A MET 29 A MET 29 1 2 8 A LYS 48 A LYS 48 HELX_P A LEU 58 A LEU 58 1 3 11 A ASP 59 A ASP 59 HELX_P A MET 63 A MET 63 5 4 5 A CYS 64 A CYS 64 HELX_P A LEU 71 A LEU 71 1 5 8 A MET 79 A MET 79 HELX_P A CYS 94 A CYS 94 1 6 16 disulf 2.024 A CYS 11 A SG CYS 11 1_555 A CYS 62 A SG CYS 62 1_555 disulf 2.043 A CYS 24 A SG CYS 24 1_555 A CYS 51 A SG CYS 51 1_555 disulf 2.055 A CYS 52 A SG CYS 52 1_555 A CYS 94 A SG CYS 94 1_555 disulf 2.043 A CYS 64 A SG CYS 64 1_555 A CYS 101 A SG CYS 101 1_555 PLANT PROTEIN ALL HELIX, FOLDED LEAF, RIGHT-HANDED SUPERHELIX, DISULPHIDE RICH, PLANT PROTEIN 2SS8_HELAN UNP 1 39 P23110 PYGRGRTESGCYQQMEEAEMLNHCGMYLMKNLGERSQVSPRMREEDHKQLCCMQLKNLDEKCMCPAIMMMLNEPMWIRMR DQVMSMAHNLPIECNLMSQPCQM 39 141 1S6D 1 103 P23110 A 1 1 103