1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Woestenenk, E.A. Gongadze, G.M. Shcherbakov, D.V. Rak, A.V. Garber, M.B. Hard, T. Berglund, H. 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 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 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 UK Biochem.J. BIJOAK 0043 0264-6021 363 553 561 10.1042/0264-6021:3630553 11964156 The solution structure of ribosomal protein L18 from Thermus thermophilus reveals a conserved RNA-binding fold. 2002 10.2210/pdb1ily/pdb pdb_00001ily 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 9869.507 RIBOSOMAL PROTEIN L18 1 man polymer no no RLRLSVFRSLKHIYAQIIDDEKGVTLVSASSLALKLKGNKTEVARQVGRALAEKALALGIKQVAFDRGPYKYHGRVKALA EGAREGGLEF RLRLSVFRSLKHIYAQIIDDEKGVTLVSASSLALKLKGNKTEVARQVGRALAEKALALGIKQVAFDRGPYKYHGRVKALA EGAREGGLEF 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 Thermus Escherichia Escherichia coli sample RL18 274 RIBOSOME Thermus thermophilus 469008 Escherichia coli BL21(DE3) BL21(DE3) plasmid pET11c 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 2002-05-01 1 1 2008-04-27 1 2 2011-07-13 1 3 2022-02-23 _database_2.pdbx_DOI _database_2.pdbx_database_accession _pdbx_nmr_software.name _pdbx_nmr_spectrometer.model RCSB Y RCSB 2001-05-09 REL structures with the lowest energy 50 27 3D_13C-separated_NOESY 2D NOESY 3D_15N-separated_NOESY 50 mM KH2PO4, 200 mM LiCl 5.9 1 atm 303 K structures are based on 1925 NOE-derived distance restraints, 125 backbone dihedral angle restraints, 12 chi-1 angle restraints, 68 distance restraints from hydrogen bonds simulated annealing, torsion angle dynamics 1 closest to the average 0.8 mM L18 U-15N,13C; 50 mM phosphate buffer; 200 mM LiCl 90% H2O/10% D2O 1.3 mM L18 U-15N; 50 mM phosphate buffer; 200 mM LiCl 90% H2O/10% D2O Bruker collection XwinNMR Delaglio processing NMRPipe Kraulis data analysis ANSIG 3.3 Helgstrand data analysis ANSIG for Windows Brunger structure solution CNS 1.0 Brunger refinement CNS 1.0 600 Bruker AVANCE 800 Varian INOVA 500 Bruker AVANCE 700 Bruker AVANCE ARG 22 n 1 ARG 22 A LEU 23 n 2 LEU 23 A ARG 24 n 3 ARG 24 A LEU 25 n 4 LEU 25 A SER 26 n 5 SER 26 A VAL 27 n 6 VAL 27 A PHE 28 n 7 PHE 28 A ARG 29 n 8 ARG 29 A SER 30 n 9 SER 30 A LEU 31 n 10 LEU 31 A LYS 32 n 11 LYS 32 A HIS 33 n 12 HIS 33 A ILE 34 n 13 ILE 34 A TYR 35 n 14 TYR 35 A ALA 36 n 15 ALA 36 A GLN 37 n 16 GLN 37 A ILE 38 n 17 ILE 38 A ILE 39 n 18 ILE 39 A ASP 40 n 19 ASP 40 A ASP 41 n 20 ASP 41 A GLU 42 n 21 GLU 42 A LYS 43 n 22 LYS 43 A GLY 44 n 23 GLY 44 A VAL 45 n 24 VAL 45 A THR 46 n 25 THR 46 A LEU 47 n 26 LEU 47 A VAL 48 n 27 VAL 48 A SER 49 n 28 SER 49 A ALA 50 n 29 ALA 50 A SER 51 n 30 SER 51 A SER 52 n 31 SER 52 A LEU 53 n 32 LEU 53 A ALA 54 n 33 ALA 54 A LEU 55 n 34 LEU 55 A LYS 56 n 35 LYS 56 A LEU 57 n 36 LEU 57 A LYS 58 n 37 LYS 58 A GLY 59 n 38 GLY 59 A ASN 60 n 39 ASN 60 A LYS 61 n 40 LYS 61 A THR 62 n 41 THR 62 A GLU 63 n 42 GLU 63 A VAL 64 n 43 VAL 64 A ALA 65 n 44 ALA 65 A ARG 66 n 45 ARG 66 A GLN 67 n 46 GLN 67 A VAL 68 n 47 VAL 68 A GLY 69 n 48 GLY 69 A ARG 70 n 49 ARG 70 A ALA 71 n 50 ALA 71 A LEU 72 n 51 LEU 72 A ALA 73 n 52 ALA 73 A GLU 74 n 53 GLU 74 A LYS 75 n 54 LYS 75 A ALA 76 n 55 ALA 76 A LEU 77 n 56 LEU 77 A ALA 78 n 57 ALA 78 A LEU 79 n 58 LEU 79 A GLY 80 n 59 GLY 80 A ILE 81 n 60 ILE 81 A LYS 82 n 61 LYS 82 A GLN 83 n 62 GLN 83 A VAL 84 n 63 VAL 84 A ALA 85 n 64 ALA 85 A PHE 86 n 65 PHE 86 A ASP 87 n 66 ASP 87 A ARG 88 n 67 ARG 88 A GLY 89 n 68 GLY 89 A PRO 90 n 69 PRO 90 A TYR 91 n 70 TYR 91 A LYS 92 n 71 LYS 92 A TYR 93 n 72 TYR 93 A HIS 94 n 73 HIS 94 A GLY 95 n 74 GLY 95 A ARG 96 n 75 ARG 96 A VAL 97 n 76 VAL 97 A LYS 98 n 77 LYS 98 A ALA 99 n 78 ALA 99 A LEU 100 n 79 LEU 100 A ALA 101 n 80 ALA 101 A GLU 102 n 81 GLU 102 A GLY 103 n 82 GLY 103 A ALA 104 n 83 ALA 104 A ARG 105 n 84 ARG 105 A GLU 106 n 85 GLU 106 A GLY 107 n 86 GLY 107 A GLY 108 n 87 GLY 108 A LEU 109 n 88 LEU 109 A GLU 110 n 89 GLU 110 A PHE 111 n 90 PHE 111 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 A O ALA 50 A O ALA 29 A N ALA 36 A N ALA 15 A N ILE 39 A N ILE 18 A O ARG 24 A O ARG 3 A N LEU 25 A N LEU 4 A O ALA 85 A O ALA 64 1 A A O H GLU GLU 102 106 1.37 1 A A O N GLU GLU 102 106 2.19 2 A A O H GLU GLU 102 106 1.33 2 A A O N GLU GLU 102 106 2.16 3 A A O H GLU GLU 102 106 1.27 3 A A O N GLU GLU 102 106 2.13 4 A A O H GLU GLU 102 106 1.31 4 A A O H ARG LEU 96 100 1.59 4 A A O N GLU GLU 102 106 2.19 5 A A O H GLU GLU 102 106 1.34 5 A A O N GLU GLU 102 106 2.15 6 A A O H GLU GLU 102 106 1.26 6 A A O N GLU GLU 102 106 2.13 7 A A O H GLU GLU 102 106 1.28 7 A A O H ARG LEU 96 100 1.59 7 A A O N GLU GLU 102 106 2.14 8 A A O H GLU GLU 102 106 1.29 8 A A O N GLU GLU 102 106 2.14 9 A A O H GLU GLU 102 106 1.31 9 A A O N GLU GLU 102 106 2.12 10 A A O H GLU GLU 102 106 1.27 10 A A O N GLU GLU 102 106 2.15 11 A A O H GLU GLU 102 106 1.31 11 A A O N GLU GLU 102 106 2.18 12 A A O H GLU GLU 102 106 1.32 12 A A O N GLU GLU 102 106 2.13 13 A A O H GLU GLU 102 106 1.34 13 A A O N GLU GLU 102 106 2.15 14 A A O H GLU GLU 102 106 1.32 15 A A O H GLU GLU 102 106 1.33 15 A A O N GLU GLU 102 106 2.15 16 A A O H GLU GLU 102 106 1.31 16 A A O H GLY GLY 103 107 1.58 16 A A O N GLU GLU 102 106 2.15 17 A A O H GLU GLU 102 106 1.27 17 A A O N GLU GLU 102 106 2.11 18 A A O H GLU GLU 102 106 1.30 18 A A O N GLU GLU 102 106 2.14 19 A A O H GLU GLU 102 106 1.26 19 A A O N GLU GLU 102 106 2.16 20 A A O H GLU GLU 102 106 1.29 20 A A O N GLU GLU 102 106 2.15 21 A A O H GLU GLU 102 106 1.19 21 A A O N GLU GLU 102 106 2.09 22 A A O H GLU GLU 102 106 1.29 22 A A O N GLU GLU 102 106 2.17 23 A A O H GLU GLU 102 106 1.35 23 A A O H GLY GLY 103 107 1.57 23 A A O HZ3 GLY LYS 95 98 1.59 23 A A O N GLU GLU 102 106 2.14 24 A A O H GLU GLU 102 106 1.35 24 A A O N GLU GLU 102 106 2.14 25 A A O H GLU GLU 102 106 1.27 25 A A O N GLU GLU 102 106 2.09 26 A A O H GLU GLU 102 106 1.34 26 A A O N GLU GLU 102 106 2.19 27 A A O H GLU GLU 102 106 1.34 27 A A O N GLU GLU 102 106 2.14 1 A LEU 31 -147.60 -59.16 1 A LYS 56 177.12 -44.24 1 A ARG 88 -37.71 -39.18 1 A TYR 93 -52.11 88.68 1 A HIS 94 -103.73 -165.12 1 A ARG 96 -45.77 -71.25 1 A LYS 98 -66.37 -80.23 2 A LEU 31 -170.52 -64.18 2 A LEU 47 -104.02 -61.78 2 A LYS 56 3.09 62.60 2 A LEU 57 -46.75 171.82 2 A ASN 60 -76.13 -71.32 2 A LYS 61 -175.95 -41.12 2 A ALA 65 -35.43 -39.32 2 A ASP 87 -150.17 33.70 2 A PRO 90 -95.73 37.85 2 A TYR 93 0.69 76.37 2 A LYS 98 -53.99 -72.10 3 A LEU 31 -152.12 -58.16 3 A LYS 56 178.99 -31.98 3 A LYS 58 -132.05 -45.48 3 A LYS 61 -93.65 -60.23 3 A ALA 65 -35.22 -37.96 3 A ASP 87 -148.48 45.88 3 A PRO 90 -69.50 59.84 3 A TYR 93 -41.00 93.15 3 A LYS 98 -56.36 -80.11 4 A SER 30 -90.25 -79.33 4 A LEU 31 -153.06 -58.99 4 A LEU 47 -92.86 -65.98 4 A LYS 56 2.17 63.73 4 A ASN 60 -133.31 -55.92 4 A LYS 61 -175.54 -83.84 4 A ALA 65 -33.92 -39.80 4 A ASP 87 -150.03 40.80 4 A TYR 93 -47.33 109.70 4 A ARG 96 -76.70 -70.97 4 A LYS 98 -57.96 -75.06 5 A LEU 23 -33.86 137.62 5 A SER 30 -89.52 -80.73 5 A LEU 31 -143.90 -51.25 5 A LEU 47 -98.84 -62.10 5 A LYS 56 179.79 -37.92 5 A LEU 57 -46.39 154.78 5 A LYS 58 -127.05 -56.03 5 A ASN 60 -113.26 -168.77 5 A LYS 61 -155.38 -51.07 5 A ASP 87 -146.79 56.67 5 A TYR 93 -51.18 95.51 5 A ARG 96 -62.54 -70.62 5 A LYS 98 -58.58 -76.20 6 A SER 30 -89.75 -80.78 6 A LEU 31 -127.37 -65.38 6 A LYS 56 179.81 -34.95 6 A LYS 58 -132.08 -53.51 6 A LYS 61 -125.48 -84.85 6 A THR 62 -93.35 32.16 6 A ALA 65 -35.60 -38.27 6 A TYR 93 -47.13 105.75 6 A ARG 96 -68.88 -70.35 6 A VAL 97 -39.43 -38.40 6 A LYS 98 -60.40 -77.24 7 A SER 30 -89.36 -78.88 7 A LEU 31 -138.29 -58.54 7 A LYS 56 2.29 63.19 7 A ASN 60 -148.24 -68.24 7 A LYS 61 -144.76 -78.06 7 A PRO 90 -90.09 31.15 7 A TYR 93 -47.82 109.68 7 A HIS 94 -121.27 -77.78 7 A LYS 98 -57.91 -76.33 8 A LEU 31 179.92 -54.03 8 A LEU 47 -104.43 -64.20 8 A LYS 56 179.35 -32.57 8 A LYS 58 -132.11 -40.58 8 A ASN 60 -51.50 177.67 8 A LYS 61 -146.85 -68.23 8 A ALA 65 -29.93 -44.11 8 A TYR 93 -45.21 108.76 8 A HIS 94 -119.25 -125.69 8 A VAL 97 -38.81 -28.02 8 A LYS 98 -64.01 -83.46 9 A SER 30 -103.93 -155.30 9 A LEU 31 -52.12 -71.59 9 A LEU 47 -99.97 -63.87 9 A LYS 56 179.60 -42.31 9 A ASN 60 -174.52 -173.14 9 A LYS 61 -142.88 -67.17 9 A ALA 65 -34.58 -38.50 9 A PRO 90 -83.46 48.97 9 A TYR 93 -48.60 109.67 9 A HIS 94 -115.99 -124.29 9 A VAL 97 -37.74 -29.69 9 A LYS 98 -62.46 -81.10 10 A SER 30 -89.71 -84.64 10 A LEU 31 -131.77 -61.51 10 A LYS 56 177.35 -41.48 10 A LYS 61 -130.71 -54.47 10 A ASP 87 -150.05 51.57 10 A TYR 93 -43.77 109.35 10 A VAL 97 -29.83 -50.47 10 A LYS 98 -57.72 -75.37 11 A LEU 31 -179.34 -59.73 11 A LYS 56 2.58 61.52 11 A LEU 57 -58.05 176.16 11 A ASN 60 -154.76 -69.92 11 A LYS 61 -175.81 -150.98 11 A THR 62 -69.70 61.34 11 A ALA 65 -36.92 -38.21 11 A ASP 87 -142.65 51.44 11 A PRO 90 -90.05 42.87 11 A ARG 96 -70.74 -70.86 11 A VAL 97 -29.91 -51.82 11 A LYS 98 -56.75 -75.00 12 A LEU 23 -32.07 132.78 12 A LEU 31 -179.24 -54.50 12 A LEU 47 -103.19 -64.20 12 A LYS 56 177.21 -42.87 12 A LYS 61 -153.61 -96.85 12 A THR 62 -93.61 30.96 12 A GLU 63 -94.05 -66.08 12 A TYR 93 -51.21 94.67 12 A VAL 97 -38.32 -39.96 12 A LYS 98 -60.33 -77.86 13 A SER 30 -89.58 -70.25 13 A LEU 31 -148.86 -62.99 13 A LYS 56 1.73 63.63 13 A LYS 61 -84.77 -70.27 13 A ALA 65 -35.48 -38.62 13 A PRO 90 -89.90 48.02 13 A TYR 93 -48.69 106.19 13 A HIS 94 -110.63 -125.08 13 A VAL 97 -35.03 -31.40 13 A LYS 98 -58.79 -81.76 14 A LEU 31 -179.65 -61.66 14 A LEU 47 -101.86 -62.45 14 A LYS 56 3.03 63.72 14 A LYS 58 -99.34 43.15 14 A ASN 60 -126.28 -70.32 14 A LYS 61 -160.92 -83.73 14 A ASP 87 -150.10 61.18 14 A PRO 90 -89.73 38.00 14 A TYR 93 -39.83 103.39 14 A HIS 94 -115.44 -109.87 14 A ARG 96 -95.38 -71.14 14 A VAL 97 -32.94 -37.01 14 A LYS 98 -64.65 -78.85 15 A SER 30 -89.66 -72.57 15 A LEU 31 -142.76 -58.26 15 A LEU 47 -95.34 -63.17 15 A LYS 56 179.85 -36.93 15 A LEU 57 -46.99 171.83 15 A LYS 58 -131.56 -42.46 15 A LYS 61 -68.56 -166.42 15 A ASP 87 -145.54 47.59 15 A ARG 88 -37.64 -37.58 15 A TYR 93 -46.69 109.08 15 A ARG 96 -57.36 -70.64 15 A VAL 97 -38.39 -37.80 15 A LYS 98 -60.72 -76.71 16 A SER 30 -89.59 -81.04 16 A LEU 31 -139.86 -56.10 16 A LYS 56 3.67 63.26 16 A ALA 65 -34.89 -39.22 16 A PRO 90 -90.35 35.95 16 A TYR 93 -46.70 103.41 16 A ARG 96 -55.76 -71.02 16 A LYS 98 -56.20 -75.32 17 A LEU 31 179.78 -55.41 17 A LYS 56 179.24 -31.08 17 A LYS 61 -109.21 -110.65 17 A THR 62 -93.63 52.25 17 A GLU 63 -94.09 -75.90 17 A PRO 90 -89.42 33.93 17 A TYR 93 -46.86 97.94 17 A HIS 94 -105.35 -99.75 17 A ARG 96 -85.87 -71.14 17 A VAL 97 -33.07 -35.12 17 A LYS 98 -62.14 -76.42 18 A LEU 31 -177.36 -68.10 18 A LYS 56 2.07 63.29 18 A ASN 60 -117.49 -169.77 18 A LYS 61 -96.79 -67.19 18 A ALA 65 -34.18 -39.55 18 A PRO 90 -88.99 36.33 18 A TYR 93 -49.31 100.80 18 A ARG 96 -61.72 -70.95 18 A LYS 98 -59.40 -77.33 19 A LEU 31 -179.87 -58.52 19 A LEU 47 -93.11 -60.88 19 A LYS 56 1.77 63.72 19 A ASN 60 -132.84 -73.92 19 A LYS 61 -142.70 -74.36 19 A PRO 90 -90.31 32.70 19 A HIS 94 -124.01 -122.69 19 A ARG 96 -87.95 -70.77 19 A VAL 97 -36.14 -32.28 19 A LYS 98 -64.14 -82.27 20 A LEU 31 -178.61 -55.92 20 A LEU 47 -91.58 -64.39 20 A SER 52 -53.56 -82.44 20 A LYS 56 177.63 -40.52 20 A ASN 60 -101.58 -76.35 20 A LYS 61 -92.15 -155.21 20 A HIS 94 -128.89 -77.95 20 A VAL 97 -35.97 -39.18 20 A LYS 98 -58.65 -80.16 21 A SER 30 -89.75 -77.24 21 A LEU 31 -134.33 -61.24 21 A LEU 47 -94.19 -60.39 21 A LYS 56 179.20 -28.49 21 A LYS 58 -132.12 -44.58 21 A LYS 61 -109.88 -88.68 21 A LYS 82 -92.45 -61.07 21 A PRO 90 -87.93 44.99 21 A TYR 93 -49.29 101.08 21 A HIS 94 -111.92 -112.38 21 A ARG 96 -67.96 -71.06 21 A VAL 97 -36.41 -32.73 21 A LYS 98 -63.74 -82.07 22 A LEU 31 -179.98 -53.99 22 A LYS 56 179.21 -34.07 22 A LEU 57 -43.79 154.32 22 A LYS 61 179.97 -163.20 22 A TYR 93 0.11 105.69 22 A VAL 97 -29.61 -45.39 22 A LYS 98 -57.43 -78.19 23 A LEU 31 179.93 -62.32 23 A LYS 56 178.19 -33.41 23 A LEU 57 -37.28 124.76 23 A ASN 60 -56.45 106.72 23 A PRO 90 -81.06 45.12 23 A TYR 93 -33.06 94.67 23 A HIS 94 -103.82 -166.34 23 A ARG 96 -97.92 -64.55 23 A VAL 97 -28.84 -70.58 23 A LYS 98 -29.47 -60.18 24 A LEU 23 -30.87 134.10 24 A SER 30 -89.50 -78.88 24 A LEU 31 -131.58 -61.47 24 A LYS 56 178.89 -33.10 24 A LEU 57 -49.39 176.10 24 A LYS 61 -176.30 -163.81 24 A ALA 65 -34.28 -38.88 24 A PRO 90 -93.24 34.94 24 A TYR 93 0.61 100.56 24 A VAL 97 -33.98 -38.73 24 A LYS 98 -62.64 -79.06 25 A SER 30 -89.65 -85.78 25 A LEU 31 -129.87 -58.28 25 A LYS 56 2.35 63.78 25 A LYS 61 -158.05 -77.96 25 A TYR 93 -47.60 106.41 25 A ARG 96 -57.89 -70.25 25 A LYS 98 -59.91 -78.23 26 A SER 30 -89.09 -91.88 26 A LEU 47 -98.23 -63.63 26 A LYS 56 1.66 63.56 26 A LYS 61 -59.26 -77.95 26 A TYR 93 -44.61 103.53 26 A ARG 96 -56.27 -71.02 26 A LYS 98 -58.04 -76.15 27 A LEU 31 179.89 -63.27 27 A LEU 53 -58.22 -9.69 27 A LYS 56 177.50 -37.89 27 A LYS 61 -167.04 -161.73 27 A THR 62 -86.73 48.97 27 A ASP 87 -151.28 86.48 27 A PRO 90 -90.19 34.20 27 A TYR 93 -45.51 97.45 27 A LYS 98 -61.16 -77.38 Solution Structure of Ribosomal Protein L18 of Thermus thermophilus 1 N N A SER 52 A SER 31 HELX_P A LYS 56 A LYS 35 1 1 5 A VAL 64 A VAL 43 HELX_P A LEU 79 A LEU 58 1 2 16 A HIS 94 A HIS 73 HELX_P A GLY 108 A GLY 87 1 3 15 RNA BINDING PROTEIN mixed alpha/beta, RNA BINDING PROTEIN RL18_THETH UNP 1 23 P80320 RLRLSVFRSLKHIYAQIIDDEKGVTLVSASSLALKLKGNKTEVARQVGRALAEKALALGIKQVAFDRGPYKYHGRVKALA EGAREGGLEF 23 112 1ILY 22 111 P80320 A 1 1 90 4 anti-parallel anti-parallel parallel A VAL 45 A VAL 24 A SER 51 A SER 30 A ILE 34 A ILE 13 A ASP 40 A ASP 19 A ARG 24 A ARG 3 A ARG 29 A ARG 8 A ALA 85 A ALA 64 A PHE 86 A PHE 65