1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Berry, J.L. Xu, Y. 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 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 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 UK Structure STRUE6 2005 0969-2126 24 926 934 10.1016/j.str.2016.04.001 27161979 A Comparative Structure/Function Analysis of Two Type IV Pilin DNA Receptors Defines a Novel Mode of DNA Binding. 2016 13071.096 Prepilin-type cleavage/methylation N-terminal domain protein 1 man polymer no no HRSANLRAAHAALLENARFMEQFYAKKGSFKLTSTKWPELPVKEAGGFCIRMSGQAKGILEGKFTLKAVALDREAEPRVL RLNESLTAVVCGKMKGKGSCTDGEEIFRGNDAECRPFTG HRSANLRAAHAALLENARFMEQFYAKKGSFKLTSTKWPELPVKEAGGFCIRMSGQAKGILEGKFTLKAVALDREAEPRVL RLNESLTAVVCGKMKGKGSCTDGEEIFRGNDAECRPFTG 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 n n n n n n n n n n n n n n n n sample NEISUBOT_04550 546268 Neisseria subflava NJ9703 562 Escherichia coli plasmid pET 28(b) repository Initial release Database references Database references 1 0 2016-05-18 1 1 2016-06-01 1 2 2016-06-29 BMRB Y RCSB 2016-02-02 REL REL REL 3052 744 555 273 445 structures with the lowest energy 100 20 1 2D 1H-15N HSQC 3D HNCACB 3D HNCO 3D CBCA(CO)NH 3D 1H-15N NOESY 3D HBHA(CO)NH 3D HCCH-TOCSY 3D 1H-13C NOESY aliphatic 750 uM [U-98% 13C; U-98% 15N] 0.05 6 ambient 295 K simulated annealing 1 lowest energy 750 uM [U-98% 13C; U-98% 15N] ComP, 90% H2O/10% D2O 90% H2O/10% D2O Linge, O'Donoghue and Nilges structure solution ARIA 2.1 Linge, O'Donoghue and Nilges refinement ARIA 2.1 800 Bruker Avance Bruker Avance HIS 6 n 1 HIS 6 A ARG 7 n 2 ARG 7 A SER 8 n 3 SER 8 A ALA 9 n 4 ALA 9 A ASN 10 n 5 ASN 10 A LEU 11 n 6 LEU 11 A ARG 12 n 7 ARG 12 A ALA 13 n 8 ALA 13 A ALA 14 n 9 ALA 14 A HIS 15 n 10 HIS 15 A ALA 16 n 11 ALA 16 A ALA 17 n 12 ALA 17 A LEU 18 n 13 LEU 18 A LEU 19 n 14 LEU 19 A GLU 20 n 15 GLU 20 A ASN 21 n 16 ASN 21 A ALA 22 n 17 ALA 22 A ARG 23 n 18 ARG 23 A PHE 24 n 19 PHE 24 A MET 25 n 20 MET 25 A GLU 26 n 21 GLU 26 A GLN 27 n 22 GLN 27 A PHE 28 n 23 PHE 28 A TYR 29 n 24 TYR 29 A ALA 30 n 25 ALA 30 A LYS 31 n 26 LYS 31 A LYS 32 n 27 LYS 32 A GLY 33 n 28 GLY 33 A SER 34 n 29 SER 34 A PHE 35 n 30 PHE 35 A LYS 36 n 31 LYS 36 A LEU 37 n 32 LEU 37 A THR 38 n 33 THR 38 A SER 39 n 34 SER 39 A THR 40 n 35 THR 40 A LYS 41 n 36 LYS 41 A TRP 42 n 37 TRP 42 A PRO 43 n 38 PRO 43 A GLU 44 n 39 GLU 44 A LEU 45 n 40 LEU 45 A PRO 46 n 41 PRO 46 A VAL 47 n 42 VAL 47 A LYS 48 n 43 LYS 48 A GLU 49 n 44 GLU 49 A ALA 50 n 45 ALA 50 A GLY 51 n 46 GLY 51 A GLY 52 n 47 GLY 52 A PHE 53 n 48 PHE 53 A CYS 54 n 49 CYS 54 A ILE 55 n 50 ILE 55 A ARG 56 n 51 ARG 56 A MET 57 n 52 MET 57 A SER 58 n 53 SER 58 A GLY 59 n 54 GLY 59 A GLN 60 n 55 GLN 60 A ALA 61 n 56 ALA 61 A LYS 62 n 57 LYS 62 A GLY 63 n 58 GLY 63 A ILE 64 n 59 ILE 64 A LEU 65 n 60 LEU 65 A GLU 66 n 61 GLU 66 A GLY 67 n 62 GLY 67 A LYS 68 n 63 LYS 68 A PHE 69 n 64 PHE 69 A THR 70 n 65 THR 70 A LEU 71 n 66 LEU 71 A LYS 72 n 67 LYS 72 A ALA 73 n 68 ALA 73 A VAL 74 n 69 VAL 74 A ALA 75 n 70 ALA 75 A LEU 76 n 71 LEU 76 A ASP 77 n 72 ASP 77 A ARG 78 n 73 ARG 78 A GLU 79 n 74 GLU 79 A ALA 80 n 75 ALA 80 A GLU 81 n 76 GLU 81 A PRO 82 n 77 PRO 82 A ARG 83 n 78 ARG 83 A VAL 84 n 79 VAL 84 A LEU 85 n 80 LEU 85 A ARG 86 n 81 ARG 86 A LEU 87 n 82 LEU 87 A ASN 88 n 83 ASN 88 A GLU 89 n 84 GLU 89 A SER 90 n 85 SER 90 A LEU 91 n 86 LEU 91 A THR 92 n 87 THR 92 A ALA 93 n 88 ALA 93 A VAL 94 n 89 VAL 94 A VAL 95 n 90 VAL 95 A CYS 96 n 91 CYS 96 A GLY 97 n 92 GLY 97 A LYS 98 n 93 LYS 98 A MET 99 n 94 MET 99 A LYS 100 n 95 LYS 100 A GLY 101 n 96 GLY 101 A LYS 102 n 97 LYS 102 A GLY 103 n 98 GLY 103 A SER 104 n 99 SER 104 A CYS 105 n 100 CYS 105 A THR 106 n 101 THR 106 A ASP 107 n 102 ASP 107 A GLY 108 n 103 GLY 108 A GLU 109 n 104 GLU 109 A GLU 110 n 105 GLU 110 A ILE 111 n 106 ILE 111 A PHE 112 n 107 PHE 112 A ARG 113 n 108 ARG 113 A GLY 114 n 109 GLY 114 A ASN 115 n 110 ASN 115 A ASP 116 n 111 ASP 116 A ALA 117 n 112 ALA 117 A GLU 118 n 113 GLU 118 A CYS 119 n 114 CYS 119 A ARG 120 n 115 ARG 120 A PRO 121 n 116 PRO 121 A PHE 122 n 117 PHE 122 A THR 123 n 118 THR 123 A GLY 124 n 119 GLY 124 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 PHE 112 A O PHE 107 A N MET 57 A N MET 52 A N CYS 54 A N CYS 49 A O VAL 74 A O VAL 69 A N ALA 73 A N ALA 68 A O LEU 85 A O LEU 80 A N VAL 84 A N VAL 79 A O CYS 96 A O CYS 91 A N VAL 95 A N VAL 90 A O ARG 120 A O ARG 115 3 A A O H LEU HIS 11 15 1.59 4 A A HD23 H LEU MET 45 57 1.32 6 A A H HZ2 LEU LYS 37 41 1.14 11 A A HZ2 H LYS ILE 36 64 1.32 13 A A HZ1 H LYS ILE 36 64 1.35 1 A ARG 7 -159.93 -1.49 1 A SER 8 -47.58 96.12 1 A ALA 9 -59.78 178.79 1 A ASN 10 -78.17 40.10 1 A LYS 32 -115.66 -82.41 1 A PHE 35 -101.67 -90.90 1 A THR 40 86.96 44.17 1 A PRO 46 -73.80 -77.67 1 A ALA 50 -98.00 -110.86 1 A SER 58 -43.41 177.60 1 A LEU 65 -28.88 135.82 1 A LYS 100 -100.56 -66.50 1 A LYS 102 46.75 -95.35 1 A THR 106 38.68 28.74 1 A ASP 107 -156.08 -66.29 1 A GLU 110 -149.94 -59.15 1 A PHE 112 -114.61 79.37 1 A ASN 115 -161.23 50.20 2 A ARG 7 -160.08 9.86 2 A SER 8 -43.14 95.92 2 A ALA 9 -75.12 -160.40 2 A ASN 10 -79.34 34.42 2 A LYS 32 -118.55 -85.67 2 A PHE 35 -101.52 -68.00 2 A THR 40 70.92 45.28 2 A PRO 46 -80.03 -70.89 2 A ALA 50 -99.05 -111.83 2 A SER 58 -42.50 175.13 2 A LEU 65 -32.05 149.80 2 A LYS 102 31.45 -93.93 2 A CYS 105 -58.64 -177.55 2 A THR 106 69.59 -20.81 2 A GLU 110 -139.03 -50.70 2 A PHE 112 -109.80 75.80 3 A SER 8 -47.64 89.96 3 A ALA 9 -69.01 -165.85 3 A ASN 10 -81.32 38.71 3 A LYS 32 -117.83 -84.57 3 A PHE 35 -113.74 -80.98 3 A PRO 46 -77.40 -72.88 3 A SER 58 -41.27 172.36 3 A LEU 65 -29.92 143.45 3 A LYS 100 -80.57 -76.76 3 A LYS 102 52.80 -141.36 3 A THR 106 43.53 22.71 3 A ASP 107 -155.15 -31.82 3 A GLU 110 -159.75 -55.07 3 A PHE 112 -107.86 69.87 4 A SER 8 -37.55 94.71 4 A ALA 9 -60.71 -179.84 4 A ASN 10 -78.93 42.80 4 A LYS 32 -118.79 -80.53 4 A PHE 35 -94.46 -80.32 4 A THR 40 83.96 44.33 4 A PRO 46 -83.32 -70.71 4 A ALA 50 -101.44 -64.75 4 A SER 58 -40.78 176.41 4 A LEU 65 -31.26 142.57 4 A LYS 100 -98.44 -66.96 4 A LYS 102 35.19 -98.08 4 A THR 106 40.52 26.16 4 A ASP 107 -151.68 -34.44 4 A GLU 110 -127.13 -53.94 4 A ASN 115 -160.99 22.77 5 A SER 8 -45.28 93.57 5 A ALA 9 -60.80 -176.24 5 A ASN 10 -78.51 40.31 5 A LYS 32 -117.44 -83.44 5 A PHE 35 -111.24 -82.07 5 A THR 40 70.77 46.18 5 A PRO 46 -80.99 -70.49 5 A ALA 50 -99.40 -77.28 5 A SER 58 -40.91 175.28 5 A LEU 65 -30.39 136.52 5 A LYS 100 -83.81 -77.43 5 A LYS 102 44.94 -143.84 5 A THR 106 36.86 31.72 5 A ASP 107 -154.24 -53.16 5 A GLU 110 -148.72 -51.15 5 A PHE 112 -107.79 78.37 6 A ALA 9 -57.60 176.15 6 A ASN 10 -77.40 42.38 6 A LYS 32 -121.14 -84.61 6 A PHE 35 -105.27 -86.48 6 A THR 40 78.36 41.77 6 A ALA 50 -102.84 -66.59 6 A SER 58 -41.23 173.09 6 A LEU 65 -29.44 141.63 6 A LYS 100 -93.26 -69.09 6 A LYS 102 29.80 -141.97 6 A CYS 105 -63.76 -177.82 6 A THR 106 39.75 28.25 6 A ASP 107 -154.60 -63.17 6 A GLU 110 -158.05 -52.91 6 A PHE 112 -109.09 73.94 7 A ARG 7 -112.97 -75.75 7 A SER 8 38.64 75.78 7 A ALA 9 -62.05 -167.69 7 A ASN 10 -78.66 37.95 7 A LYS 32 -117.17 -83.62 7 A PHE 35 -94.65 -80.01 7 A THR 40 74.80 46.31 7 A PRO 46 -75.12 -77.86 7 A ALA 50 -100.14 -74.66 7 A SER 58 -41.51 178.45 7 A LEU 65 -33.28 143.33 7 A LYS 100 -87.96 -73.09 7 A LYS 102 40.54 -141.36 7 A CYS 105 -68.65 -178.13 7 A THR 106 37.50 31.09 7 A ASP 107 -157.28 -66.28 7 A GLU 110 -146.13 -57.15 7 A PHE 112 -108.38 71.03 8 A ARG 7 -104.01 53.10 8 A ALA 9 -55.48 174.96 8 A ASN 10 -77.08 44.15 8 A LYS 32 -127.01 -88.23 8 A PHE 35 -97.09 -77.74 8 A THR 40 83.35 41.27 8 A PRO 46 -73.32 -77.06 8 A SER 58 -41.49 177.82 8 A LEU 65 -33.45 144.42 8 A LYS 100 -98.21 -65.65 8 A LYS 102 38.34 -148.10 8 A THR 106 42.78 21.77 8 A ASP 107 -156.51 -30.63 8 A GLU 110 -125.21 -65.87 8 A PHE 112 -109.92 78.52 8 A ASN 115 -163.51 25.87 9 A SER 8 -162.14 93.80 9 A ALA 9 -61.12 -173.06 9 A ASN 10 -77.82 37.96 9 A LYS 32 -119.40 -84.40 9 A THR 40 72.80 47.14 9 A SER 58 -42.08 172.33 9 A LEU 65 -29.79 144.63 9 A LYS 100 -79.81 -77.74 9 A LYS 102 62.42 -148.80 9 A CYS 105 -60.94 -177.33 9 A THR 106 44.99 22.42 9 A ASP 107 -162.23 -35.57 9 A GLU 110 -131.27 -62.12 9 A PHE 112 -108.03 72.28 10 A ARG 7 67.69 -12.92 10 A SER 8 -45.59 95.92 10 A ALA 9 -68.67 -168.42 10 A ASN 10 -79.45 39.38 10 A LYS 32 -110.77 -81.97 10 A PHE 35 -98.64 -89.05 10 A THR 40 85.41 43.65 10 A PRO 46 -79.49 -70.93 10 A ALA 50 -100.47 -68.71 10 A SER 58 -43.09 174.06 10 A LEU 65 -31.22 138.14 10 A LYS 100 -92.73 -70.46 10 A LYS 102 34.79 -132.13 10 A THR 106 38.53 32.04 10 A ASP 107 -150.83 -34.36 10 A GLU 110 -168.67 -50.27 10 A PHE 112 -108.59 73.33 11 A SER 8 -33.52 95.11 11 A ALA 9 -59.22 179.63 11 A ASN 10 -78.30 42.18 11 A LYS 32 -126.37 -85.86 11 A PHE 35 -91.85 -73.39 11 A THR 40 83.45 40.85 11 A PRO 46 -76.21 -76.98 11 A SER 58 -42.72 177.72 11 A LEU 65 -34.50 143.65 11 A LYS 100 -90.25 -71.55 11 A LYS 102 38.45 -148.66 11 A CYS 105 -62.94 -177.17 11 A THR 106 75.47 -38.40 11 A GLU 110 -144.11 -58.29 11 A PHE 112 -108.31 73.04 12 A ARG 7 -146.09 -23.49 12 A SER 8 -29.57 97.09 12 A ALA 9 -59.44 -178.43 12 A ASN 10 -79.00 41.44 12 A LYS 32 -127.97 -83.69 12 A PHE 35 -92.15 -88.02 12 A THR 40 81.86 41.23 12 A SER 58 -42.75 173.28 12 A LEU 65 -29.69 143.38 12 A LYS 100 -96.11 -68.23 12 A LYS 102 34.32 -146.37 12 A CYS 105 -59.39 -176.87 12 A THR 106 74.24 -21.67 12 A ASP 107 -120.03 -57.17 12 A GLU 110 -146.41 -54.31 12 A PHE 112 -108.65 72.10 13 A ARG 7 -92.71 -89.28 13 A SER 8 38.51 76.56 13 A ALA 9 -57.12 -173.77 13 A ASN 10 -77.48 40.03 13 A LYS 32 -120.98 -86.70 13 A PHE 35 -98.28 -86.72 13 A THR 40 83.29 40.15 13 A PRO 46 -78.49 -71.01 13 A SER 58 -41.73 175.68 13 A LEU 65 -30.79 143.36 13 A LYS 100 -84.12 -74.84 13 A LYS 102 44.52 -144.71 13 A THR 106 45.02 22.36 13 A ASP 107 -157.57 -26.45 13 A GLU 110 -140.06 -60.78 13 A PHE 112 -108.24 71.84 14 A ARG 7 -94.65 -90.62 14 A SER 8 38.41 76.59 14 A ALA 9 -59.06 -171.97 14 A ASN 10 -78.31 41.02 14 A LYS 32 -121.35 -85.73 14 A PHE 35 -105.51 -60.75 14 A THR 40 74.79 40.56 14 A PRO 46 -78.75 -70.32 14 A ALA 50 -102.95 -68.87 14 A SER 58 -42.41 175.71 14 A LEU 65 -26.17 142.35 14 A LYS 100 -95.52 -68.71 14 A LYS 102 40.22 -133.18 14 A THR 106 42.26 27.43 14 A ASP 107 -150.27 -32.66 14 A GLU 110 -124.90 -57.86 14 A ASN 115 -166.63 25.77 15 A ARG 7 -156.17 35.54 15 A SER 8 -65.84 99.26 15 A ASN 10 90.52 39.93 15 A LYS 32 -116.14 -83.21 15 A PHE 35 -115.11 -88.95 15 A THR 40 74.64 47.81 15 A PRO 46 -79.11 -71.51 15 A ALA 50 -99.00 -69.67 15 A SER 58 -40.53 175.93 15 A LEU 65 -29.93 143.72 15 A LYS 100 -94.36 -65.91 15 A LYS 102 30.55 -97.03 15 A CYS 105 -58.00 179.97 15 A THR 106 38.21 29.28 15 A ASP 107 -154.09 -47.75 15 A GLU 110 -145.72 -56.88 15 A ASN 115 -162.05 23.93 16 A SER 8 -42.94 100.88 16 A ASN 10 90.09 38.19 16 A LYS 32 -118.88 -82.17 16 A PHE 35 -94.09 -90.50 16 A THR 40 83.28 43.51 16 A ALA 50 -99.94 -73.72 16 A SER 58 -42.45 174.05 16 A LEU 65 -29.85 138.67 16 A LYS 100 -97.34 -63.31 16 A LYS 102 29.23 -139.85 16 A CYS 105 -57.78 -177.86 16 A THR 106 68.28 -17.54 16 A GLU 110 -135.34 -53.38 16 A PHE 112 -108.49 71.95 17 A ARG 7 -165.03 68.37 17 A ALA 9 -52.34 172.80 17 A ASN 10 -76.11 40.76 17 A LYS 32 -128.42 -84.46 17 A ALA 50 -98.56 -109.44 17 A SER 58 -41.80 176.79 17 A LEU 65 -35.56 158.16 17 A LYS 100 -77.96 -78.72 17 A LYS 102 53.08 -92.69 17 A THR 106 39.87 29.97 17 A ASP 107 -152.93 -31.54 17 A GLU 110 -155.52 -54.06 17 A PHE 112 -107.77 69.37 18 A SER 8 -49.91 92.44 18 A ALA 9 -58.89 -179.13 18 A ASN 10 -77.56 41.49 18 A LYS 32 -113.38 -82.79 18 A PHE 35 -105.77 -71.34 18 A THR 40 70.25 50.89 18 A PRO 46 -79.90 -72.61 18 A ALA 50 -101.62 -62.32 18 A SER 58 -40.40 176.45 18 A LEU 65 -31.18 147.26 18 A LYS 100 -97.98 -65.45 18 A LYS 102 32.05 -94.81 18 A CYS 105 -61.78 -176.80 18 A THR 106 43.73 25.94 18 A ASP 107 -154.16 -37.72 18 A GLU 110 -103.71 -66.79 18 A ASN 115 -163.70 25.04 19 A SER 8 -43.50 95.49 19 A ALA 9 -64.97 -170.73 19 A ASN 10 -79.74 42.54 19 A LYS 32 -117.68 -71.09 19 A PHE 35 -122.61 -57.57 19 A THR 40 71.23 50.66 19 A SER 58 -40.07 171.78 19 A LEU 65 -36.75 164.66 19 A GLU 66 -160.94 114.84 19 A LYS 100 -92.78 -69.08 19 A LYS 102 39.25 -144.72 19 A CYS 105 -67.92 -176.59 19 A THR 106 71.52 -4.04 19 A ASP 107 -138.79 -45.78 19 A GLU 110 -150.28 -54.55 19 A PHE 112 -108.89 75.79 20 A SER 8 -35.11 98.56 20 A ALA 9 -61.75 -177.49 20 A ASN 10 -79.75 40.94 20 A LYS 32 -124.85 -79.95 20 A PHE 35 -91.74 -78.62 20 A THR 40 82.39 38.63 20 A PRO 46 -74.31 -79.33 20 A SER 58 -42.98 175.76 20 A LEU 65 -32.01 146.69 20 A LYS 100 -95.46 -69.06 20 A LYS 102 59.48 -147.41 20 A CYS 105 -60.08 -176.51 20 A THR 106 47.10 19.51 20 A ASP 107 -159.42 -36.25 20 A GLU 110 -150.06 -56.98 20 A PHE 112 -108.18 72.85 Prepilin-type cleavage/methylation N-terminal domain protein lowest energy, model1 Solution NMR structure of the minor DNA-uptake pilin ComP from Neisseri subflava 1 N N A ASN 10 A ASN 5 HELX_P A LYS 32 A LYS 27 1 1 23 disulf 2.023 A CYS 54 A SG CYS 49 1_555 A CYS 105 A SG CYS 100 1_555 disulf 2.025 A CYS 96 A SG CYS 91 1_555 A CYS 119 A SG CYS 114 1_555 DNA BINDING PROTEIN Type Iv pilin, DNA-binding, DNA transformation, Neisseriaceae, DNA BINDING PROTEIN D3A5N9_NEISU UNP 1 59 D3A5N9 RSANLRAAHAALLENARFMEQFYAKKGSFKLTSTKWPELPVKEAGGFCIRMSGQAKGILEGKFTLKAVALDREAEPRVLR LNESLTAVVCGKMKGKGSCTDGEEIFRGNDAECRPFTG 59 176 2NBA 7 124 D3A5N9 A 1 2 119 1 EXPRESSION TAG HIS 6 2NBA A D3A5N9 UNP 1 6 parallel anti-parallel anti-parallel anti-parallel anti-parallel A ILE 111 A ILE 106 A PHE 112 A PHE 107 A PHE 53 A PHE 48 A SER 58 A SER 53 A THR 70 A THR 65 A ALA 75 A ALA 70 A VAL 84 A VAL 79 A ASN 88 A ASN 83 A ALA 93 A ALA 88 A MET 99 A MET 94 A ASP 116 A ASP 111 A PHE 122 A PHE 117