==== Secondary Structure Definition by the program DSSP, updated CMBI version by ElmK / April 1,2000 ==== DATE=26-JAN-2011 . REFERENCE W. KABSCH AND C.SANDER, BIOPOLYMERS 22 (1983) 2577-2637 . HEADER TRANSCRIPTION 03-JUN-10 2XGE . COMPND 2 MOLECULE: TETRACYCLINE REPRESSOR PROTEIN CLASS B FROM TRANS . SOURCE 2 ORGANISM_SCIENTIFIC: ESCHERICHIA COLI; . AUTHOR M.T.STIEBRITZ,S.WENGRZIK,J.P.RICHTER,Y.A.MULLER . 386 4 0 0 0 TOTAL NUMBER OF RESIDUES, NUMBER OF CHAINS, NUMBER OF SS-BRIDGES(TOTAL,INTRACHAIN,INTERCHAIN) . 24024.0 ACCESSIBLE SURFACE OF PROTEIN (ANGSTROM**2) . 754195.3 TOTAL NUMBER OF HYDROGEN BONDS OF TYPE O(I)-->H-N(J) , SAME NUMBER PER 100 RESIDUES . 186 48.2 TOTAL NUMBER OF HYDROGEN BONDS IN PARALLEL BRIDGES, SAME NUMBER PER 100 RESIDUES . 62 16.1 TOTAL NUMBER OF HYDROGEN BONDS IN ANTIPARALLEL BRIDGES, SAME NUMBER PER 100 RESIDUES . 0 0.0 TOTAL NUMBER OF HYDROGEN BONDS OF TYPE O(I)-->H-N(I-5), SAME NUMBER PER 100 RESIDUES . 0 0.0 TOTAL NUMBER OF HYDROGEN BONDS OF TYPE O(I)-->H-N(I-4), SAME NUMBER PER 100 RESIDUES . 0 0.0 TOTAL NUMBER OF HYDROGEN BONDS OF TYPE O(I)-->H-N(I-3), SAME NUMBER PER 100 RESIDUES . 0 0.0 TOTAL NUMBER OF HYDROGEN BONDS OF TYPE O(I)-->H-N(I-2), SAME NUMBER PER 100 RESIDUES . 0 0.0 TOTAL NUMBER OF HYDROGEN BONDS OF TYPE O(I)-->H-N(I-1), SAME NUMBER PER 100 RESIDUES . 0 0.0 TOTAL NUMBER OF HYDROGEN BONDS OF TYPE O(I)-->H-N(I+0), SAME NUMBER PER 100 RESIDUES . 0 0.0 TOTAL NUMBER OF HYDROGEN BONDS OF TYPE O(I)-->H-N(I+1), SAME NUMBER PER 100 RESIDUES . 2 0.5 TOTAL NUMBER OF HYDROGEN BONDS OF TYPE O(I)-->H-N(I+2), SAME NUMBER PER 100 RESIDUES . 8 2.1 TOTAL NUMBER OF HYDROGEN BONDS OF TYPE O(I)-->H-N(I+3), SAME NUMBER PER 100 RESIDUES . 114 29.5 TOTAL NUMBER OF HYDROGEN BONDS OF TYPE O(I)-->H-N(I+4), SAME NUMBER PER 100 RESIDUES . 2 0.5 TOTAL NUMBER OF HYDROGEN BONDS OF TYPE O(I)-->H-N(I+5), SAME NUMBER PER 100 RESIDUES . 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 *** HISTOGRAMS OF *** . 0 0 0 0 1 1 0 1 0 1 0 0 0 0 2 2 0 0 0 1 0 0 1 0 0 0 0 0 0 0 RESIDUES PER ALPHA HELIX . 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 4 PARALLEL BRIDGES PER LADDER . 31 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ANTIPARALLEL BRIDGES PER LADDER . 0 0 0 0 1 1 2 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 LADDERS PER SHEET . # RESIDUE AA STRUCTURE BP1 BP2 ACC N-H-->O O-->H-N N-H-->O O-->H-N TCO KAPPA ALPHA PHI PSI X-CA Y-CA Z-CA 1 2 A S > 0 0 113 0, 0.0 196,-3.7 0, 0.0 3,-1.3 0.000 360.0 360.0 360.0 107.2 8.8 20.2 11.1 2 3 A R E 3 +aB 197 198A 169 194,-3.7 196,-3.8 195,-0.8 195,-0.8 0.113 360.0 3.1 -93.7 -42.4 10.5 22.2 9.3 3 4 A L E 3 S+a 198 0A 26 194,-3.8 196,-3.7 195,-0.7 195,-0.7 0.089 74.5 139.1-117.8 19.7 10.7 25.9 10.3 4 5 A D E <> -a 199 0A 90 194,-3.7 196,-3.9 -3,-1.3 4,-2.6 -0.343 67.1-113.4 -47.3 143.5 8.7 26.1 13.5 5 6 A K H > S+aC 200 202A 148 194,-3.9 196,-3.8 195,-1.1 4,-2.4 0.943 119.6 50.4 -51.2 -49.8 10.6 28.5 15.9 6 7 A S H > S+aD 201 203A 63 194,-3.8 196,-3.7 195,-1.1 4,-1.8 0.781 111.3 48.5 -62.1 -29.1 11.3 25.5 18.2 7 8 A K H > S+a 202 0A 94 194,-3.7 196,-3.8 195,-0.8 4,-2.5 0.847 109.5 50.4 -80.6 -39.2 12.6 23.4 15.3 8 9 A V H X S+a 203 0A 7 194,-3.8 196,-3.9 -4,-2.6 4,-2.7 0.939 113.6 47.6 -58.3 -47.0 14.9 26.1 13.9 9 10 A I H X S+a 204 0A 11 194,-3.9 196,-3.7 -4,-2.4 4,-2.4 0.930 112.2 48.4 -64.3 -45.4 16.3 26.5 17.4 10 11 A N H X S+a 205 0A 64 194,-3.7 196,-3.7 -4,-1.8 4,-2.1 0.905 114.0 45.3 -63.9 -44.0 16.7 22.7 18.0 11 12 A S H X S+a 206 0A 19 194,-3.7 196,-3.8 -4,-2.5 4,-2.5 0.898 113.5 52.1 -62.6 -40.0 18.5 22.2 14.6 12 13 A A H X S+a 207 0A 0 194,-3.8 196,-3.8 -4,-2.7 4,-2.6 0.869 108.0 50.1 -65.1 -35.3 20.6 25.3 15.4 13 14 A L H X S+a 208 0A 1 194,-3.8 196,-3.7 -4,-2.4 4,-1.6 0.922 111.5 49.2 -65.9 -44.3 21.6 23.9 18.8 14 15 A E H X S+a 209 0A 102 194,-3.7 196,-3.8 -4,-2.1 4,-1.4 0.930 112.5 48.3 -56.0 -44.9 22.6 20.6 17.0 15 16 A L H X S+a 210 0A 8 194,-3.8 196,-3.8 -4,-2.5 4,-2.3 0.905 105.1 58.4 -66.2 -41.8 24.6 22.7 14.5 16 17 A L H X S+a 211 0A 0 194,-3.8 196,-3.8 -4,-2.6 4,-2.2 0.874 105.6 50.3 -53.3 -39.2 26.2 24.6 17.4 17 18 A N H < S+a 212 0A 75 194,-3.8 196,-3.9 -4,-1.6 195,-1.0 0.834 113.8 45.9 -70.4 -32.9 27.6 21.3 18.8 18 19 A E H < S+a 213 0A 117 194,-3.9 196,-3.8 -4,-1.4 195,-0.9 0.820 132.0 12.3 -72.5 -42.0 28.9 20.3 15.4 19 20 A V H < S-a 214 0A 44 194,-3.8 196,-3.8 -4,-2.3 4,-0.6 0.534 95.2-129.8-123.2 -11.9 30.6 23.6 14.4 20 21 A G E X -a 215 0A 1 194,-3.8 196,-3.9 -4,-2.2 4,-1.9 -0.012 41.2 -62.3 76.6 174.0 30.8 25.9 17.4 21 22 A I E 4 S+aE 216 218A 28 194,-3.9 196,-3.7 195,-1.0 195,-1.0 0.884 131.5 45.3 -70.4 -41.8 29.8 29.5 17.7 22 23 A E E 4 S+a 217 0A 184 194,-3.7 196,-3.8 195,-1.0 195,-1.0 0.883 117.0 47.3 -69.5 -34.4 32.2 31.2 15.1 23 24 A G E 4 S+a 218 0A 22 194,-3.8 196,-3.8 195,-0.9 195,-0.9 0.784 87.9 103.0 -75.3 -29.8 31.4 28.4 12.6 24 25 A L E < +a 219 0A 0 194,-3.8 196,-3.8 -4,-1.9 195,-1.1 -0.347 48.7 163.2 -58.3 126.6 27.6 28.7 13.1 25 26 A T E > -a 220 0A 48 194,-3.8 196,-3.9 195,-2.1 195,-2.1 -0.989 51.1-120.7-145.1 154.6 26.0 30.6 10.2 26 27 A T H > S+aF 221 223A 43 194,-3.9 196,-3.7 195,-1.1 4,-2.4 0.862 113.6 61.7 -65.1 -30.2 22.5 31.0 8.8 27 28 A R H > S+aG 222 224A 156 194,-3.7 196,-3.7 195,-1.0 4,-1.7 0.940 107.1 42.5 -60.9 -46.6 23.8 29.6 5.5 28 29 A K H > S+a 223 0A 82 194,-3.7 196,-3.8 195,-1.0 4,-2.9 0.842 111.4 55.7 -70.4 -30.9 24.7 26.2 7.2 29 30 A L H X S+a 224 0A 0 194,-3.8 196,-3.8 -4,-1.9 4,-3.0 0.938 107.8 48.9 -63.3 -45.8 21.5 26.2 9.2 30 31 A A H X>S+a 225 0A 2 194,-3.8 196,-3.8 -4,-2.4 5,-2.4 0.893 111.7 49.3 -61.3 -41.3 19.5 26.5 5.9 31 32 A Q H <5S+a 226 0A 127 194,-3.8 196,-3.8 -4,-1.7 195,-1.0 0.967 112.1 48.0 -64.0 -49.9 21.5 23.7 4.4 32 33 A K H <5S+a 227 0A 79 194,-3.8 196,-3.8 -4,-2.9 195,-1.1 0.897 113.9 47.0 -54.7 -45.4 20.9 21.5 7.5 33 34 A L H <5S-a 228 0A 14 194,-3.8 196,-3.7 -4,-3.0 195,-1.0 0.652 111.0-121.7 -74.4 -17.8 17.2 22.3 7.4 34 35 A G E <5S+a 229 0A 59 194,-3.7 196,-3.8 -4,-1.3 195,-0.9 0.777 71.1 120.9 85.5 31.3 16.9 21.6 3.6 35 36 A V E < -a 230 0A 31 194,-3.8 196,-3.8 -5,-2.4 195,-1.7 -0.834 67.4-101.8-132.5 153.7 15.7 25.1 2.8 36 37 A E E > -a 231 0A 145 194,-3.8 196,-3.8 195,-1.0 4,-1.9 -0.476 36.9-113.3 -77.9 153.4 16.8 28.0 0.6 37 38 A Q H > S+H 232 0B 90 194,-3.8 4,-2.9 195,-1.1 199,-2.9 0.886 115.7 52.3 -59.4 -44.9 18.5 30.9 2.4 38 39 A P H > S+I 235 0C 100 0, 0.0 196,-3.8 0, 0.0 4,-1.4 0.851 107.4 55.2 -55.4 -36.2 15.6 33.5 1.6 39 40 A T H 4 S+j 234 0C 64 194,-3.8 196,-3.9 195,-1.0 195,-1.0 0.957 112.5 40.9 -60.6 -49.0 13.2 31.0 3.1 40 41 A L H >X S+j 235 0C 3 194,-3.9 196,-3.8 -4,-1.9 4,-3.2 0.901 106.2 63.8 -66.3 -42.1 15.1 30.8 6.4 41 42 A Y H 3< S+jK 236 237C 139 194,-3.8 196,-3.8 -4,-2.9 195,-1.1 0.821 95.9 61.1 -52.2 -35.2 15.7 34.6 6.3 42 43 A W E 3< S+j 237 0C 184 194,-3.8 196,-3.9 -4,-1.4 195,-1.0 0.899 116.7 30.8 -52.1 -42.1 11.9 35.0 6.7 43 44 A H E <4 S+j 238 0C 87 194,-3.9 196,-3.8 -3,-1.3 195,-0.7 0.873 134.2 24.4 -91.5 -44.2 12.1 33.1 10.0 44 45 A V E < -j 239 0C 16 194,-3.8 196,-4.0 -4,-3.2 195,-1.7 -0.947 64.6-166.2-128.2 112.5 15.6 34.1 11.3 45 46 A K E -j 240 0C 100 194,-4.0 196,-3.8 195,-1.0 195,-1.0 0.851 64.1 -17.5 -66.4 -43.1 17.0 37.4 9.9 46 47 A N E > -j 241 0C 78 194,-3.8 196,-3.9 195,-2.0 4,-2.2 -0.948 68.4 -90.3-156.1 174.9 20.6 37.0 11.0 47 48 A K H > S+jL 242 244C 64 194,-3.9 196,-3.8 195,-1.0 4,-3.3 0.847 120.6 57.5 -61.9 -38.6 23.1 35.2 13.2 48 49 A R H > S+jM 243 245C 97 194,-3.8 196,-3.8 195,-1.0 4,-2.3 0.918 109.0 46.5 -58.5 -44.9 22.7 37.8 16.0 49 50 A A H > S+j 244 0C 37 194,-3.8 196,-3.9 195,-1.0 4,-2.1 0.929 114.1 49.0 -60.5 -47.1 19.0 37.0 16.1 50 51 A L H X S+j 245 0C 2 194,-3.9 196,-3.9 -4,-2.2 4,-2.5 0.952 111.4 47.6 -55.7 -54.9 19.8 33.3 16.1 51 52 A L H X S+j 246 0C 10 194,-3.9 196,-3.9 -4,-3.3 4,-2.3 0.858 109.0 53.9 -59.5 -41.9 22.4 33.5 18.8 52 53 A D H X S+j 247 0C 57 194,-3.9 196,-3.8 -4,-2.3 4,-1.9 0.926 111.1 47.2 -54.5 -49.0 20.0 35.6 21.0 53 54 A A H X S+j 248 0C 21 194,-3.8 196,-3.8 -4,-2.1 4,-2.1 0.884 110.7 51.5 -62.0 -41.3 17.4 32.8 20.6 54 55 A L H X S+j 249 0C 0 194,-3.8 196,-3.8 -4,-2.5 4,-2.8 0.899 106.9 53.9 -63.1 -43.0 19.9 30.1 21.4 55 56 A A H X S+j 250 0C 7 194,-3.8 196,-3.9 -4,-2.3 4,-1.7 0.948 110.8 45.9 -57.5 -51.4 21.0 31.8 24.6 56 57 A V H X S+j 251 0C 39 194,-3.9 196,-3.8 -4,-1.9 4,-2.3 0.890 113.6 50.0 -54.5 -45.5 17.4 32.0 25.8 57 58 A E H X S+j 252 0C 44 194,-3.8 196,-3.8 -4,-2.1 4,-2.6 0.895 104.6 56.1 -67.7 -40.9 16.7 28.4 24.9 58 59 A I H X S+j 253 0C 4 194,-3.8 196,-3.8 -4,-2.8 4,-2.3 0.971 113.6 41.0 -56.9 -52.1 19.8 27.0 26.6 59 60 A L H X S+j 254 0C 27 194,-3.8 196,-3.7 -4,-1.7 4,-1.7 0.855 113.3 53.9 -62.4 -39.2 18.7 28.6 29.9 60 61 A A H < S+j 255 0C 61 194,-3.7 196,-3.8 -4,-2.3 195,-1.0 0.871 115.9 39.0 -64.7 -38.9 15.0 27.7 29.4 61 62 A R H < S+j 256 0C 90 194,-3.8 196,-3.8 -4,-2.6 195,-0.9 0.859 134.1 14.5 -75.4 -40.2 15.9 24.0 28.9 62 63 A H H < S+j 257 0C 44 194,-3.8 196,-3.8 -4,-2.3 2,-1.9 0.685 96.3 87.6-119.7 -22.9 18.6 23.5 31.4 63 64 A H E < +j 258 0C 22 194,-3.8 196,-3.9 -4,-1.7 195,-1.5 -0.492 47.3 155.9 -86.4 72.8 18.8 26.3 34.0 64 65 A D E +j 259 0C 124 194,-3.9 196,-3.7 -2,-1.9 195,-1.0 0.611 61.4 58.0 -80.2 -16.1 16.3 24.7 36.3 65 66 A Y E +j 260 0C 70 194,-3.7 196,-3.8 195,-1.1 195,-1.1 -0.297 63.6 123.0-107.7 50.1 17.4 26.4 39.6 66 67 A S E S+j 261 0C 33 194,-3.8 196,-3.8 195,-1.0 195,-1.0 0.744 70.4 49.2 -79.1 -22.1 17.0 30.0 38.5 67 68 A L B S-N 262 0D 80 194,-3.8 195,-1.7 195,-1.7 2,-0.1 -0.919 89.3-106.7-124.7 144.2 14.6 30.8 41.3 68 69 A P - 0 0 30 0, 0.0 196,-3.9 0, 0.0 3,-0.1 -0.426 33.7-123.6 -69.8 141.2 14.8 30.2 45.1 69 70 A A E > -o 264 0E 52 194,-3.9 196,-3.8 195,-0.7 3,-1.4 -0.219 41.1 -77.0 -75.5 168.9 12.6 27.4 46.8 70 71 A A E 3 S+oP 265 266E 109 194,-3.8 196,-3.8 195,-1.3 195,-1.3 -0.532 118.2 4.0 -72.8 126.6 10.2 28.0 49.6 71 72 A G E 3 S+o 266 0E 88 194,-3.8 196,-3.7 195,-1.0 195,-1.0 0.431 95.0 151.8 79.3 0.8 12.0 28.4 52.9 72 73 A E E < -o 267 0E 26 194,-3.7 196,-3.8 -3,-1.4 195,-1.0 -0.355 46.2-121.3 -71.7 141.8 15.4 28.2 51.2 73 74 A S E > -o 268 0E 52 194,-3.8 196,-3.7 195,-1.0 4,-2.1 -0.466 22.1-118.8 -74.8 152.5 18.4 30.0 52.7 74 75 A W H > S+oQ 269 271E 15 194,-3.7 196,-3.8 195,-1.1 4,-2.5 0.861 115.3 57.7 -62.6 -31.5 20.2 32.7 50.5 75 76 A Q H > S+oR 270 272E 39 194,-3.8 196,-3.8 195,-1.0 4,-2.2 0.933 107.5 45.0 -62.0 -50.4 23.3 30.5 50.7 76 77 A S H > S+o 271 0E 35 194,-3.8 196,-3.9 195,-1.0 4,-3.5 0.892 110.5 55.6 -59.0 -41.8 21.6 27.5 49.3 77 78 A F H X S+o 272 0E 0 194,-3.9 196,-3.8 -4,-2.1 4,-3.0 0.975 111.0 42.8 -56.9 -53.2 20.0 29.7 46.6 78 79 A L H X S+o 273 0E 0 194,-3.8 196,-3.9 -4,-2.5 4,-1.8 0.836 116.7 47.8 -64.4 -36.9 23.3 31.0 45.4 79 80 A R H X S+o 274 0E 63 194,-3.9 196,-3.8 -4,-2.2 4,-2.4 0.950 116.9 41.8 -67.1 -51.5 25.0 27.6 45.5 80 81 A N H X S+o 275 0E 41 194,-3.8 196,-3.9 -4,-3.5 4,-1.9 0.850 116.5 48.5 -62.8 -37.4 22.1 25.9 43.7 81 82 A N H X S+o 276 0E 15 194,-3.9 196,-3.8 -4,-3.0 4,-2.9 0.896 112.3 48.8 -69.6 -43.9 21.7 28.7 41.1 82 83 A A H X S+o 277 0E 0 194,-3.8 196,-3.9 -4,-1.8 4,-2.6 0.937 112.0 47.7 -61.3 -50.0 25.4 28.8 40.4 83 84 A M H X S+o 278 0E 50 194,-3.9 196,-3.8 -4,-2.4 4,-2.3 0.918 114.3 48.6 -59.3 -40.6 25.6 25.0 40.0 84 85 A S H X S+o 279 0E 0 194,-3.8 196,-3.9 -4,-1.9 4,-2.4 0.900 109.7 50.3 -66.8 -45.3 22.6 25.2 37.7 85 86 A F H X S+o 280 0E 15 194,-3.9 196,-3.7 -4,-2.9 4,-2.4 0.933 111.8 48.9 -55.6 -46.5 23.9 28.0 35.6 86 87 A R H X S+o 281 0E 25 194,-3.7 196,-3.8 -4,-2.6 4,-2.0 0.920 111.7 48.1 -64.0 -48.8 27.2 26.1 35.1 87 88 A R H < S+o 282 0E 97 194,-3.8 196,-3.7 -4,-2.3 195,-0.9 0.912 111.6 50.8 -53.0 -46.5 25.5 22.9 34.1 88 89 A A H >< S+o 283 0E 0 194,-3.7 196,-3.8 -4,-2.4 3,-1.2 0.936 112.2 46.4 -61.8 -45.2 23.3 24.7 31.7 89 90 A L H 3< S+oS 284 285E 0 194,-3.8 196,-3.8 -4,-2.4 195,-1.1 0.797 108.9 55.6 -69.4 -30.0 26.3 26.5 30.1 90 91 A L E 3< S+o 285 0E 48 194,-3.8 196,-3.6 -4,-2.0 195,-1.0 0.555 88.2 80.7 -78.5 -4.6 28.3 23.3 29.8 91 92 A R E < S+o 286 0E 135 194,-3.6 196,-3.8 -3,-1.2 195,-1.0 0.861 94.6 39.4 -73.2 -33.4 25.5 21.5 27.8 92 93 A Y E > S-o 287 0E 18 194,-3.8 196,-4.0 195,-1.7 195,-1.7 -0.877 94.5 -96.5-119.7 149.5 26.4 22.9 24.4 93 94 A R E 3 S+oT 288 289E 120 194,-4.0 196,-3.9 195,-1.0 195,-1.0 -0.356 111.7 5.6 -58.0 136.1 29.6 23.7 22.7 94 95 A D E 3> S+o 289 0E 23 194,-3.9 196,-3.8 195,-1.1 4,-2.1 0.756 87.6 149.0 58.1 30.1 30.6 27.4 23.2 95 96 A G H <> +oU 290 292E 1 194,-3.8 196,-3.8 -3,-1.6 4,-2.1 0.886 67.6 48.2 -67.2 -40.0 27.6 27.7 25.5 96 97 A A H > S+oV 291 293E 0 194,-3.8 196,-3.8 195,-1.1 4,-2.3 0.820 109.7 52.8 -65.1 -36.9 29.2 30.3 27.6 97 98 A K H > S+o 292 0E 63 194,-3.8 196,-3.9 195,-1.0 4,-2.0 0.873 108.8 50.7 -66.9 -36.4 30.2 32.3 24.6 98 99 A V H < S+o 293 0E 1 194,-3.9 196,-3.8 -4,-2.1 195,-1.0 0.923 112.4 46.4 -64.8 -45.5 26.6 32.2 23.4 99 100 A H H < S+o 294 0E 24 194,-3.8 196,-3.8 -4,-2.1 3,-1.0 0.906 113.4 49.4 -61.0 -44.4 25.4 33.4 26.7 100 101 A L H < S+o 295 0E 114 194,-3.8 196,-3.9 -4,-2.3 195,-1.1 0.862 105.1 57.1 -64.2 -41.3 28.1 36.2 26.9 101 102 A G E < S+o 296 0E 41 194,-3.9 196,-3.8 -4,-2.0 195,-1.2 0.437 96.5 80.1 -77.6 -0.7 27.4 37.6 23.4 102 103 A T E S-o 297 0E 20 194,-3.8 196,-3.9 195,-1.6 195,-1.6 -0.885 74.9-129.3-113.0 137.7 23.7 38.2 24.1 103 104 A R B -W 298 0F 220 194,-3.9 195,-1.1 195,-1.1 -2,-0.0 -0.505 45.2 -96.8 -68.5 145.6 21.9 41.1 25.9 104 105 A P - 0 0 55 0, 0.0 196,-3.9 0, 0.0 2,-0.2 -0.249 39.9-143.4 -63.2 161.8 19.5 39.9 28.5 105 106 A D E > -x 300 0G 45 194,-3.9 196,-3.9 195,-1.4 4,-2.6 -0.696 36.4 -81.8-118.3 172.1 15.8 39.5 27.7 106 107 A E H > S+xY 301 303G 133 194,-3.9 196,-3.7 195,-1.1 4,-2.3 0.732 128.0 54.3 -41.7 -33.2 12.5 40.1 29.6 107 108 A K H > S+xZ 302 304G 119 194,-3.7 196,-3.9 195,-0.7 4,-3.4 0.995 110.0 41.9 -67.5 -67.3 13.0 36.6 31.1 108 109 A Q H > S+x 303 0G 53 194,-3.9 196,-3.8 195,-1.0 4,-3.5 0.909 117.9 49.1 -42.3 -56.9 16.5 37.1 32.6 109 110 A Y H X S+x 304 0G 140 194,-3.8 196,-3.7 -4,-2.6 4,-2.1 0.944 113.5 45.4 -49.3 -56.1 15.4 40.6 33.8 110 111 A D H X S+x 305 0G 92 194,-3.7 196,-3.8 -4,-2.3 4,-1.6 0.892 115.4 47.8 -57.8 -41.9 12.2 39.3 35.4 111 112 A T H X S+x 306 0G 38 194,-3.8 196,-3.8 -4,-3.4 4,-2.0 0.955 110.3 51.0 -64.6 -48.6 14.1 36.4 37.0 112 113 A V H X S+x 307 0G 49 194,-3.8 196,-3.8 -4,-3.5 4,-2.5 0.844 105.9 57.6 -57.4 -34.0 16.8 38.7 38.3 113 114 A E H X S+x 308 0G 124 194,-3.8 196,-3.9 -4,-2.1 4,-2.3 0.925 107.3 46.0 -62.0 -46.1 14.1 41.0 39.8 114 115 A T H X S+x 309 0G 69 194,-3.9 196,-3.9 -4,-1.6 4,-2.4 0.842 112.0 52.8 -66.4 -33.8 12.7 38.1 41.9 115 116 A Q H X S+x 310 0G 8 194,-3.9 196,-3.8 -4,-2.0 4,-2.5 0.873 109.3 48.2 -66.9 -41.9 16.3 37.2 42.9 116 117 A L H X S+x 311 0G 28 194,-3.8 196,-3.8 -4,-2.5 4,-2.7 0.894 111.5 49.9 -63.6 -44.6 17.0 40.7 44.1 117 118 A R H X S+x 312 0G 164 194,-3.8 196,-3.9 -4,-2.3 4,-2.2 0.965 111.9 49.5 -56.9 -51.2 13.7 40.7 46.0 118 119 A F H < S+x 313 0G 25 194,-3.9 196,-3.8 -4,-2.4 195,-1.1 0.925 112.4 46.2 -51.0 -51.8 14.7 37.4 47.6 119 120 A M H <>S+x 314 0G 0 194,-3.8 196,-3.8 -4,-2.5 5,-1.8 0.904 111.4 51.7 -65.5 -40.4 18.2 38.7 48.5 120 121 A T H ><5S+x 315 0G 47 194,-3.8 196,-3.8 -4,-2.7 3,-1.4 0.853 104.7 55.8 -65.7 -33.6 16.9 41.9 50.0 121 122 A E E 3<5S+xA 316 317G 124 194,-3.8 196,-3.8 -4,-2.2 195,-1.1 0.669 103.6 58.5 -71.4 -15.0 14.3 40.1 52.2 122 123 A N E 3 5S-x 317 0G 57 194,-3.8 196,-3.9 195,-0.9 195,-0.9 0.056 132.4 -86.9-101.7 18.6 17.3 38.1 53.6 123 124 A G E < 5S+x 318 0G 55 194,-3.9 196,-3.8 -3,-1.4 195,-1.0 0.232 84.7 132.4 100.3 -13.8 19.1 41.3 54.8 124 125 A F E < -x 319 0G 13 194,-3.8 196,-3.8 -5,-1.8 195,-1.2 -0.526 55.1-127.9 -69.4 134.1 21.0 42.3 51.7 125 126 A S E > -x 320 0G 56 194,-3.8 196,-3.8 195,-0.9 4,-2.9 -0.368 36.5-103.1 -60.8 159.1 20.9 45.9 50.6 126 127 A L H > S+xB 321 323G 114 194,-3.8 196,-3.9 195,-1.2 4,-2.4 0.888 121.8 49.4 -55.0 -38.7 20.0 46.1 46.9 127 128 A R H > S+xC 322 324G 151 194,-3.9 196,-3.9 195,-1.0 4,-2.8 0.914 113.8 41.4 -74.6 -43.2 23.6 46.8 46.0 128 129 A D H > S+x 323 0G 55 194,-3.9 196,-3.9 195,-1.0 4,-2.3 0.853 114.6 53.4 -73.4 -36.2 25.2 43.9 48.0 129 130 A G H X S+x 324 0G 0 194,-3.9 196,-3.8 -4,-2.9 4,-2.0 0.928 114.2 42.8 -55.4 -48.4 22.4 41.7 46.9 130 131 A L H X S+x 325 0G 67 194,-3.8 196,-3.8 -4,-2.4 4,-2.4 0.889 112.4 51.4 -68.6 -42.6 23.2 42.7 43.3 131 132 A Y H X S+x 326 0G 133 194,-3.8 196,-3.9 -4,-2.8 199,-2.7 0.888 109.7 53.3 -58.0 -41.7 27.0 42.4 43.8 132 133 A A H X S+x 327 0G 1 194,-3.9 196,-3.8 -4,-2.3 4,-2.0 0.934 111.1 42.6 -59.8 -50.2 26.5 38.9 45.2 133 134 A I H X S+x 328 0G 17 194,-3.8 196,-3.9 -4,-2.0 4,-2.3 0.940 115.5 50.2 -66.5 -46.7 24.5 37.6 42.3 134 135 A S H X S+x 329 0G 39 194,-3.9 196,-3.8 -4,-2.4 4,-3.1 0.911 109.0 51.6 -53.7 -48.2 26.8 39.3 39.7 135 136 A W H X S+x 330 0G 68 194,-3.8 196,-3.9 -4,-2.7 4,-2.9 0.932 109.7 49.0 -59.2 -47.6 30.0 37.8 41.4 136 137 A V H X S+x 331 0G 4 194,-3.8 196,-3.9 -4,-2.0 4,-2.4 0.922 113.7 48.9 -57.7 -42.4 28.5 34.3 41.3 137 138 A S H X S+x 332 0G 39 194,-3.9 196,-3.8 -4,-2.3 4,-2.8 0.931 112.5 45.4 -60.1 -50.9 27.7 34.9 37.7 138 139 A H H X S+x 333 0G 125 194,-3.8 196,-3.8 -4,-3.1 4,-2.5 0.902 114.8 48.3 -62.9 -43.7 31.1 36.2 36.7 139 140 A F H < S+x 334 0G 42 194,-4.0 196,-3.7 -4,-2.9 4,-2.0 0.912 114.1 46.0 -63.4 -45.7 32.9 33.4 38.6 140 141 A T H X S+x 335 0G 0 194,-3.8 196,-3.8 -4,-2.4 4,-2.3 0.916 114.0 49.1 -65.0 -43.2 30.7 30.7 37.0 141 142 A L H X S+x 336 0G 25 194,-3.8 196,-3.8 -4,-2.8 4,-2.9 0.915 110.5 49.4 -61.3 -47.0 31.1 32.2 33.6 142 143 A G H X S+x 337 0G 34 194,-3.8 196,-3.8 -4,-2.5 4,-2.3 0.910 112.1 48.7 -61.4 -43.5 34.9 32.5 33.9 143 144 A A H > S+x 338 0G 34 194,-3.8 196,-3.7 191,-2.1 4,-2.5 0.928 115.4 42.8 -60.5 -48.6 35.2 28.9 35.0 144 145 A V H X S+x 339 0G 0 194,-3.7 196,-3.8 -4,-2.3 4,-3.2 0.947 111.3 54.2 -70.3 -45.5 33.0 27.5 32.3 145 146 A L H X S+x 340 0G 42 194,-3.8 196,-3.8 -4,-2.9 4,-2.4 0.946 111.8 45.5 -53.0 -48.2 34.6 29.6 29.6 146 147 A E H < S+x 341 0G 140 194,-3.8 196,-3.7 -4,-2.3 4,-1.5 0.923 113.8 49.7 -60.4 -43.5 38.0 28.3 30.6 147 148 A Q H < S+x 342 0G 57 194,-3.7 196,-3.8 -4,-2.5 195,-1.0 0.875 115.3 43.1 -59.6 -41.1 36.6 24.7 30.7 148 149 A Q H < S+x 343 0G 42 194,-3.8 196,-3.7 -4,-3.2 195,-0.9 0.804 111.0 52.5 -81.4 -31.8 35.0 25.0 27.2 149 150 A E E < x 344 0G 104 194,-3.7 196,-3.9 -4,-2.4 195,-0.9 0.996 360.0 360.0 -64.5 -60.6 37.9 26.8 25.4 150 151 A H 0 0 204 194,-3.9 195,-1.9 195,-1.9 -1,-0.3 -0.971 360.0 360.0-142.5 360.0 40.5 24.2 26.5 151 ! 0 0 0 0, 0.0 0, 0.0 0, 0.0 0, 0.0 0.000 360.0 360.0 360.0 360.0 0.0 0.0 0.0 152 166 A L 0 0 152 0, 0.0 0, 0.0 0, 0.0 0, 0.0 0.000 360.0 360.0 360.0 127.1 56.7 22.0 33.3 153 167 A P > - 0 0 74 0, 0.0 4,-2.3 0, 0.0 199,-2.3 -0.255 360.0-109.7 -78.3 155.8 57.7 23.1 36.8 154 168 A P H > S+D 351 0H 75 0, 0.0 196,-3.8 0, 0.0 4,-2.3 0.870 108.6 36.2 -39.9 -66.6 57.7 21.1 40.1 155 169 A L H > S+eF 350 352H 150 194,-3.8 196,-3.9 195,-1.1 195,-1.1 0.825 116.2 51.9 -72.2 -36.7 54.8 22.4 42.1 156 170 A L H > S+e 351 0H 90 194,-3.9 196,-3.8 195,-1.0 4,-1.8 0.916 111.2 50.6 -64.1 -44.9 52.4 23.1 39.3 157 171 A R H X S+e 352 0H 112 194,-3.8 196,-3.8 -4,-2.3 3,-1.3 0.989 109.5 48.2 -48.5 -64.2 53.0 19.6 38.1 158 172 A E H < S+e 353 0H 117 194,-3.8 196,-3.9 -4,-2.3 195,-1.3 0.523 114.5 45.9 -71.2 -9.0 52.3 18.0 41.5 159 173 A A H >X S+e 354 0H 54 194,-3.9 196,-3.8 -4,-0.9 3,-1.6 0.685 102.8 65.2 -89.7 -32.7 49.1 20.0 42.0 160 174 A L H 3X S+eG 355 356H 51 194,-3.8 196,-3.8 -4,-1.8 4,-1.9 0.784 82.6 73.4 -68.2 -30.0 47.8 19.3 38.5 161 175 A Q H 3< S+e 356 0H 101 194,-3.8 196,-3.7 -4,-1.3 195,-1.2 0.579 108.2 39.0 -52.7 -10.3 47.4 15.6 39.1 162 176 A I H <4 S+e 357 0H 101 194,-3.7 196,-3.7 -3,-1.6 3,-0.4 0.709 111.5 52.9-110.7 -35.4 44.4 16.8 41.2 163 177 A M H < S+e 358 0H 96 194,-3.7 196,-3.8 -4,-1.1 195,-1.1 0.738 111.9 48.2 -70.4 -20.5 43.0 19.7 39.0 164 178 A D E < S+e 359 0H 110 194,-3.8 196,-3.7 -4,-1.9 2,-0.8 0.472 86.9 76.1-110.5 -6.6 42.8 17.4 35.9 165 179 A S E S+e 360 0H 106 194,-3.7 196,-3.9 195,-1.3 195,-1.3 -0.529 107.6 36.9 -93.5 63.3 41.1 14.2 37.1 166 180 A D E S-e 361 0H 47 194,-3.9 196,-3.8 195,-1.5 195,-1.5 -0.690 91.9-110.7 157.6 146.1 37.9 16.2 37.0 167 181 A D E S-e 362 0H 118 194,-3.8 196,-3.8 195,-1.4 195,-1.4 -0.572 73.1 -71.6-103.4 67.0 36.6 18.9 34.7 168 182 A G E > S+e 363 0H 24 194,-3.8 196,-3.7 195,-1.2 4,-2.6 0.142 102.2 114.1 81.2 -19.3 36.7 22.0 36.9 169 183 A E H > S+eH 364 366H 96 194,-3.7 196,-3.8 195,-1.0 4,-3.4 0.894 75.0 49.6 -57.9 -50.1 33.8 21.1 39.3 170 184 A Q H > S+eI 365 367H 120 194,-3.8 196,-3.8 195,-1.0 4,-2.8 0.941 115.0 43.5 -53.4 -55.7 35.8 20.6 42.5 171 185 A A H > S+e 366 0H 43 194,-3.8 196,-3.9 195,-1.1 4,-2.7 0.916 115.4 50.2 -56.4 -45.6 37.7 24.0 42.1 172 186 A F H X S+e 367 0H 7 194,-3.9 196,-3.9 -4,-2.6 4,-2.2 0.951 112.3 46.0 -59.8 -50.0 34.4 25.7 41.1 173 187 A L H X S+e 368 0H 54 194,-3.9 196,-3.8 -4,-3.4 4,-1.5 0.891 113.5 49.8 -61.3 -41.7 32.5 24.3 44.1 174 188 A H H X S+e 369 0H 109 194,-3.8 196,-3.7 -4,-2.8 199,-1.9 0.924 111.7 47.2 -63.6 -48.5 35.4 25.2 46.5 175 189 A G H X S+e 370 0H 9 194,-3.7 196,-3.9 -4,-2.7 199,-2.5 0.840 108.1 56.8 -60.8 -37.5 35.6 28.8 45.2 176 190 A L H X S+e 371 0H 0 194,-3.9 196,-3.8 -4,-2.2 4,-2.3 0.862 106.6 48.7 -59.7 -41.8 31.9 29.1 45.5 177 191 A E H X S+e 372 0H 78 194,-3.8 196,-3.9 -4,-1.5 4,-2.4 0.871 108.5 54.2 -67.4 -37.4 32.0 28.2 49.2 178 192 A S H < S+e 373 0H 17 194,-3.9 196,-4.0 -4,-1.8 4,-1.7 0.922 111.4 44.9 -61.9 -43.9 34.8 30.7 49.8 179 193 A A H X S+e 374 0H 0 194,-3.6 196,-3.5 -4,-2.1 199,-2.3 0.959 111.3 52.1 -63.3 -52.6 32.7 33.5 48.2 180 194 A I H X S+e 375 0H 1 194,-2.6 196,-3.7 -4,-2.3 199,-2.8 0.909 109.7 49.5 -50.6 -47.2 29.5 32.6 50.1 181 195 A R H X S+e 376 0H 162 194,-3.7 196,-3.8 -4,-2.4 4,-2.7 0.862 109.0 53.7 -64.6 -36.3 31.3 32.6 53.4 182 196 A G H > S+e 377 0H 39 194,-3.8 196,-3.8 191,-1.8 4,-2.3 0.896 110.2 46.4 -60.4 -41.7 32.7 36.1 52.5 183 197 A I H < S+e 378 0H 4 194,-3.9 196,-3.7 -4,-2.3 4,-2.9 0.908 110.9 52.8 -67.4 -43.6 29.2 37.3 51.8 184 198 A E H X S+e 379 0H 48 194,-3.8 196,-3.8 -4,-2.7 4,-2.9 0.949 110.9 47.4 -54.6 -51.1 28.0 35.7 55.1 185 199 A V H X S+e 380 0H 61 194,-3.8 196,-3.8 -4,-2.7 4,-2.1 0.915 114.6 45.0 -59.8 -47.4 30.8 37.6 57.0 186 200 A Q H < S+e 381 0H 104 194,-3.8 196,-3.8 -4,-2.3 195,-1.0 0.868 113.8 50.7 -63.0 -40.9 30.1 40.9 55.3 187 201 A L H 4 S+e 382 0H 44 194,-3.8 196,-3.8 191,-3.2 195,-1.0 0.975 113.3 44.6 -59.3 -54.9 26.3 40.5 55.9 188 202 A T H < S+e 383 0H 100 194,-3.8 196,-3.8 -4,-2.9 195,-1.0 0.789 104.4 62.6 -65.4 -33.5 26.8 39.7 59.6 189 203 A A E >< S+e 384 0H 9 194,-3.8 196,-3.8 -4,-2.1 3,-1.8 0.831 75.3 172.2 -58.8 -34.3 29.3 42.5 60.3 190 204 A L E 3 S-eJ 385 386H 126 194,-3.8 196,-3.8 195,-1.1 195,-1.1 -0.416 71.4 -9.9 56.1-122.3 26.7 45.2 59.3 191 205 A L E 3 S+e 386 0H 160 194,-3.8 196,-3.8 195,-1.0 195,-1.0 0.299 113.9 105.4 -86.8 5.0 28.2 48.7 60.2 192 206 A Q E < S-e 387 0H 123 194,-3.8 196,-3.9 -3,-1.8 195,-1.1 -0.522 83.9 -97.3 -84.3 156.0 31.2 47.2 62.1 193 207 A I E e 388 0H 175 194,-3.9 196,-3.8 195,-1.4 195,-1.4 -0.603 360.0 360.0 -71.7 124.8 34.8 47.1 60.8 194 208 A V 0 0 110 194,-3.8 195,-1.3 195,-1.3 -8,-0.1 -0.745 360.0 360.0-120.5 360.0 35.3 43.5 59.4 195 !* 0 0 0 0, 0.0 0, 0.0 0, 0.0 0, 0.0 0.000 360.0 360.0 360.0 360.0 0.0 0.0 0.0 196 2 B S 0 0 113 0, 0.0 -194,-3.7 0, 0.0 -192,-1.3 0.000 360.0 360.0 360.0 107.2 8.8 20.2 11.1 197 3 B R E +a 2 0A 169 -196,-3.7 -194,-3.8 -195,-0.8 -195,-0.8 0.113 360.0 3.1 -93.7 -42.4 10.5 22.2 9.3 198 4 B L E S+aB 3 2A 26 -196,-3.8 -194,-3.7 -195,-0.7 -195,-0.7 0.089 74.5 139.1-117.8 19.7 10.7 25.9 10.3 199 5 B D E -a 4 0A 90 -196,-3.7 -194,-3.9 -198,-1.3 -191,-2.6 -0.343 67.1-113.4 -47.3 143.5 8.7 26.1 13.5 200 6 B K E S+a 5 0A 148 -196,-3.9 -194,-3.8 -195,-1.1 -191,-2.4 0.943 119.6 50.4 -51.2 -49.8 10.6 28.5 15.9 201 7 B S E S+a 6 0A 63 -196,-3.8 -194,-3.7 -195,-1.1 -191,-1.8 0.781 111.3 48.5 -62.1 -29.1 11.3 25.5 18.2 202 8 B K E S+aC 7 5A 94 -196,-3.7 -194,-3.8 -195,-0.8 -191,-2.5 0.847 109.5 50.4 -80.6 -39.2 12.6 23.4 15.3 203 9 B V E S+aD 8 6A 7 -196,-3.8 -194,-3.9 -199,-2.6 -191,-2.7 0.939 113.6 47.6 -58.3 -47.0 14.9 26.1 13.9 204 10 B I E S+a 9 0A 11 -196,-3.9 -194,-3.7 -199,-2.4 -191,-2.4 0.930 112.2 48.4 -64.3 -45.4 16.3 26.5 17.4 205 11 B N E S+a 10 0A 64 -196,-3.7 -194,-3.7 -199,-1.8 -191,-2.1 0.905 114.0 45.3 -63.9 -44.0 16.7 22.7 18.0 206 12 B S E S+a 11 0A 19 -196,-3.7 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