==== Secondary Structure Definition by the program DSSP, updated CMBI version by ElmK / April 1,2000 ==== DATE=20-JUL-2011 . REFERENCE W. KABSCH AND C.SANDER, BIOPOLYMERS 22 (1983) 2577-2637 . HEADER HYDROLASE 26-OCT-07 3B5L . COMPND 2 MOLECULE: ENDOXYLANASE; . SOURCE 2 ORGANISM_SCIENTIFIC: ARTIFICIAL GENE; . AUTHOR B.L.STODDARD,L.A.DOYLE . 198 1 0 0 0 TOTAL NUMBER OF RESIDUES, NUMBER OF CHAINS, NUMBER OF SS-BRIDGES(TOTAL,INTRACHAIN,INTERCHAIN) . 8406.0 ACCESSIBLE SURFACE OF PROTEIN (ANGSTROM**2) . 146 73.7 TOTAL NUMBER OF HYDROGEN BONDS OF TYPE O(I)-->H-N(J) , SAME NUMBER PER 100 RESIDUES . 7 3.5 TOTAL NUMBER OF HYDROGEN BONDS IN PARALLEL BRIDGES, SAME NUMBER PER 100 RESIDUES . 96 48.5 TOTAL NUMBER OF HYDROGEN BONDS IN ANTIPARALLEL BRIDGES, SAME NUMBER PER 100 RESIDUES . 1 0.5 TOTAL NUMBER OF HYDROGEN BONDS OF TYPE O(I)-->H-N(I-5), SAME NUMBER PER 100 RESIDUES . 1 0.5 TOTAL NUMBER OF HYDROGEN BONDS OF TYPE O(I)-->H-N(I-4), SAME NUMBER PER 100 RESIDUES . 2 1.0 TOTAL NUMBER OF HYDROGEN BONDS OF TYPE O(I)-->H-N(I-3), SAME NUMBER PER 100 RESIDUES . 1 0.5 TOTAL NUMBER OF HYDROGEN BONDS OF TYPE O(I)-->H-N(I-2), SAME NUMBER PER 100 RESIDUES . 1 0.5 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 . 21 10.6 TOTAL NUMBER OF HYDROGEN BONDS OF TYPE O(I)-->H-N(I+2), SAME NUMBER PER 100 RESIDUES . 8 4.0 TOTAL NUMBER OF HYDROGEN BONDS OF TYPE O(I)-->H-N(I+3), SAME NUMBER PER 100 RESIDUES . 8 4.0 TOTAL NUMBER OF HYDROGEN BONDS OF TYPE O(I)-->H-N(I+4), SAME NUMBER PER 100 RESIDUES . 2 1.0 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 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 RESIDUES PER ALPHA HELIX . 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 PARALLEL BRIDGES PER LADDER . 0 0 1 0 3 3 0 2 2 1 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 0 0 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 -3 B G 0 0 108 0, 0.0 36,-0.0 0, 0.0 0, 0.0 0.000 360.0 360.0 360.0-177.5 9.8 -28.4 5.4 2 -2 B S + 0 0 122 2,-0.1 0, 0.0 0, 0.0 0, 0.0 0.677 360.0 115.1 -79.3 -20.8 9.0 -30.0 2.0 3 -1 B H - 0 0 38 1,-0.1 2,-0.9 14,-0.0 34,-0.2 -0.194 68.3-135.6 -48.2 131.6 6.7 -27.0 1.4 4 0 B M - 0 0 170 32,-0.1 -1,-0.1 0, 0.0 31,-0.1 -0.874 28.3-136.7 -94.8 102.4 7.8 -24.9 -1.5 5 1 B D - 0 0 79 -2,-0.9 2,-0.3 29,-0.1 31,-0.2 -0.246 21.7-167.9 -61.8 143.8 7.4 -21.4 -0.0 6 2 B T E -A 35 0A 78 29,-0.8 29,-2.3 30,-0.0 2,-0.5 -0.884 15.2-133.1-126.8 162.2 5.8 -18.7 -2.1 7 3 B T E -A 34 0A 86 -2,-0.3 2,-0.3 27,-0.2 27,-0.2 -0.984 16.7-154.4-124.8 123.4 5.6 -14.9 -1.6 8 4 B I E +A 33 0A 10 25,-3.5 25,-2.1 -2,-0.5 3,-0.1 -0.761 24.7 162.2 -97.9 137.1 2.3 -13.1 -2.1 9 5 B T + 0 0 75 -2,-0.3 20,-0.5 23,-0.2 2,-0.4 0.349 58.8 70.2-131.6 -1.2 2.1 -9.4 -3.0 10 6 B Q S S- 0 0 56 18,-0.1 13,-0.1 19,-0.1 -1,-0.1 -0.951 95.1 -84.1-124.0 143.9 -1.5 -9.0 -4.3 11 7 B N S S+ 0 0 81 -2,-0.4 2,-0.3 14,-0.2 13,-0.2 -0.122 70.3 134.6 -44.5 122.7 -4.8 -9.2 -2.4 12 8 B Q E -F 23 0B 75 11,-2.1 11,-2.5 -4,-0.0 2,-0.3 -0.993 39.3-154.8-170.6 162.6 -5.8 -12.7 -2.0 13 9 B T E +F 22 0B 86 -2,-0.3 2,-0.3 9,-0.2 9,-0.2 -0.923 31.6 120.5-134.5 158.2 -7.1 -15.5 0.0 14 10 B G E -F 21 0B 19 7,-1.8 7,-2.4 -2,-0.3 2,-0.4 -0.960 54.0 -70.7 176.7-162.2 -6.8 -19.3 -0.2 15 11 B Y E -F 20 0B 148 -2,-0.3 2,-0.4 5,-0.2 5,-0.2 -0.966 31.2-177.3-123.0 143.5 -5.7 -22.4 1.7 16 12 B D E > S-F 19 0B 20 3,-2.7 3,-1.8 -2,-0.4 20,-0.1 -0.944 78.5 -17.2-141.4 113.8 -2.1 -23.5 2.4 17 13 B N T 3 S- 0 0 79 -2,-0.4 3,-0.1 1,-0.3 -14,-0.0 0.801 129.4 -52.5 57.9 32.9 -1.5 -26.8 4.2 18 14 B G T 3 S+ 0 0 69 1,-0.3 2,-0.5 21,-0.0 -1,-0.3 0.373 116.2 118.9 85.0 -4.3 -5.2 -26.9 5.3 19 15 B Y E < -F 16 0B 48 -3,-1.8 -3,-2.7 19,-0.2 -1,-0.3 -0.837 64.6-128.9 -96.4 128.1 -4.8 -23.3 6.8 20 16 B F E -FG 15 56B 16 36,-1.8 36,-2.8 -2,-0.5 2,-0.3 -0.466 30.6-167.6 -62.3 140.6 -6.9 -20.5 5.5 21 17 B Y E -FG 14 55B 27 -7,-2.4 -7,-1.8 34,-0.2 2,-0.4 -0.977 10.9-169.7-133.7 152.3 -4.7 -17.5 4.6 22 18 B S E -FG 13 54B 7 32,-2.0 32,-2.0 -2,-0.3 2,-0.4 -0.991 4.9-178.3-142.4 131.2 -5.6 -13.9 3.8 23 19 B F E +FG 12 53B 2 -11,-2.5 -11,-2.1 -2,-0.4 2,-0.3 -1.000 13.2 167.1-128.4 129.4 -3.4 -11.1 2.4 24 20 B W E + G 0 52B 91 28,-2.4 28,-2.4 -2,-0.4 2,-0.3 -0.995 2.0 153.6-145.5 135.4 -4.8 -7.6 1.9 25 21 B T E - G 0 51B 4 -2,-0.3 -14,-0.2 26,-0.2 26,-0.2 -0.988 38.4-150.3-154.0 155.4 -3.2 -4.2 1.2 26 22 B D S S+ 0 0 88 24,-1.7 25,-0.1 -2,-0.3 -1,-0.0 0.202 97.6 59.1-104.2 11.0 -3.9 -0.8 -0.4 27 23 B A S > S- 0 0 21 23,-0.5 3,-1.7 22,-0.0 4,-0.2 -0.468 76.7-167.2-135.2 64.1 -0.2 -0.3 -1.2 28 24 B P T 3 S+ 0 0 98 0, 0.0 -18,-0.1 0, 0.0 4,-0.1 -0.248 73.3 32.1 -60.0 137.1 0.7 -3.3 -3.5 29 25 B G T 3 S+ 0 0 68 2,-0.6 3,-0.1 -20,-0.5 -19,-0.1 0.262 104.8 75.7 99.1 -9.0 4.5 -3.7 -4.0 30 26 B T S < S+ 0 0 45 -3,-1.7 16,-2.4 1,-0.2 2,-0.3 0.333 97.3 38.1-112.8 0.3 5.4 -2.4 -0.5 31 27 B V E - B 0 45A 5 14,-0.2 -2,-0.6 -4,-0.2 2,-0.3 -0.990 62.1-172.8-152.9 144.8 4.4 -5.4 1.5 32 28 B S E - B 0 44A 26 12,-2.3 12,-1.7 -2,-0.3 2,-0.4 -0.961 13.4-150.3-139.3 155.9 4.7 -9.2 1.1 33 29 B M E -AB 8 43A 0 -25,-2.1 -25,-3.5 -2,-0.3 2,-0.5 -0.998 12.0-154.4-127.2 126.9 3.5 -12.4 2.8 34 30 B T E -AB 7 42A 27 8,-2.8 8,-2.3 -2,-0.4 2,-0.6 -0.903 12.0-140.8-104.0 123.8 5.6 -15.6 2.6 35 31 B L E -AB 6 41A 5 -29,-2.3 -29,-0.8 -2,-0.5 6,-0.2 -0.750 26.1-178.2 -85.2 121.3 3.7 -18.8 3.0 36 32 B H - 0 0 37 4,-2.1 4,-0.2 -2,-0.6 -32,-0.1 -0.447 37.7 -60.3-104.5-177.9 5.6 -21.4 5.0 37 33 B S S > S- 0 0 54 -34,-0.2 3,-1.8 -2,-0.2 -1,-0.2 -0.215 99.5 -18.6 -57.7 152.2 4.9 -25.0 6.1 38 34 B G T 3 S- 0 0 30 1,-0.2 -19,-0.2 -3,-0.1 -2,-0.1 -0.124 131.8 -14.7 52.3-131.4 1.8 -25.7 8.2 39 35 B G T 3 S+ 0 0 6 153,-0.1 153,-2.3 16,-0.1 2,-0.3 -0.007 108.8 113.5 -93.6 29.2 0.3 -22.7 10.0 40 36 B S E < + C 0 191A 23 -3,-1.8 -4,-2.1 151,-0.2 2,-0.3 -0.782 31.7 156.8-107.9 146.1 3.4 -20.5 9.5 41 37 B Y E -BC 35 190A 0 149,-2.2 149,-2.8 -2,-0.3 2,-0.3 -0.969 22.5-145.6-151.7 161.8 3.9 -17.4 7.4 42 38 B S E -BC 34 189A 22 -8,-2.3 -8,-2.8 -2,-0.3 2,-0.3 -0.913 9.9-160.0-124.0 158.4 6.3 -14.4 7.3 43 39 B T E -BC 33 188A 6 145,-2.5 145,-1.8 -2,-0.3 2,-0.3 -0.961 6.1-174.1-131.5 157.7 5.7 -10.7 6.3 44 40 B S E +BC 32 187A 63 -12,-1.7 -12,-2.3 -2,-0.3 2,-0.3 -0.967 9.2 177.0-147.7 132.1 7.9 -7.9 5.3 45 41 B W E -BC 31 186A 8 141,-2.7 141,-2.5 -2,-0.3 2,-0.3 -0.988 12.4-174.4-139.8 150.5 6.9 -4.3 4.7 46 42 B R S S- 0 0 56 -16,-2.4 139,-0.2 -2,-0.3 138,-0.1 -0.916 77.7 -23.6-147.1 114.4 8.7 -1.0 3.8 47 43 B N S S+ 0 0 134 -2,-0.3 138,-0.2 137,-0.2 -16,-0.1 0.911 95.6 166.7 47.7 53.9 6.9 2.4 3.7 48 44 B T - 0 0 8 136,-1.8 136,-0.3 1,-0.2 2,-0.1 0.108 35.4-132.1 -86.2-170.0 3.6 0.6 3.2 49 45 B G - 0 0 9 1,-0.3 134,-3.0 134,-0.2 2,-0.4 0.026 67.7 -30.3-109.7-133.4 -0.1 1.6 3.4 50 46 B H E S+ H 0 182B 63 132,-0.3 -24,-1.7 -2,-0.1 -23,-0.5 -0.747 74.0 169.9 -79.7 137.9 -2.7 -0.4 5.2 51 47 B F E -GH 25 181B 1 130,-2.2 130,-2.5 -2,-0.4 2,-0.3 -0.994 20.2-178.5-147.3 152.5 -2.0 -4.1 5.3 52 48 B K E +GH 24 180B 8 -28,-2.4 -28,-2.4 -2,-0.3 2,-0.3 -0.962 10.3 169.8-146.9 135.1 -3.2 -7.3 7.0 53 49 B A E +GH 23 179B 0 126,-2.1 126,-2.8 -2,-0.3 2,-0.3 -0.996 13.0 131.8-145.3 137.6 -1.8 -10.8 6.6 54 50 B G E -GH 22 178B 0 -32,-2.0 -32,-2.0 -2,-0.3 2,-0.3 -0.986 39.0-122.1-174.0 168.0 -2.4 -14.1 8.4 55 51 B K E +GH 21 177B 0 122,-1.0 122,-2.8 -2,-0.3 -34,-0.2 -0.902 54.5 90.7-117.2 149.5 -3.2 -17.8 8.6 56 52 B G E S-GH 20 176B 0 -36,-2.8 -36,-1.8 -2,-0.3 2,-0.4 -0.751 71.2 -23.6 173.3-117.8 -6.0 -19.5 10.4 57 53 B W E - H 0 175B 33 118,-3.0 118,-2.5 -2,-0.2 3,-0.1 -0.974 31.9-140.1-136.5 140.1 -9.5 -20.6 9.5 58 54 B S S S+ 0 0 38 -2,-0.4 2,-0.4 116,-0.2 -1,-0.1 0.745 102.1 40.7 -72.0 -25.5 -12.1 -19.5 7.0 59 55 B T S S- 0 0 88 116,-0.1 115,-0.2 115,-0.1 -1,-0.2 -0.977 86.0-148.9-123.1 117.7 -14.9 -19.9 9.6 60 56 B G + 0 0 9 113,-3.3 2,-0.3 -2,-0.4 112,-0.2 -0.236 26.2 148.1 -78.4 168.3 -14.0 -18.7 13.1 61 57 B G - 0 0 18 2,-0.0 2,-1.4 -4,-0.0 94,-0.0 -0.917 61.4 -48.1-172.2-163.7 -15.3 -20.0 16.4 62 58 B R S S+ 0 0 141 -2,-0.3 94,-0.2 93,-0.1 2,-0.1 -0.294 75.4 160.0 -85.3 50.8 -14.5 -20.5 20.1 63 59 B R - 0 0 51 -2,-1.4 92,-1.5 92,-0.1 2,-0.6 -0.414 40.9-139.5 -74.5 145.2 -11.1 -22.1 19.3 64 60 B T E -D 154 0A 20 90,-0.2 131,-2.7 91,-0.1 2,-0.3 -0.953 34.4-174.2 -98.6 122.0 -8.2 -22.4 21.7 65 61 B V E -DE 153 194A 0 88,-2.4 88,-3.4 -2,-0.6 2,-0.4 -0.886 19.8-151.9-123.0 149.0 -5.2 -21.6 19.7 66 62 B T E +DE 152 193A 46 127,-2.9 127,-2.2 -2,-0.3 2,-0.3 -0.977 21.5 175.7-122.3 134.6 -1.4 -21.6 20.3 67 63 B Y E -DE 151 192A 6 84,-2.9 84,-2.5 -2,-0.4 2,-0.3 -0.926 21.4-161.2-135.8 160.0 1.1 -19.4 18.5 68 64 B N E +DE 150 191A 104 123,-2.0 123,-2.4 -2,-0.3 2,-0.3 -0.986 24.5 178.8-140.5 133.3 4.7 -18.4 18.3 69 65 B A E - E 0 190A 11 80,-2.5 2,-0.5 -2,-0.3 121,-0.2 -0.970 35.1-153.1-141.5 148.2 6.0 -15.2 16.7 70 66 B S E - E 0 189A 59 119,-2.9 119,-2.3 -2,-0.3 2,-0.4 -0.996 31.1-175.3-108.6 125.1 8.8 -12.9 15.8 71 67 B F E + E 0 188A 19 -2,-0.5 117,-0.2 117,-0.2 27,-0.1 -0.959 12.9 169.4-133.0 112.5 7.4 -9.4 15.6 72 68 B N E + E 0 187A 87 115,-2.8 115,-0.9 -2,-0.4 2,-0.2 -0.565 7.6 168.3-130.7 70.0 9.5 -6.4 14.5 73 69 B P E - 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