==== 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 GLYCOPROTEIN 20-APR-07 2UYW . COMPND 2 MOLECULE: XENAVIDIN; . SOURCE 2 ORGANISM_SCIENTIFIC: XENOPUS TROPICALIS; . AUTHOR S.H.HELPPOLAINEN,J.A.E.MAATTA,T.T.AIRENNE,M.S.JOHNSON,M.S.KU . 238 2 2 2 0 TOTAL NUMBER OF RESIDUES, NUMBER OF CHAINS, NUMBER OF SS-BRIDGES(TOTAL,INTRACHAIN,INTERCHAIN) . 11946.0 ACCESSIBLE SURFACE OF PROTEIN (ANGSTROM**2) . 150 63.0 TOTAL NUMBER OF HYDROGEN BONDS OF TYPE O(I)-->H-N(J) , SAME NUMBER PER 100 RESIDUES . 0 0.0 TOTAL NUMBER OF HYDROGEN BONDS IN PARALLEL BRIDGES, SAME NUMBER PER 100 RESIDUES . 114 47.9 TOTAL NUMBER OF HYDROGEN BONDS IN ANTIPARALLEL BRIDGES, SAME NUMBER PER 100 RESIDUES . 2 0.8 TOTAL NUMBER OF HYDROGEN BONDS OF TYPE O(I)-->H-N(I-5), SAME NUMBER PER 100 RESIDUES . 6 2.5 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 . 21 8.8 TOTAL NUMBER OF HYDROGEN BONDS OF TYPE O(I)-->H-N(I+2), SAME NUMBER PER 100 RESIDUES . 14 5.9 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+4), 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 . 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 0 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 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 PARALLEL BRIDGES PER LADDER . 0 1 1 3 2 3 2 0 2 2 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 0 0 0 2 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 4 A Q 0 0 146 0, 0.0 80,-0.0 0, 0.0 84,-0.0 0.000 360.0 360.0 360.0 150.7 22.4 10.5 52.6 2 5 A K - 0 0 150 2,-0.1 55,-0.1 54,-0.0 3,-0.1 -0.171 360.0 -86.5-149.3 32.6 18.9 10.0 51.1 3 6 A a + 0 0 3 1,-0.2 2,-0.6 54,-0.1 76,-0.1 0.746 62.9 161.3 61.7 33.3 16.7 12.7 52.6 4 7 A N - 0 0 80 1,-0.1 -1,-0.2 2,-0.1 -2,-0.1 -0.776 36.8-142.7 -75.7 119.5 15.6 11.2 55.8 5 8 A L + 0 0 0 -2,-0.6 14,-0.3 -3,-0.1 -1,-0.1 0.560 57.9 123.4 -74.0 -7.9 14.5 14.4 57.6 6 9 A Q + 0 0 101 12,-0.1 2,-0.2 16,-0.0 14,-0.2 -0.203 55.9 36.7 -51.2 133.1 15.7 13.4 61.1 7 10 A G E S-A 19 0A 27 12,-3.0 12,-2.7 2,-0.0 2,-0.4 -0.743 92.2 -33.4 127.9-167.6 18.2 16.0 62.5 8 11 A Q E +A 18 0A 117 -2,-0.2 111,-0.6 10,-0.2 2,-0.3 -0.809 50.8 176.9-100.6 135.8 19.2 19.6 62.8 9 12 A W E -AB 17 118A 0 8,-2.9 8,-2.8 -2,-0.4 2,-0.4 -0.943 12.1-159.1-135.3 155.5 18.6 22.1 60.0 10 13 A R E -AB 16 117A 111 107,-2.8 107,-2.6 -2,-0.3 6,-0.2 -0.995 6.2-151.3-135.9 140.9 19.1 25.8 59.5 11 14 A N E > - B 0 116A 2 4,-1.7 3,-1.4 -2,-0.4 105,-0.2 -0.525 37.3 -97.2-102.7 178.7 17.5 28.3 57.0 12 15 A K T 3 S+ 0 0 168 103,-0.7 104,-0.1 1,-0.3 102,-0.0 0.734 122.6 58.5 -71.4 -23.2 18.9 31.5 55.6 13 16 A L T 3 S- 0 0 91 2,-0.1 -1,-0.3 23,-0.0 101,-0.0 0.605 120.4-111.3 -73.8 -16.0 17.1 33.7 58.2 14 17 A G < + 0 0 18 -3,-1.4 -2,-0.1 1,-0.3 2,-0.1 0.574 65.2 152.4 92.5 13.0 19.1 31.7 60.7 15 18 A S - 0 0 1 19,-0.1 -4,-1.7 1,-0.0 2,-0.5 -0.473 40.6-129.7 -71.8 147.0 16.0 29.8 62.2 16 19 A N E -AC 10 33A 58 17,-2.6 17,-2.9 -6,-0.2 2,-0.5 -0.908 20.4-170.0-105.1 126.0 16.7 26.4 63.7 17 20 A L E -AC 9 32A 0 -8,-2.8 -8,-2.9 -2,-0.5 2,-0.5 -0.956 2.3-172.9-114.2 122.9 14.6 23.4 62.7 18 21 A I E -AC 8 31A 67 13,-2.7 13,-1.9 -2,-0.5 2,-0.4 -0.979 1.7-169.9-122.4 124.6 15.0 20.1 64.6 19 22 A I E -AC 7 30A 5 -12,-2.7 -12,-3.0 -2,-0.5 11,-0.2 -0.938 9.8-146.9-116.9 129.7 13.2 16.9 63.5 20 23 A E - 0 0 110 9,-3.0 -15,-0.0 -2,-0.4 10,-0.0 -0.210 50.5 -47.1 -82.9 178.4 13.0 13.7 65.5 21 24 A S - 0 0 94 1,-0.1 2,-0.4 -15,-0.1 8,-0.3 -0.202 62.1-123.4 -44.8 128.5 13.0 10.1 64.3 22 25 A V - 0 0 29 6,-0.1 6,-0.2 -3,-0.1 -1,-0.1 -0.673 27.4-126.7 -77.9 129.5 10.5 9.7 61.4 23 26 A S > - 0 0 65 4,-3.1 3,-2.0 -2,-0.4 -1,-0.1 -0.169 28.7 -95.1 -71.6 169.3 7.9 7.0 62.1 24 27 A Q T 3 S+ 0 0 192 1,-0.3 -1,-0.1 2,-0.1 -2,-0.0 0.781 126.8 47.8 -59.2 -29.4 7.1 4.1 59.8 25 28 A N T 3 S- 0 0 72 2,-0.1 -1,-0.3 28,-0.0 29,-0.1 0.353 125.0 -99.8 -93.6 2.6 4.2 6.0 58.2 26 29 A G S < S+ 0 0 0 -3,-2.0 26,-2.3 1,-0.3 2,-0.1 0.395 74.6 143.0 97.8 -3.0 6.3 9.2 57.7 27 30 A E E + D 0 51A 55 24,-0.2 -4,-3.1 -5,-0.1 2,-0.3 -0.467 22.8 175.2 -74.6 141.0 5.1 11.2 60.7 28 31 A F E - D 0 50A 2 22,-2.3 22,-2.3 -6,-0.2 2,-0.3 -0.969 16.9-163.6-140.4 157.1 7.6 13.3 62.5 29 32 A T E + D 0 49A 53 -2,-0.3 -9,-3.0 -8,-0.3 2,-0.3 -0.839 24.7 133.9-126.7 174.3 7.6 15.8 65.4 30 33 A G E -CD 19 48A 5 18,-1.5 18,-2.1 -2,-0.3 2,-0.3 -0.951 43.2 -81.1 174.1-159.4 10.3 18.3 66.4 31 34 A T E -CD 18 47A 49 -13,-1.9 -13,-2.7 -2,-0.3 2,-0.4 -0.968 22.3-153.8-138.4 150.9 11.0 21.9 67.5 32 35 A Y E -CD 17 46A 2 14,-2.9 14,-2.1 -2,-0.3 2,-0.5 -0.991 5.2-171.8-130.1 131.5 11.5 25.2 65.8 33 36 A F E -C 16 0A 96 -17,-2.9 -17,-2.6 -2,-0.4 2,-0.2 -0.884 17.8-155.6-123.4 98.5 13.5 28.2 67.0 34 37 A T - 0 0 13 -2,-0.5 -19,-0.1 10,-0.3 9,-0.1 -0.460 13.7-155.1 -75.0 142.9 12.8 31.2 64.8 35 38 A S S S+ 0 0 58 -2,-0.2 2,-0.3 1,-0.0 -1,-0.1 0.597 81.6 41.8 -87.0 -12.1 15.5 33.9 64.6 36 39 A V - 0 0 71 0, 0.0 2,-0.3 0, 0.0 -2,-0.1 -0.931 64.0-179.3-136.2 152.1 12.8 36.5 63.6 37 40 A S - 0 0 50 -2,-0.3 6,-0.0 2,-0.1 5,-0.0 -0.973 37.5-112.1-150.4 167.0 9.2 37.3 64.5 38 41 A L S S+ 0 0 84 -2,-0.3 2,-0.2 2,-0.0 -1,-0.1 0.826 96.3 20.4 -70.8 -35.5 6.4 39.7 63.7 39 42 A T S S- 0 0 90 2,-0.1 -2,-0.1 -3,-0.0 30,-0.0 -0.548 90.8 -92.0-122.5-173.0 6.4 41.7 66.9 40 43 A N S S+ 0 0 170 -2,-0.2 3,-0.1 2,-0.1 -2,-0.0 0.470 76.7 126.5 -85.1 -2.3 8.8 42.5 69.8 41 44 A S S S- 0 0 63 1,-0.1 2,-0.3 27,-0.1 -2,-0.1 -0.195 74.3 -93.6 -54.6 145.1 7.5 39.6 72.1 42 45 A T - 0 0 93 1,-0.1 2,-0.2 26,-0.0 -1,-0.1 -0.468 41.4-121.2 -66.3 126.2 10.3 37.3 73.3 43 46 A I - 0 0 38 -2,-0.3 2,-0.3 -3,-0.1 -1,-0.1 -0.496 31.7-170.6 -67.6 131.3 10.8 34.3 71.0 44 47 A R - 0 0 150 -2,-0.2 23,-0.4 -12,-0.0 -10,-0.3 -0.931 34.2 -91.1-121.9 150.2 10.3 30.8 72.6 45 48 A I - 0 0 90 -2,-0.3 -12,-0.2 -12,-0.1 -14,-0.0 -0.322 49.4-157.9 -55.3 138.2 11.1 27.3 71.3 46 49 A S E -D 32 0A 1 -14,-2.1 -14,-2.9 20,-0.1 20,-0.2 -0.964 11.4-116.8-130.9 144.5 7.9 26.0 69.6 47 50 A P E -D 31 0A 47 0, 0.0 18,-2.2 0, 0.0 2,-0.3 -0.375 26.9-167.1 -78.5 153.5 6.7 22.5 68.8 48 51 A L E -DE 30 64A 0 -18,-2.1 -18,-1.5 16,-0.2 2,-0.3 -0.955 8.7-173.7-136.6 157.0 6.0 21.1 65.3 49 52 A T E +DE 29 63A 0 14,-1.6 14,-2.3 -2,-0.3 2,-0.3 -0.987 25.3 120.3-144.2 146.6 4.3 18.1 63.7 50 53 A G E -DE 28 62A 0 -22,-2.3 -22,-2.3 -2,-0.3 2,-0.3 -0.926 42.8 -98.6-175.1-163.5 4.2 16.9 60.1 51 54 A Y E -DE 27 61A 4 10,-2.2 10,-2.2 -2,-0.3 2,-0.4 -0.992 14.1-158.4-142.7 149.6 4.9 14.2 57.6 52 55 A Q E - E 0 60A 10 -26,-2.3 8,-0.2 -2,-0.3 2,-0.1 -0.963 27.8-113.1-121.1 149.9 7.4 13.2 55.0 53 56 A K - 0 0 9 6,-2.9 -27,-0.1 -2,-0.4 136,-0.1 -0.331 18.8-135.0 -65.7 158.2 7.0 10.9 52.0 54 57 A L S S+ 0 0 120 -29,-0.1 2,-0.1 3,-0.1 -1,-0.1 0.225 72.0 97.7-104.6 12.2 9.0 7.6 52.0 55 58 A T S S- 0 0 53 1,-0.2 2,-0.1 4,-0.1 -2,-0.0 -0.389 89.5 -73.3 -95.4 168.1 10.3 7.9 48.4 56 59 A E S S+ 0 0 143 1,-0.2 -1,-0.2 -2,-0.1 -53,-0.1 -0.441 121.4 13.5 -57.7 136.4 13.6 9.1 46.9 57 60 A K S S- 0 0 81 1,-0.1 -1,-0.2 -55,-0.1 161,-0.2 0.979 101.0-143.8 56.9 63.1 13.7 13.0 47.2 58 61 A P - 0 0 0 0, 0.0 21,-2.4 0, 0.0 2,-0.2 -0.262 11.2-140.9 -69.2 139.7 10.8 13.2 49.6 59 62 A T E + F 0 78A 0 130,-0.3 -6,-2.9 19,-0.3 2,-0.3 -0.457 32.2 171.0 -75.1 163.9 8.1 15.8 49.8 60 63 A F E -EF 52 77A 0 17,-1.9 17,-2.2 -8,-0.2 2,-0.3 -0.981 19.5-164.1-166.4 167.0 7.0 16.9 53.3 61 64 A G E +EF 51 76A 0 -10,-2.2 -10,-2.2 -2,-0.3 2,-0.3 -0.975 9.7 175.7-156.9 153.9 5.0 19.4 55.2 62 65 A F E -EF 50 75A 1 13,-2.1 13,-2.5 -2,-0.3 2,-0.4 -0.987 21.2-134.0-158.3 162.6 4.7 20.5 58.8 63 66 A T E -EF 49 74A 0 -14,-2.3 -14,-1.6 -2,-0.3 2,-0.5 -0.964 12.0-151.2-117.8 136.8 3.0 23.0 61.2 64 67 A V E -EF 48 73A 0 9,-3.0 9,-1.5 -2,-0.4 2,-1.1 -0.936 6.0-153.0-109.0 128.1 4.7 25.1 63.9 65 68 A H E - F 0 72A 28 -18,-2.2 7,-0.1 -2,-0.5 106,-0.1 -0.752 24.4-135.8 -99.6 84.8 2.5 26.0 66.8 66 69 A W - 0 0 19 -2,-1.1 3,-0.4 5,-0.5 -21,-0.1 -0.160 11.8-157.9 -54.2 126.1 4.2 29.2 68.0 67 70 A A S S+ 0 0 63 -23,-0.4 -1,-0.2 1,-0.2 -22,-0.1 0.497 87.8 43.5 -79.8 -7.2 4.5 29.3 71.8 68 71 A F S S+ 0 0 38 -24,-0.2 2,-0.3 -27,-0.1 -1,-0.2 0.312 115.3 32.9-125.9 1.9 4.8 33.1 72.0 69 72 A S S S- 0 0 33 -3,-0.4 -1,-0.0 2,-0.2 28,-0.0 -0.922 78.1-110.1-150.3 172.7 2.1 34.4 69.7 70 73 A D S S+ 0 0 86 -2,-0.3 108,-0.2 28,-0.1 102,-0.2 0.277 83.1 108.7 -91.4 12.4 -1.3 33.5 68.3 71 74 A S - 0 0 14 26,-0.1 -5,-0.5 27,-0.1 2,-0.3 -0.328 51.6-157.9 -85.6 166.3 0.1 32.8 64.9 72 75 A I E -FG 65 96A 0 24,-2.0 24,-3.2 -7,-0.1 2,-0.4 -0.986 4.4-163.4-137.4 139.1 0.6 29.5 63.0 73 76 A T E -FG 64 95A 5 -9,-1.5 -9,-3.0 -2,-0.3 2,-0.4 -0.982 1.6-167.5-121.6 140.1 3.0 28.7 60.2 74 77 A V E -FG 63 94A 0 20,-2.4 20,-2.1 -2,-0.4 2,-0.4 -0.956 4.2-167.4-117.0 143.3 2.9 25.8 57.8 75 78 A W E -FG 62 93A 7 -13,-2.5 -13,-2.1 -2,-0.4 2,-0.3 -0.966 5.9-179.0-120.3 147.0 5.8 24.7 55.4 76 79 A T E +FG 61 92A 0 16,-2.5 16,-2.3 -2,-0.4 2,-0.3 -0.993 22.9 124.1-138.9 150.9 5.7 22.3 52.5 77 80 A G E -FG 60 91A 0 -17,-2.2 -17,-1.9 -2,-0.3 2,-0.3 -0.895 46.2 -98.2-173.4-168.1 8.6 21.4 50.3 78 81 A Q E -FG 59 90A 0 12,-1.9 12,-2.4 -2,-0.3 2,-0.4 -0.998 23.4-130.9-143.3 142.1 10.9 18.7 48.9 79 82 A a E + G 0 89A 0 -21,-2.4 2,-0.3 -2,-0.3 10,-0.2 -0.761 29.9 173.7 -93.2 130.0 14.3 17.4 49.8 80 83 A F E - 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