Finding intermodel H-bonds Finding intramodel H-bonds Constraints relaxed by 0.4 angstroms and 20 degrees Models used: #0 8syl_U.cif H-bonds (donor, acceptor, hydrogen, D..A dist, D-H..A dist): THR 3.A N VAL 107.A O no hydrogen 2.829 N/A THR 3.A OG1 ASP 62.A OD2 no hydrogen 2.517 N/A ALA 5.A N VAL 105.A O no hydrogen 2.973 N/A HIS 7.A N ILE 103.A O no hydrogen 2.704 N/A HIS 9.A N HIS 102.A ND1 no hydrogen 2.962 N/A ALA 10.A N SER 101.A O no hydrogen 2.566 N/A SER 12.A N ALA 10.A O no hydrogen 2.640 N/A GLN 15.A N SER 13.A OG no hydrogen 3.242 N/A VAL 17.A N SER 13.A O no hydrogen 3.109 N/A ARG 18.A N ALA 14.A O no hydrogen 2.945 N/A ARG 18.A NE VAL 76.A O no hydrogen 3.241 N/A ARG 18.A NH2 VAL 76.A O no hydrogen 2.989 N/A ALA 21.A N VAL 17.A O no hydrogen 2.972 N/A ASP 22.A N ARG 18.A O no hydrogen 3.081 N/A LEU 23.A N VAL 20.A O no hydrogen 2.984 N/A ARG 25.A NE ILE 74.A O no hydrogen 3.181 N/A ARG 25.A NH1 ASP 22.A OD1 no hydrogen 3.398 N/A ARG 25.A NH2 ASP 22.A OD1 no hydrogen 3.179 N/A ARG 25.A NH2 ILE 74.A O no hydrogen 3.055 N/A GLY 26.A N VAL 71.A O no hydrogen 2.814 N/A LYS 27.A N ILE 24.A O no hydrogen 3.271 N/A LYS 27.A NZ LEU 23.A O no hydrogen 2.764 N/A VAL 29.A N LEU 69.A O no hydrogen 3.320 N/A ALA 32.A N LYS 28.A O no hydrogen 2.720 N/A LEU 33.A N VAL 29.A O no hydrogen 2.953 N/A LEU 36.A N ALA 32.A O no hydrogen 3.401 N/A THR 37.A N LEU 33.A O no hydrogen 3.239 N/A THR 37.A OG1 LEU 33.A O no hydrogen 2.355 N/A THR 39.A OG1 ILE 35.A O no hydrogen 2.717 N/A LYS 41.A N THR 39.A O no hydrogen 2.946 N/A LYS 42.A NZ ARG 11.A O no hydrogen 3.219 N/A ALA 44.A N LYS 41.A O no hydrogen 3.217 N/A VAL 45.A N LYS 42.A O no hydrogen 3.042 N/A LEU 46.A N LYS 42.A O no hydrogen 3.387 N/A VAL 47.A N ALA 43.A O no hydrogen 2.908 N/A LYS 48.A N ALA 44.A O no hydrogen 2.931 N/A LYS 48.A NZ THR 37.A OG1 no hydrogen 3.215 N/A LYS 49.A N VAL 45.A O no hydrogen 3.092 N/A VAL 50.A N LEU 46.A O no hydrogen 3.203 N/A LEU 51.A N VAL 47.A O no hydrogen 2.891 N/A GLU 52.A N LYS 48.A O no hydrogen 2.911 N/A SER 53.A N LYS 49.A O no hydrogen 3.259 N/A ALA 54.A N VAL 50.A O no hydrogen 2.774 N/A ILE 55.A N LEU 51.A O no hydrogen 2.938 N/A ALA 56.A N GLU 52.A O no hydrogen 2.881 N/A ASN 57.A N SER 53.A O no hydrogen 2.925 N/A ASN 57.A ND2 ILE 4.A O no hydrogen 3.349 N/A ALA 58.A N ALA 54.A O no hydrogen 3.070 N/A GLU 59.A N ILE 55.A O no hydrogen 2.921 N/A HIS 60.A N ALA 56.A O no hydrogen 2.977 N/A HIS 60.A ND1 ASN 61.A OD1 no hydrogen 2.818 N/A ASN 61.A N ASN 57.A O no hydrogen 2.881 N/A ASP 62.A N ASN 57.A O no hydrogen 3.316 N/A ALA 64.A N ALA 58.A O no hydrogen 2.745 N/A ASP 68.A N ASP 65.A O no hydrogen 3.243 N/A LEU 69.A N ILE 66.A O no hydrogen 3.241 N/A LYS 70.A N SER 108.A O no hydrogen 3.235 N/A VAL 71.A N LYS 27.A O no hydrogen 2.833 N/A THR 72.A OG1 VAL 106.A O no hydrogen 3.221 N/A THR 72.A OG1 SER 108.A OG no hydrogen 3.109 N/A LYS 73.A N VAL 106.A O no hydrogen 3.285 N/A LYS 73.A NZ GLU 2.A OE1 no hydrogen 3.537 N/A LYS 73.A NZ GLU 2.A OE2 no hydrogen 2.587 N/A PHE 75.A N THR 104.A O no hydrogen 3.116 N/A ASP 77.A N HIS 102.A O no hydrogen 2.960 N/A GLY 79.A N THR 100.A O no hydrogen 3.328 N/A LYS 83.A NZ SER 81.A O no hydrogen 3.489 N/A ARG 84.A N ILE 96.A O no hydrogen 2.766 N/A ARG 84.A NH1 LYS 83.A O no hydrogen 3.224 N/A MET 86.A N ASP 94.A O no hydrogen 2.760 N/A ARG 88.A N ARG 92.A O no hydrogen 2.817 N/A ARG 92.A N ALA 89.A O no hydrogen 3.377 N/A ASP 94.A N MET 86.A O no hydrogen 3.077 N/A ILE 96.A N ARG 84.A O no hydrogen 2.847 N/A LYS 98.A N MET 82.A O no hydrogen 2.949 N/A THR 100.A OG1 PRO 80.A O no hydrogen 2.378 N/A SER 101.A N ALA 10.A O no hydrogen 2.956 N/A SER 101.A OG SER 12.A O no hydrogen 2.827 N/A HIS 102.A N ASP 77.A O no hydrogen 2.714 N/A ILE 103.A N HIS 7.A O no hydrogen 2.941 N/A THR 104.A N PHE 75.A O no hydrogen 3.035 N/A VAL 105.A N ALA 5.A O no hydrogen 2.985 N/A VAL 106.A N LYS 73.A O no hydrogen 2.671 N/A VAL 107.A N THR 3.A O no hydrogen 2.744 N/A SER 108.A N LYS 70.A O no hydrogen 2.901 N/A SER 108.A OG THR 72.A OG1 no hydrogen 3.109 N/A