:

0 - B SER 375 OG   VS L SER 30 OG  
Distance: 4.083619 - Hydrogen Bonds, 
1 - B SER 375 O    VS L SER 30 N   
Distance: 4.080881 - Hydrogen Bonds, 
2 - B SER 375 O    VS L SER 30 OG  
Distance: 2.851148 - Hydrogen Bonds, 
3 - B SER 375 OG   VS L SER 67 OG  
Distance: 3.233159 - Hydrogen Bonds, 
4 - B SER 375 OG   VS L GLY 68 N   
Distance: 4.799414 - Hydrogen Bonds, 
5 - B THR 376 N    VS L SER 30 OG  
Distance: 3.805169 - Hydrogen Bonds, 
6 - B THR 376 OG1  VS L SER 30 OG  
Distance: 3.064446 - Hydrogen Bonds, 
7 - B ASP 405 OD1  VS L ARG 18 CZ  
Distance: 6.919192 - Attractive, 
8 - B ASP 405 OD1  VS L ARG 18 NH2 
Distance: 5.830830 - Attractive, 
9 - B ASP 405 OD2  VS L ARG 18 NE  
Distance: 6.171933 - Attractive, 
10 - B ASP 405 OD2  VS L ARG 18 CZ  
Distance: 6.261972 - Attractive, 
11 - B ASP 405 OD2  VS L ARG 18 NH2 
Distance: 5.321323 - Attractive, 
12 - B ASP 405 OD1  VS L ARG 54 NH2 
Distance: 5.965290 - Attractive, 
13 - B ASP 405 OD1  VS L SER 65 OG  
Distance: 4.384887 - Hydrogen Bonds, 
14 - B ARG 408 NH1  VS L ARG 18 NH2 
Distance: 6.503917 - Repulsive, 
15 - B ARG 408 NE   VS L ARG 54 NE  
Distance: 5.094074 - Repulsive, 
16 - B ARG 408 NE   VS L ARG 54 CZ  
Distance: 3.797590 - Repulsive, 
17 - B ARG 408 NE   VS L ARG 54 NH1 
Distance: 3.502780 - Repulsive, 
18 - B ARG 408 NE   VS L ARG 54 NH2 
Distance: 3.189789 - Repulsive, 
19 - B ARG 408 CZ   VS L ARG 54 NE  
Distance: 5.215659 - Repulsive, 
20 - B ARG 408 CZ   VS L ARG 54 CZ  
Distance: 3.919987 - Repulsive, 
21 - B ARG 408 CZ   VS L ARG 54 NH1 
Distance: 3.673765 - Repulsive, 
22 - B ARG 408 CZ   VS L ARG 54 NH2 
Distance: 3.245952 - Repulsive, 
23 - B ARG 408 NH1  VS L ARG 54 NE  
Distance: 6.326955 - Repulsive, 
24 - B ARG 408 NH1  VS L ARG 54 CZ  
Distance: 5.078624 - Repulsive, 
25 - B ARG 408 NH1  VS L ARG 54 NH1 
Distance: 4.952739 - Repulsive, 
26 - B ARG 408 NH1  VS L ARG 54 NH2 
Distance: 4.229039 - Repulsive, 
27 - B ARG 408 NH2  VS L ARG 54 NE  
Distance: 4.575957 - Repulsive, 
28 - B ARG 408 NH2  VS L ARG 54 CZ  
Distance: 3.342336 - Repulsive, 
29 - B ARG 408 NH2  VS L ARG 54 NH1 
Distance: 2.973486 - Repulsive, 
30 - B ARG 408 NH2  VS L ARG 54 NH2 
Distance: 2.991842 - Repulsive, 
31 - B ARG 408 NH1  VS L SER 63 O   
Distance: 4.736335 - Hydrogen Bonds, 
32 - B ARG 408 NH2  VS L SER 63 OG  
Distance: 4.287018 - Hydrogen Bonds, 
33 - B ARG 408 NH2  VS L SER 63 O   
Distance: 3.945007 - Hydrogen Bonds, 
34 - B ARG 408 NE   VS L GLY 64 O   
Distance: 3.088029 - Hydrogen Bonds, 
35 - B ARG 408 NH1  VS L GLY 64 O   
Distance: 3.882924 - Hydrogen Bonds, 
36 - B ARG 408 NH2  VS L GLY 64 O   
Distance: 2.682683 - Hydrogen Bonds, 
37 - B ARG 408 NH1  VS L SER 65 OG  
Distance: 3.975133 - Hydrogen Bonds, 
38 - B ARG 408 NH1  VS L THR 74 OG1 
Distance: 4.448776 - Hydrogen Bonds, 
39 - B ARG 408 NH2  VS L THR 74 OG1 
Distance: 4.559964 - Hydrogen Bonds, 
40 - B VAL 503 N    VS L THR 20 OG1 
Distance: 4.024533 - Hydrogen Bonds, 
41 - B VAL 503 CB   VS L THR 20 CG2 
Distance: 3.771765 - Hydrophobic, 
42 - B VAL 503 CG1  VS L THR 20 CG2 
Distance: 4.857412 - Hydrophobic, 
43 - B VAL 503 CG2  VS L THR 20 CG2 
Distance: 4.515886 - Hydrophobic, 
44 - B VAL 503 CB   VS L THR 72 CG2 
Distance: 4.439894 - Hydrophobic, 
45 - B VAL 503 CG1  VS L THR 72 CG2 
Distance: 4.035110 - Hydrophobic, 
46 - B VAL 503 O    VS L THR 72 OG1 
Distance: 4.245027 - Hydrogen Bonds, 
47 - B TYR 508 OH   VS L GLY 66 N   
Distance: 4.494398 - Hydrogen Bonds, 
48 - B TYR 508 OH   VS L SER 67 N   
Distance: 3.319441 - Hydrogen Bonds, 
49 - B TYR 508 OH   VS L SER 67 OG  
Distance: 4.428945 - Hydrogen Bonds, 
50 - B TYR 508 OH   VS L SER 67 O   
Distance: 3.609655 - Hydrogen Bonds, 
51 - B TYR 508 OH   VS L ASP 70 O   
Distance: 2.857481 - Hydrogen Bonds, 
52 - B TYR 508 OH   VS L PHE 71 N   
Distance: 4.803160 - Hydrogen Bonds,