:

0 - C ARG 408 NE   VS E GLU 53 OE1 
Distance: 5.703432 - Attractive, 
1 - C ARG 408 CZ   VS E GLU 53 OE1 
Distance: 4.675377 - Attractive, 
2 - C ARG 408 CZ   VS E GLU 53 OE2 
Distance: 6.379391 - Attractive, 
3 - C ARG 408 NH1  VS E GLU 53 OE1 
Distance: 4.785186 - Attractive, Hydrogen Bonds, 
4 - C ARG 408 NH1  VS E GLU 53 OE2 
Distance: 6.716886 - Attractive, 
5 - C ARG 408 NH1  VS E GLU 53 O   
Distance: 3.448710 - Hydrogen Bonds, 
6 - C ARG 408 NH2  VS E GLU 53 OE1 
Distance: 3.970303 - Attractive, Hydrogen Bonds, 
7 - C ARG 408 NH2  VS E GLU 53 OE2 
Distance: 5.347282 - Attractive, 
8 - C ARG 408 NH2  VS E GLU 53 O   
Distance: 3.426082 - Hydrogen Bonds, 
9 - C ARG 408 NE   VS E SER 55 OG  
Distance: 3.669416 - Hydrogen Bonds, 
10 - C ARG 408 NH1  VS E SER 55 OG  
Distance: 3.901986 - Hydrogen Bonds, 
11 - C ARG 408 NH2  VS E SER 55 OG  
Distance: 3.205904 - Hydrogen Bonds, 
12 - C ARG 408 NE   VS E ASP 56 OD1 
Distance: 4.173451 - Attractive, Hydrogen Bonds, 
13 - C ARG 408 NE   VS E ASP 56 OD2 
Distance: 5.027782 - Attractive, 
14 - C ARG 408 CZ   VS E ASP 56 OD1 
Distance: 3.898770 - Attractive, 
15 - C ARG 408 CZ   VS E ASP 56 OD2 
Distance: 4.429834 - Attractive, 
16 - C ARG 408 NH1  VS E ASP 56 OD1 
Distance: 5.085788 - Attractive, 
17 - C ARG 408 NH1  VS E ASP 56 OD2 
Distance: 5.414185 - Attractive, 
18 - C ARG 408 NH2  VS E ASP 56 OD1 
Distance: 2.815209 - Attractive, Hydrogen Bonds, 
19 - C ARG 408 NH2  VS E ASP 56 OD2 
Distance: 3.145635 - Attractive, Hydrogen Bonds, 
20 - C GLN 414 NE2  VS E ASP 56 OD1 
Distance: 4.807833 - Hydrogen Bonds, 
21 - C THR 415 OG1  VS E SER 55 O   
Distance: 4.269464 - Hydrogen Bonds, 
22 - C THR 415 OG1  VS E GLY 67 O   
Distance: 4.682359 - Hydrogen Bonds, 
23 - C TYR 505 OH   VS E ASP 32 OD1 
Distance: 4.191833 - Hydrogen Bonds,