Toggle column: RRM Entryename UniProt position Alignment position RRM Structurename PDB ID Amino Acid Chain Amino Acid Position Amino Acid Amino Acid Atom Contact Distance Interaction Type Nucleotide Chain Nucleotide Position Nucleotide Nucleotide Atom Ligand Structurename Ligand ID
RRM Entryname UniProt Position Alignment Position RRM Structurename PDB ID Amino Acid Chain Amino Acid Position Amino Acid Amino Acid Atom Contact Distance Interaction Type Nucleotide Chain Nucleotide Position Nucleotide Nucleotide Atom Ligand Structurename Ligand ID
3G8S C 86 TYR O 4.9 Å van-der-waals R 17 C C5 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN NE2 4.84 Å van-der-waals R 17 G C3' 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CD2 3.79 Å van-der-waals R 17 A C4 3G8SR00 Lig88
P09012_RRM1 83 170 3G8SC01 3G8S C 83 ARG NH2 4.42 Å van-der-waals R 17 U N3 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG NE 4.6 Å van-der-waals R 17 A N1 3G8SR00 Lig88
P09012_RRM1 19 86 3G8SC01 3G8S C 19 GLU OE1 2.96 Å van-der-waals R 17 U N3 3G8SR00 Lig88
P09012_RRM1 48 127 3G8SC01 3G8S C 48 SER OG 4.35 Å van-der-waals R 17 G OP2 3G8SR00 Lig88
P09012_RRM1 15 82 3G8SC01 3G8S C 15 ASN OD1 4.98 Å van-der-waals R 17 G N7 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU CG 4.78 Å van-der-waals R 17 G C8 3G8SR00 Lig88
3G8S C 90 ASP C 3.47 Å van-der-waals R 17 A N6 3G8SR00 Lig88
P09012_RRM1 50 129 3G8SC01 3G8S C 50 LYS O 4.36 Å van-der-waals R 17 G N9 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG NH2 4.79 Å van-der-waals R 17 G C4 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU CG 4.22 Å van-der-waals R 17 G O4' 3G8SR00 Lig88
P09012_RRM1 53 137 3G8SC01 3G8S C 53 GLY O 4.63 Å van-der-waals R 17 G N1 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU CA 4.84 Å van-der-waals R 17 G C8 3G8SR00 Lig88
3G8S C 89 THR OG1 4.24 Å van-der-waals R 17 A N7 3G8SR00 Lig88
3G8S C 92 ASP N 3.22 Å van-der-waals R 17 C N3 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CZ 3.72 Å van-der-waals R 17 C C6 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG NE 4.79 Å van-der-waals R 17 G N7 3G8SR00 Lig88
3G8S C 88 LYS N 2.98 Å van-der-waals R 17 C N3 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG CD 4.32 Å van-der-waals R 17 A N1 3G8SR00 Lig88
P09012_RRM1 51 135 3G8SC01 3G8S C 51 MET SD 4.26 Å van-der-waals R 17 A C5' 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU CD1 4.72 Å van-der-waals R 17 G N3 3G8SR00 Lig88
P09012_RRM1 80 167 3G8SC01 3G8S C 80 LYS CE 3.84 Å van-der-waals R 17 U O4 3G8SR00 Lig88
P09012_RRM1 51 135 3G8SC01 3G8S C 51 MET SD 4.4 Å van-der-waals R 17 A C1' 3G8SR00 Lig88
P09012_RRM1 19 86 3G8SC01 3G8S C 19 GLU OE1 4.82 Å van-der-waals R 17 U N1 3G8SR00 Lig88
P09012_RRM1 15 82 3G8SC01 3G8S C 15 ASN CG 4.41 Å van-der-waals R 17 U O2 3G8SR00 Lig88
3G8S C 90 ASP C 4.09 Å van-der-waals R 17 C N4 3G8SR00 Lig88
3G8S C 88 LYS CB 3.71 Å van-der-waals R 17 C O2 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG CD 4.23 Å van-der-waals R 17 U N3 3G8SR00 Lig88
P09012_RRM1 44 123 3G8SC01 3G8S C 44 LEU CD2 4.87 Å van-der-waals R 17 A N1 3G8SR00 Lig88
3G8S C 89 THR C 3.88 Å van-der-waals R 17 A N6 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CE1 4.81 Å van-der-waals R 17 A C8 3G8SR00 Lig88
3G8S C 92 ASP CG 4.26 Å van-der-waals R 17 C C2' 3G8SR00 Lig88
P09012_RRM1 16 83 3G8SC01 3G8S C 16 ASN N 3.56 Å van-der-waals R 17 U O2 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN NE2 3.58 Å van-der-waals R 17 G N7 3G8SR00 Lig88
P09012_RRM1 44 123 3G8SC01 3G8S C 44 LEU CD2 3.97 Å van-der-waals R 17 C C1' 3G8SR00 Lig88
P09012_RRM1 24 92 3G8SC01 3G8S C 24 ASP OD1 4.68 Å van-der-waals R 110 U O2' 3G8SR00 Lig88
P09012_RRM1 16 83 3G8SC01 3G8S C 16 ASN N 4.31 Å van-der-waals R 17 U C2 3G8SR00 Lig88
3G8S C 86 TYR N 4.6 Å van-der-waals R 17 C N4 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CB 3.74 Å van-der-waals R 17 A C2 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG CZ 4.33 Å van-der-waals R 17 G C5 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CZ 4.69 Å van-der-waals R 17 C N1 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CE1 4.32 Å van-der-waals R 17 C O5' 3G8SR00 Lig88
P09012_RRM1 83 170 3G8SC01 3G8S C 83 ARG CZ 4.38 Å van-der-waals R 17 U O2' 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CD2 3.48 Å van-der-waals R 17 A C2 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU N 3.06 Å van-der-waals R 17 G OP1 3G8SR00 Lig88
3G8S C 91 SER OG 3.46 Å van-der-waals R 17 A C2 3G8SR00 Lig88
P09012_RRM1 22 90 3G8SC01 3G8S C 22 LYS CB 4.44 Å ionic R 13 G P 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CE1 4.72 Å van-der-waals R 17 C C2 3G8SR00 Lig88
P09012_RRM1 16 83 3G8SC01 3G8S C 16 ASN CG 3.7 Å van-der-waals R 17 U N3 3G8SR00 Lig88
P09012_RRM1 83 170 3G8SC01 3G8S C 83 ARG NE 4 Å van-der-waals R 17 U O2 3G8SR00 Lig88
P09012_RRM1 47 126 3G8SC01 3G8S C 47 ARG NH2 3.62 Å ionic R 13 G OP1 3G8SR00 Lig88
3G8S C 92 ASP N 4.34 Å van-der-waals R 17 C C4 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CB 4.95 Å van-der-waals R 17 C O2 3G8SR00 Lig88
P09012_RRM1 15 82 3G8SC01 3G8S C 15 ASN CB 3.46 Å van-der-waals R 17 G O6 3G8SR00 Lig88
3G8S C 85 GLN CA 4.65 Å van-der-waals R 17 C N4 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CZ 3.89 Å van-der-waals R 17 C O4' 3G8SR00 Lig88
3G8S C 11 THR OG1 4.94 Å van-der-waals R 17 A N6 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CD1 4.27 Å van-der-waals R 17 C C4 3G8SR00 Lig88
P09012_RRM1 83 170 3G8SC01 3G8S C 83 ARG CZ 3.96 Å van-der-waals R 17 U O2 3G8SR00 Lig88
P09012_RRM1 24 92 3G8SC01 3G8S C 24 ASP OD1 4.92 Å van-der-waals R 110 U C2' 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CD2 4.02 Å van-der-waals R 17 C N4 3G8SR00 Lig88
P09012_RRM1 22 90 3G8SC01 3G8S C 22 LYS CD 4.94 Å van-der-waals R 13 G C4' 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG NH2 4.77 Å van-der-waals R 17 G O6 3G8SR00 Lig88
3G8S C 91 SER CB 4.3 Å van-der-waals R 17 C C2 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CE1 3.95 Å van-der-waals R 17 A C4 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU CG 4.42 Å van-der-waals R 17 G C1' 3G8SR00 Lig88
3G8S C 92 ASP N 3.54 Å van-der-waals R 17 C C2 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU CB 4.69 Å van-der-waals R 17 G P 3G8SR00 Lig88
P09012_RRM1 15 82 3G8SC01 3G8S C 15 ASN CB 4.13 Å van-der-waals R 17 G C6 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG C 4.75 Å van-der-waals R 17 G N3 3G8SR00 Lig88
3G8S C 92 ASP CG 3.56 Å van-der-waals R 17 C C2 3G8SR00 Lig88
3G8S C 91 SER CB 4.14 Å van-der-waals R 17 A C6 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU N 4.83 Å van-der-waals R 17 G C8 3G8SR00 Lig88
3G8S C 92 ASP CB 3.52 Å van-der-waals R 17 C O2 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU CD1 3.63 Å van-der-waals R 17 A C2 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG O 3.24 Å van-der-waals R 17 G C2 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG CG 4.98 Å van-der-waals R 17 G N1 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN OE1 3.71 Å van-der-waals R 17 G C8 3G8SR00 Lig88
P09012_RRM1 48 127 3G8SC01 3G8S C 48 SER OG 4.47 Å van-der-waals R 17 C O5' 3G8SR00 Lig88
3G8S C 92 ASP CG 4.83 Å van-der-waals R 17 C O2' 3G8SR00 Lig88
3G8S C 87 ALA C 4.01 Å van-der-waals R 17 C O2 3G8SR00 Lig88
P09012_RRM1 48 127 3G8SC01 3G8S C 48 SER C 4.79 Å van-der-waals R 17 G OP2 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CZ 4.57 Å van-der-waals R 17 A C2 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN NE2 3.29 Å van-der-waals R 17 G C8 3G8SR00 Lig88
P09012_RRM1 46 125 3G8SC01 3G8S C 46 SER CB 4.12 Å van-der-waals R 17 C OP1 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN OE1 3.78 Å van-der-waals R 17 C C5' 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CE1 4.51 Å van-der-waals R 17 C C4' 3G8SR00 Lig88
3G8S C 91 SER N 4.4 Å van-der-waals R 17 C N3 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG CZ 3.54 Å van-der-waals R 17 G N7 3G8SR00 Lig88
P09012_RRM1 47 126 3G8SC01 3G8S C 47 ARG NH2 4.5 Å ionic R 14 C OP2 3G8SR00 Lig88
P09012_RRM1 51 135 3G8SC01 3G8S C 51 MET CE 4.76 Å van-der-waals R 17 C C3' 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU CG 4.55 Å van-der-waals R 17 G N9 3G8SR00 Lig88
P09012_RRM1 51 135 3G8SC01 3G8S C 51 MET CG 4.73 Å van-der-waals R 17 A O4' 3G8SR00 Lig88
P09012_RRM1 16 83 3G8SC01 3G8S C 16 ASN N 4.09 Å van-der-waals R 17 G C6 3G8SR00 Lig88
P09012_RRM1 16 83 3G8SC01 3G8S C 16 ASN OD1 2.74 Å van-der-waals R 17 U N3 3G8SR00 Lig88
3G8S C 92 ASP OD2 4.78 Å van-der-waals R 17 C O3' 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG CG 4.9 Å van-der-waals R 17 U N3 3G8SR00 Lig88
3G8S C 92 ASP OD1 4.46 Å van-der-waals R 17 C C5 3G8SR00 Lig88
P09012_RRM1 19 86 3G8SC01 3G8S C 19 GLU OE1 3.53 Å van-der-waals R 17 U C2 3G8SR00 Lig88
P09012_RRM1 44 123 3G8SC01 3G8S C 44 LEU CD2 4.17 Å van-der-waals R 17 C O4' 3G8SR00 Lig88
P09012_RRM1 44 123 3G8SC01 3G8S C 44 LEU CG 4.84 Å van-der-waals R 17 A C2 3G8SR00 Lig88
P09012_RRM1 16 83 3G8SC01 3G8S C 16 ASN CG 4.2 Å van-der-waals R 17 U C2 3G8SR00 Lig88
P09012_RRM1 19 86 3G8SC01 3G8S C 19 GLU CD 4.34 Å van-der-waals R 17 U O2 3G8SR00 Lig88
3G8S C 92 ASP OD1 3.73 Å van-der-waals R 17 C C4 3G8SR00 Lig88
3G8S C 92 ASP CG 3.45 Å van-der-waals R 17 C O2 3G8SR00 Lig88
3G8S C 91 SER OG 2.5 Å van-der-waals R 17 A N1 3G8SR00 Lig88
3G8S C 92 ASP OD2 3.65 Å van-der-waals R 17 U OP2 3G8SR00 Lig88
3G8S C 89 THR CB 4.94 Å van-der-waals R 17 A N6 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG CA 4.97 Å van-der-waals R 17 G N2 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CD2 3.96 Å van-der-waals R 17 C C6 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG CZ 4.31 Å van-der-waals R 17 A C2 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG CG 3.51 Å van-der-waals R 17 G N2 3G8SR00 Lig88
P09012_RRM1 46 125 3G8SC01 3G8S C 46 SER OG 4.98 Å van-der-waals R 17 C O3' 3G8SR00 Lig88
3G8S C 87 ALA CB 4.88 Å van-der-waals R 17 A C6 3G8SR00 Lig88
P09012_RRM1 51 135 3G8SC01 3G8S C 51 MET SD 4.36 Å van-der-waals R 17 C C5' 3G8SR00 Lig88
P09012_RRM1 46 125 3G8SC01 3G8S C 46 SER CA 4.71 Å van-der-waals R 17 C OP1 3G8SR00 Lig88
3G8S C 90 ASP C 4.63 Å van-der-waals R 17 C N3 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CE2 4.04 Å van-der-waals R 17 C O2 3G8SR00 Lig88
3G8S C 90 ASP C 4.87 Å van-der-waals R 17 C C4 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CG 3.65 Å van-der-waals R 17 C C5 3G8SR00 Lig88
P09012_RRM1 50 129 3G8SC01 3G8S C 50 LYS O 4.9 Å van-der-waals R 17 G N3 3G8SR00 Lig88
P09012_RRM1 19 86 3G8SC01 3G8S C 19 GLU OE1 3.67 Å van-der-waals R 17 G C2 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CZ 4.51 Å van-der-waals R 17 G N7 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG NE 4.83 Å van-der-waals R 17 A C2 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CZ 4.48 Å van-der-waals R 17 C N1 3G8SR00 Lig88
P09012_RRM1 50 129 3G8SC01 3G8S C 50 LYS O 4.61 Å van-der-waals R 17 C C5' 3G8SR00 Lig88
3G8S C 92 ASP OD1 3.5 Å van-der-waals R 17 C C2 3G8SR00 Lig88
3G8S C 86 TYR O 2.75 Å van-der-waals R 17 C N4 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU CB 3.77 Å van-der-waals R 17 G O4' 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CD1 4.15 Å van-der-waals R 17 C C2 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CZ 3.87 Å van-der-waals R 17 A N3 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN OE1 3.88 Å van-der-waals R 17 G C2' 3G8SR00 Lig88
P09012_RRM1 83 170 3G8SC01 3G8S C 83 ARG NH2 3.84 Å van-der-waals R 17 U C2 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU CD1 4.31 Å van-der-waals R 17 G C4 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CE1 4.12 Å van-der-waals R 17 C C5 3G8SR00 Lig88
3G8S C 11 THR CG2 4.99 Å van-der-waals R 17 A C6 3G8SR00 Lig88
3G8S C 86 TYR O 3.54 Å van-der-waals R 17 C C4 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG C 4.71 Å van-der-waals R 17 G C6 3G8SR00 Lig88
P09012_RRM1 51 135 3G8SC01 3G8S C 51 MET CE 3.99 Å van-der-waals R 17 C C4' 3G8SR00 Lig88
P09012_RRM1 15 82 3G8SC01 3G8S C 15 ASN CB 4.59 Å van-der-waals R 17 G C8 3G8SR00 Lig88
3G8S C 92 ASP OD2 4.35 Å van-der-waals R 17 C C3' 3G8SR00 Lig88
P09012_RRM1 19 86 3G8SC01 3G8S C 19 GLU OE2 2.84 Å van-der-waals R 17 U O4 3G8SR00 Lig88
P09012_RRM1 44 123 3G8SC01 3G8S C 44 LEU CB 4.89 Å van-der-waals R 17 A C2 3G8SR00 Lig88
P09012_RRM1 50 129 3G8SC01 3G8S C 50 LYS O 3.79 Å van-der-waals R 17 G C1' 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN CG 3.82 Å van-der-waals R 17 G C5 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU N 4.24 Å van-der-waals R 17 G OP2 3G8SR00 Lig88
P09012_RRM1 50 129 3G8SC01 3G8S C 50 LYS CB 3.81 Å van-der-waals R 17 G O2' 3G8SR00 Lig88
P09012_RRM1 50 129 3G8SC01 3G8S C 50 LYS O 2.79 Å van-der-waals R 17 G O2' 3G8SR00 Lig88
P09012_RRM1 80 167 3G8SC01 3G8S C 80 LYS CE 4.94 Å van-der-waals R 17 U C4 3G8SR00 Lig88
P09012_RRM1 15 82 3G8SC01 3G8S C 15 ASN ND2 4.26 Å van-der-waals R 17 G C5 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CE1 3.7 Å van-der-waals R 17 A C1' 3G8SR00 Lig88
P09012_RRM1 16 83 3G8SC01 3G8S C 16 ASN ND2 4.84 Å van-der-waals R 17 U N3 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG NH1 3.44 Å van-der-waals R 17 A C2 3G8SR00 Lig88
P09012_RRM1 48 127 3G8SC01 3G8S C 48 SER CA 4.5 Å van-der-waals R 17 C OP1 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR OH 4.49 Å van-der-waals R 17 C C5' 3G8SR00 Lig88
3G8S C 91 SER OG 3.29 Å van-der-waals R 17 A C6 3G8SR00 Lig88
P09012_RRM1 22 90 3G8SC01 3G8S C 22 LYS CE 4.82 Å van-der-waals R 13 G O3' 3G8SR00 Lig88
3G8S C 92 ASP OD2 4.82 Å van-der-waals R 17 C C6 3G8SR00 Lig88
P09012_RRM1 50 129 3G8SC01 3G8S C 50 LYS C 4.37 Å van-der-waals R 17 G C2' 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR OH 4.73 Å van-der-waals R 17 C C5 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU CD2 4.9 Å van-der-waals R 17 G C4' 3G8SR00 Lig88
3G8S C 90 ASP O 3.13 Å van-der-waals R 17 C N4 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CD2 4.53 Å van-der-waals R 17 C N3 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU CD1 4.61 Å van-der-waals R 17 G O4' 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN NE2 3.51 Å van-der-waals R 17 G C1' 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG O 3.63 Å van-der-waals R 17 G C6 3G8SR00 Lig88
P09012_RRM1 51 135 3G8SC01 3G8S C 51 MET CE 4.39 Å van-der-waals R 17 G O2' 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU CD1 4.4 Å van-der-waals R 17 G C1' 3G8SR00 Lig88
P09012_RRM1 16 83 3G8SC01 3G8S C 16 ASN OD1 3.56 Å van-der-waals R 17 U C2 3G8SR00 Lig88
3G8S C 91 SER C 4.63 Å van-der-waals R 17 C N4 3G8SR00 Lig88
P09012_RRM1 16 83 3G8SC01 3G8S C 16 ASN OD1 3.58 Å van-der-waals R 17 U C4 3G8SR00 Lig88
P09012_RRM1 16 83 3G8SC01 3G8S C 16 ASN CG 4.72 Å van-der-waals R 17 U C4 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CD1 4.35 Å van-der-waals R 17 C C1' 3G8SR00 Lig88
3G8S C 92 ASP CB 4.96 Å van-der-waals R 17 C C2' 3G8SR00 Lig88
3G8S C 88 LYS N 3.17 Å van-der-waals R 17 C O2 3G8SR00 Lig88
P09012_RRM1 83 170 3G8SC01 3G8S C 83 ARG NE 4.74 Å van-der-waals R 17 U O2' 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU CB 4.37 Å van-der-waals R 17 G C1' 3G8SR00 Lig88
P09012_RRM1 16 83 3G8SC01 3G8S C 16 ASN OD1 3.51 Å van-der-waals R 17 U O4 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG NH2 3.97 Å van-der-waals R 17 G C5 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU CD1 4.7 Å van-der-waals R 17 G N7 3G8SR00 Lig88
P09012_RRM1 19 86 3G8SC01 3G8S C 19 GLU OE2 3.41 Å van-der-waals R 17 U C4 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CE1 3.4 Å van-der-waals R 17 C O4' 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE 3.47 Å stack R 7 A 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CE2 4.81 Å van-der-waals R 17 C N1 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN OE1 4.57 Å van-der-waals R 17 G O2' 3G8SR00 Lig88
P09012_RRM1 24 92 3G8SC01 3G8S C 24 ASP CG 4.05 Å van-der-waals R 110 U C5' 3G8SR00 Lig88
3G8S C 91 SER CA 4.2 Å van-der-waals R 17 C C4 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU CD1 4.13 Å van-der-waals R 17 G N9 3G8SR00 Lig88
P09012_RRM1 17 84 3G8SC01 3G8S C 17 LEU N 4.35 Å van-der-waals R 17 G O6 3G8SR00 Lig88
3G8S C 91 SER CA 4.95 Å van-der-waals R 17 A C2 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CE2 3.88 Å van-der-waals R 17 C C6 3G8SR00 Lig88
3G8S C 89 THR CA 4.86 Å van-der-waals R 17 A N6 3G8SR00 Lig88
3G8S C 91 SER CB 3.84 Å van-der-waals R 17 C O2 3G8SR00 Lig88
3G8S C 85 GLN CB 4.54 Å van-der-waals R 17 C C4 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN CG 4.21 Å van-der-waals R 17 G C6 3G8SR00 Lig88
P09012_RRM1 16 83 3G8SC01 3G8S C 16 ASN C 4.84 Å van-der-waals R 17 U N3 3G8SR00 Lig88
3G8S C 91 SER C 4.65 Å van-der-waals R 17 C C4 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CZ 3.76 Å van-der-waals R 17 A C1' 3G8SR00 Lig88
P09012_RRM1 80 167 3G8SC01 3G8S C 80 LYS NZ 4.32 Å van-der-waals R 17 U N3 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG CD 3.19 Å van-der-waals R 17 U O2 3G8SR00 Lig88
3G8S C 92 ASP OD1 3.72 Å van-der-waals R 17 C O2 3G8SR00 Lig88
P09012_RRM1 50 129 3G8SC01 3G8S C 50 LYS CA 4.77 Å van-der-waals R 17 G C2' 3G8SR00 Lig88
3G8S C 91 SER OG 4.38 Å van-der-waals R 17 C O2 3G8SR00 Lig88
3G8S C 85 GLN C 4.68 Å van-der-waals R 17 C N4 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN NE2 3.56 Å van-der-waals R 17 G C2' 3G8SR00 Lig88
P09012_RRM1 16 83 3G8SC01 3G8S C 16 ASN OD1 3.51 Å van-der-waals R 17 U O2 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CZ 4.96 Å van-der-waals R 17 C OP2 3G8SR00 Lig88
P09012_RRM1 19 86 3G8SC01 3G8S C 19 GLU CD 4.09 Å van-der-waals R 17 U C4 3G8SR00 Lig88
3G8S C 92 ASP OD2 3.81 Å van-der-waals R 17 C O2 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CE2 4.13 Å van-der-waals R 17 A C6 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU CD1 4.63 Å van-der-waals R 17 G C5 3G8SR00 Lig88
3G8S C 86 TYR C 3.92 Å van-der-waals R 17 C N4 3G8SR00 Lig88
P09012_RRM1 46 125 3G8SC01 3G8S C 46 SER CB 4.95 Å van-der-waals R 17 C P 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG NE 4.23 Å van-der-waals R 17 U O2 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU CB 4.69 Å van-der-waals R 17 G O5' 3G8SR00 Lig88
P09012_RRM1 44 123 3G8SC01 3G8S C 44 LEU CD2 4.42 Å van-der-waals R 17 C O2 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CZ 4.1 Å van-der-waals R 17 A C8 3G8SR00 Lig88
3G8S C 92 ASP OD2 4.41 Å van-der-waals R 17 C C1' 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG O 4.25 Å van-der-waals R 17 G O6 3G8SR00 Lig88
3G8S C 92 ASP OD2 4.95 Å van-der-waals R 17 C C4 3G8SR00 Lig88
P09012_RRM1 51 135 3G8SC01 3G8S C 51 MET CG 4.48 Å van-der-waals R 17 A C4' 3G8SR00 Lig88
P09012_RRM1 48 127 3G8SC01 3G8S C 48 SER N 4.09 Å van-der-waals R 17 C OP1 3G8SR00 Lig88
P09012_RRM1 47 126 3G8SC01 3G8S C 47 ARG N 4.2 Å van-der-waals R 17 C OP1 3G8SR00 Lig88
3G8S C 91 SER CA 3.33 Å van-der-waals R 17 C N3 3G8SR00 Lig88
P09012_RRM1 51 135 3G8SC01 3G8S C 51 MET SD 4.36 Å van-der-waals R 17 C C4' 3G8SR00 Lig88
3G8S C 88 LYS CB 4.77 Å van-der-waals R 17 C N1 3G8SR00 Lig88
3G8S C 91 SER C 3.68 Å van-der-waals R 17 C N3 3G8SR00 Lig88
3G8S C 85 GLN CD 3.45 Å van-der-waals R 17 C N4 3G8SR00 Lig88
3G8S C 87 ALA CA 4.16 Å van-der-waals R 17 C C2 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CD1 4.17 Å van-der-waals R 17 A C4 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN CD 4.86 Å van-der-waals R 17 C O5' 3G8SR00 Lig88
P09012_RRM1 48 127 3G8SC01 3G8S C 48 SER CB 3.38 Å van-der-waals R 17 G OP1 3G8SR00 Lig88
3G8S C 88 LYS CB 4.99 Å van-der-waals R 17 C N4 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CG 3.45 Å van-der-waals R 17 A N3 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG CD 4.04 Å van-der-waals R 17 U C2 3G8SR00 Lig88
3G8S C 87 ALA CA 4.52 Å van-der-waals R 17 C N4 3G8SR00 Lig88
3G8S C 85 GLN NE2 4.39 Å van-der-waals R 17 C C4 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN OE1 4.64 Å van-der-waals R 17 G C5 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CB 4.74 Å van-der-waals R 17 C C6 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU CB 4 Å van-der-waals R 17 G OP1 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CD2 4.08 Å van-der-waals R 17 A C5 3G8SR00 Lig88
3G8S C 92 ASP OD2 4.14 Å van-der-waals R 17 C N1 3G8SR00 Lig88
P09012_RRM1 22 90 3G8SC01 3G8S C 22 LYS CD 4.28 Å ionic R 14 C OP1 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CE2 4.73 Å van-der-waals R 17 C N1 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR OH 4.66 Å van-der-waals R 17 G C3' 3G8SR00 Lig88
P09012_RRM1 15 82 3G8SC01 3G8S C 15 ASN CA 4.87 Å van-der-waals R 17 G N7 3G8SR00 Lig88
P09012_RRM1 48 127 3G8SC01 3G8S C 48 SER CB 4.45 Å van-der-waals R 17 C O3' 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU CD2 3.72 Å van-der-waals R 17 G O4' 3G8SR00 Lig88
P09012_RRM1 19 86 3G8SC01 3G8S C 19 GLU CD 4.76 Å van-der-waals R 17 G N1 3G8SR00 Lig88
P09012_RRM1 15 82 3G8SC01 3G8S C 15 ASN ND2 4.49 Å van-der-waals R 17 U C2 3G8SR00 Lig88
3G8S C 92 ASP OD1 4.86 Å van-der-waals R 17 C C2' 3G8SR00 Lig88
P09012_RRM1 53 137 3G8SC01 3G8S C 53 GLY O 4.81 Å van-der-waals R 17 G C5 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG CB 4.66 Å van-der-waals R 17 G N2 3G8SR00 Lig88
P09012_RRM1 24 92 3G8SC01 3G8S C 24 ASP OD1 4.08 Å van-der-waals R 110 U O4' 3G8SR00 Lig88
P09012_RRM1 19 86 3G8SC01 3G8S C 19 GLU OE1 4.03 Å van-der-waals R 17 U O4 3G8SR00 Lig88
P09012_RRM1 53 137 3G8SC01 3G8S C 53 GLY CA 4.51 Å van-der-waals R 17 G C6 3G8SR00 Lig88
P09012_RRM1 16 83 3G8SC01 3G8S C 16 ASN CG 4.74 Å van-der-waals R 17 U O4 3G8SR00 Lig88
P09012_RRM1 22 90 3G8SC01 3G8S C 22 LYS CD 3.61 Å ionic R 13 G OP1 3G8SR00 Lig88
P09012_RRM1 19 86 3G8SC01 3G8S C 19 GLU CD 4.34 Å van-der-waals R 17 U C2 3G8SR00 Lig88
3G8S C 85 GLN CD 4.4 Å van-der-waals R 17 C C5 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CD2 3.54 Å van-der-waals R 17 A N3 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN CD 3.87 Å van-der-waals R 17 G C4 3G8SR00 Lig88
3G8S C 87 ALA C 4.33 Å van-der-waals R 17 C C2 3G8SR00 Lig88
3G8S C 92 ASP OD1 4.16 Å van-der-waals R 17 C N4 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CG 3.91 Å van-der-waals R 17 C C6 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CE2 4.99 Å van-der-waals R 17 A O4' 3G8SR00 Lig88
P09012_RRM1 44 123 3G8SC01 3G8S C 44 LEU CB 4.88 Å van-der-waals R 17 A N3 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN CD 3.64 Å van-der-waals R 17 G N9 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CE1 4.58 Å van-der-waals R 17 A C2 3G8SR00 Lig88
P09012_RRM1 48 127 3G8SC01 3G8S C 48 SER OG 4.22 Å van-der-waals R 17 C OP2 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN NE2 3.62 Å van-der-waals R 17 G N3 3G8SR00 Lig88
P09012_RRM1 44 123 3G8SC01 3G8S C 44 LEU CD2 3.75 Å van-der-waals R 17 A C2 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CG 3.51 Å van-der-waals R 17 A C2 3G8SR00 Lig88
3G8S C 87 ALA CB 4.54 Å van-der-waals R 17 C N3 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN OE1 4.08 Å van-der-waals R 17 G N7 3G8SR00 Lig88
P09012_RRM1 24 92 3G8SC01 3G8S C 24 ASP CG 3.97 Å van-der-waals R 110 U C4' 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CD1 4.53 Å van-der-waals R 17 A N9 3G8SR00 Lig88
P09012_RRM1 47 126 3G8SC01 3G8S C 47 ARG NH2 3.84 Å ionic R 13 G P 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CE1 4.25 Å van-der-waals R 17 C C1' 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CE2 4.61 Å van-der-waals R 17 C O4' 3G8SR00 Lig88
P09012_RRM1 22 90 3G8SC01 3G8S C 22 LYS CD 4.54 Å van-der-waals R 13 G O5' 3G8SR00 Lig88
P09012_RRM1 23 91 3G8SC01 3G8S C 23 LYS N 4.75 Å van-der-waals R 13 G OP1 3G8SR00 Lig88
P09012_RRM1 51 135 3G8SC01 3G8S C 51 MET CE 3.93 Å van-der-waals R 17 A O4' 3G8SR00 Lig88
3G8S C 88 LYS CB 3.86 Å van-der-waals R 17 C C2 3G8SR00 Lig88
P09012_RRM1 51 135 3G8SC01 3G8S C 51 MET CE 3.55 Å van-der-waals R 17 A C5' 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN OE1 4.09 Å van-der-waals R 17 G N9 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN CG 4.46 Å van-der-waals R 17 G N9 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG O 3.9 Å van-der-waals R 17 G C4 3G8SR00 Lig88
3G8S C 91 SER CA 4.12 Å van-der-waals R 17 C N4 3G8SR00 Lig88
3G8S C 89 THR O 4.3 Å van-der-waals R 17 A C6 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU CD1 3.94 Å van-der-waals R 17 A N3 3G8SR00 Lig88
3G8S C 88 LYS N 3.46 Å van-der-waals R 17 C C2 3G8SR00 Lig88
P09012_RRM1 44 123 3G8SC01 3G8S C 44 LEU CD2 4.68 Å van-der-waals R 17 C N1 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG CG 3.62 Å van-der-waals R 17 U O2 3G8SR00 Lig88
3G8S C 91 SER CB 3.48 Å van-der-waals R 17 A N1 3G8SR00 Lig88
3G8S C 85 GLN CD 4.38 Å van-der-waals R 17 C C4 3G8SR00 Lig88
P09012_RRM1 19 86 3G8SC01 3G8S C 19 GLU OE1 3.92 Å van-der-waals R 17 U C4 3G8SR00 Lig88
3G8S C 90 ASP O 3.5 Å van-der-waals R 17 A N6 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG NH1 4.99 Å van-der-waals R 17 U N3 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN NE2 4.9 Å van-der-waals R 17 G O4' 3G8SR00 Lig88
P09012_RRM1 51 135 3G8SC01 3G8S C 51 MET CE 4.76 Å van-der-waals R 17 A O5' 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CZ 3.94 Å van-der-waals R 17 C C5 3G8SR00 Lig88
3G8S C 88 LYS CA 4.01 Å van-der-waals R 17 C O2 3G8SR00 Lig88
P09012_RRM1 51 135 3G8SC01 3G8S C 51 MET SD 3.67 Å van-der-waals R 17 A C4' 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CG 4.77 Å van-der-waals R 17 A C5 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU CA 4.12 Å van-der-waals R 17 G OP1 3G8SR00 Lig88
P09012_RRM1 15 82 3G8SC01 3G8S C 15 ASN CG 4.89 Å van-der-waals R 17 G C8 3G8SR00 Lig88
3G8S C 88 LYS N 4.28 Å van-der-waals R 17 C N4 3G8SR00 Lig88
3G8S C 91 SER OG 4.3 Å van-der-waals R 17 C N3 3G8SR00 Lig88
P09012_RRM1 22 90 3G8SC01 3G8S C 22 LYS CG 3.99 Å ionic R 13 G OP1 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG NH1 4.31 Å van-der-waals R 17 A N6 3G8SR00 Lig88
P09012_RRM1 47 126 3G8SC01 3G8S C 47 ARG CZ 4.29 Å ionic R 13 G OP2 3G8SR00 Lig88
P09012_RRM1 19 86 3G8SC01 3G8S C 19 GLU CD 4.81 Å van-der-waals R 17 G C2 3G8SR00 Lig88
3G8S C 91 SER C 4.01 Å van-der-waals R 17 C O2 3G8SR00 Lig88
3G8S C 86 TYR C 4.3 Å van-der-waals R 17 C N3 3G8SR00 Lig88
P09012_RRM1 48 127 3G8SC01 3G8S C 48 SER OG 4.7 Å van-der-waals R 17 G OP1 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CG 4.03 Å van-der-waals R 17 C N3 3G8SR00 Lig88
3G8S C 92 ASP CG 3.74 Å van-der-waals R 17 C N3 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG C 4.24 Å van-der-waals R 17 G C2 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG NH2 2.86 Å van-der-waals R 17 G N7 3G8SR00 Lig88
P09012_RRM1 51 135 3G8SC01 3G8S C 51 MET SD 4.95 Å van-der-waals R 17 A C2' 3G8SR00 Lig88
P09012_RRM1 15 82 3G8SC01 3G8S C 15 ASN C 4.69 Å van-der-waals R 17 U O2 3G8SR00 Lig88
P09012_RRM1 19 86 3G8SC01 3G8S C 19 GLU OE1 3.84 Å van-der-waals R 17 G N1 3G8SR00 Lig88
P09012_RRM1 15 82 3G8SC01 3G8S C 15 ASN CB 4.76 Å van-der-waals R 17 U O2 3G8SR00 Lig88
P09012_RRM1 22 90 3G8SC01 3G8S C 22 LYS CD 3.91 Å van-der-waals R 13 G C5' 3G8SR00 Lig88
3G8S C 92 ASP OD1 4.64 Å van-der-waals R 17 C C6 3G8SR00 Lig88
P09012_RRM1 20 88 3G8SC01 3G8S C 20 LYS O 4.81 Å van-der-waals R 14 C OP1 3G8SR00 Lig88
3G8S C 87 ALA CB 4.2 Å van-der-waals R 17 C O2 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG NH1 4.7 Å van-der-waals R 17 A N3 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG NH1 4.9 Å van-der-waals R 17 G C4 3G8SR00 Lig88
P09012_RRM1 24 92 3G8SC01 3G8S C 24 ASP CG 4.42 Å van-der-waals R 110 U O4' 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CZ 4.51 Å van-der-waals R 17 G C8 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CZ 4.56 Å van-der-waals R 17 C O2 3G8SR00 Lig88
3G8S C 87 ALA N 4.67 Å van-der-waals R 17 C N4 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU CD1 4.81 Å van-der-waals R 17 U O2' 3G8SR00 Lig88
3G8S C 92 ASP N 4.89 Å van-der-waals R 17 C N1 3G8SR00 Lig88
P09012_RRM1 51 135 3G8SC01 3G8S C 51 MET CE 3.75 Å van-der-waals R 17 C C5' 3G8SR00 Lig88
3G8S C 85 GLN NE2 3.36 Å van-der-waals R 17 C N4 3G8SR00 Lig88
P09012_RRM1 15 82 3G8SC01 3G8S C 15 ASN CA 4.04 Å van-der-waals R 17 G O6 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR OH 4.38 Å van-der-waals R 17 C O4' 3G8SR00 Lig88
3G8S C 93 ILE N 4.8 Å van-der-waals R 17 C O2 3G8SR00 Lig88
3G8S C 91 SER CA 3.94 Å van-der-waals R 17 C O2 3G8SR00 Lig88
P09012_RRM1 15 82 3G8SC01 3G8S C 15 ASN ND2 4.67 Å van-der-waals R 17 U O2' 3G8SR00 Lig88
3G8S C 86 TYR O 4.7 Å van-der-waals R 17 C C2 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR OH 4.5 Å van-der-waals R 17 G C5 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CE2 3.55 Å van-der-waals R 17 A C4 3G8SR00 Lig88
P09012_RRM1 48 127 3G8SC01 3G8S C 48 SER OG 4.19 Å van-der-waals R 17 C OP1 3G8SR00 Lig88
P09012_RRM1 15 82 3G8SC01 3G8S C 15 ASN CG 4.16 Å van-der-waals R 17 G O6 3G8SR00 Lig88
P09012_RRM1 16 83 3G8SC01 3G8S C 16 ASN C 4.45 Å van-der-waals R 17 G O6 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU O 4.36 Å van-der-waals R 17 U O2' 3G8SR00 Lig88
3G8S C 90 ASP N 4.44 Å van-der-waals R 17 A N6 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN CD 3.55 Å van-der-waals R 17 G N7 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG O 3.94 Å van-der-waals R 17 G C5 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CE1 4.83 Å van-der-waals R 17 C C4 3G8SR00 Lig88
3G8S C 89 THR O 3.05 Å van-der-waals R 17 A N6 3G8SR00 Lig88
P09012_RRM1 24 92 3G8SC01 3G8S C 24 ASP OD2 4.66 Å van-der-waals R 110 U C5' 3G8SR00 Lig88
3G8S C 89 THR OG1 4.99 Å van-der-waals R 17 A C5 3G8SR00 Lig88
P09012_RRM1 46 125 3G8SC01 3G8S C 46 SER CB 4.7 Å van-der-waals R 17 C OP2 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG NH2 4.3 Å ionic R 17 G OP1 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CD2 4.67 Å van-der-waals R 17 C N1 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU CD1 4.7 Å van-der-waals R 17 A N1 3G8SR00 Lig88
P09012_RRM1 15 82 3G8SC01 3G8S C 15 ASN ND2 4.45 Å van-der-waals R 17 G C8 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CD2 3.79 Å van-der-waals R 17 C C4 3G8SR00 Lig88
3G8S C 85 GLN CG 4.01 Å van-der-waals R 17 C N4 3G8SR00 Lig88
P09012_RRM1 83 170 3G8SC01 3G8S C 83 ARG NH2 3.04 Å van-der-waals R 17 U O2 3G8SR00 Lig88
P09012_RRM1 46 125 3G8SC01 3G8S C 46 SER C 4.97 Å van-der-waals R 17 C OP1 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CE1 3.91 Å van-der-waals R 17 A N9 3G8SR00 Lig88
P09012_RRM1 48 127 3G8SC01 3G8S C 48 SER CA 4.91 Å van-der-waals R 17 C O5' 3G8SR00 Lig88
P09012_RRM1 22 90 3G8SC01 3G8S C 22 LYS CD 4.84 Å van-der-waals R 13 G O3' 3G8SR00 Lig88
3G8S C 92 ASP CA 4.43 Å van-der-waals R 17 C C2 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN CD 4.81 Å van-der-waals R 17 G O2' 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CZ 4.2 Å van-der-waals R 17 A C5 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG CZ 4.8 Å van-der-waals R 17 G C6 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CE1 3.98 Å van-der-waals R 17 C N1 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CE2 3.91 Å van-der-waals R 17 A N9 3G8SR00 Lig88
3G8S C 92 ASP OD2 3.87 Å van-der-waals R 17 C C2 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN NE2 3.09 Å van-der-waals R 17 G C4 3G8SR00 Lig88
P09012_RRM1 48 127 3G8SC01 3G8S C 48 SER CA 4.42 Å van-der-waals R 17 G OP2 3G8SR00 Lig88
P09012_RRM1 16 83 3G8SC01 3G8S C 16 ASN N 4.96 Å van-der-waals R 17 G C5 3G8SR00 Lig88
P09012_RRM1 15 82 3G8SC01 3G8S C 15 ASN CB 4.16 Å van-der-waals R 17 G C5 3G8SR00 Lig88
3G8S C 92 ASP OD1 3.22 Å van-der-waals R 17 C N3 3G8SR00 Lig88
3G8S C 88 LYS CB 3.75 Å van-der-waals R 17 C N3 3G8SR00 Lig88
P09012_RRM1 23 91 3G8SC01 3G8S C 23 LYS CD 4.29 Å van-der-waals R 110 U O2' 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG NH1 3.63 Å van-der-waals R 17 G O6 3G8SR00 Lig88
3G8S C 88 LYS CB 4.54 Å van-der-waals R 17 C C4 3G8SR00 Lig88
3G8S C 91 SER OG 4.65 Å van-der-waals R 17 C C2 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN CG 4.04 Å van-der-waals R 17 G C8 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CD2 4.92 Å van-der-waals R 17 A N7 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CB 4.07 Å van-der-waals R 17 A N3 3G8SR00 Lig88
3G8S C 88 LYS CA 4.29 Å van-der-waals R 17 C C2 3G8SR00 Lig88
P09012_RRM1 16 83 3G8SC01 3G8S C 16 ASN ND2 4.91 Å van-der-waals R 17 U O2 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN CD 4.67 Å van-der-waals R 17 G N3 3G8SR00 Lig88
3G8S C 11 THR CG2 4.79 Å van-der-waals R 17 A C2 3G8SR00 Lig88
P09012_RRM1 22 90 3G8SC01 3G8S C 22 LYS CD 4.71 Å ionic R 13 G P 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU N 4.99 Å van-der-waals R 17 G O4' 3G8SR00 Lig88
3G8S C 85 GLN OE1 3.97 Å van-der-waals R 17 C C5 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG NH1 3.94 Å van-der-waals R 17 G C6 3G8SR00 Lig88
P09012_RRM1 48 127 3G8SC01 3G8S C 48 SER CB 4.42 Å van-der-waals R 17 C C5' 3G8SR00 Lig88
P09012_RRM1 46 125 3G8SC01 3G8S C 46 SER OG 3.71 Å van-der-waals R 17 C OP2 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CD2 4.94 Å van-der-waals R 17 C C2 3G8SR00 Lig88
P09012_RRM1 50 129 3G8SC01 3G8S C 50 LYS C 3.65 Å van-der-waals R 17 G O2' 3G8SR00 Lig88
3G8S C 89 THR OG1 4.1 Å van-der-waals R 17 A N6 3G8SR00 Lig88
3G8S C 89 THR CB 4.85 Å van-der-waals R 17 C N4 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG NH1 2.96 Å van-der-waals R 17 A N1 3G8SR00 Lig88
3G8S C 86 TYR C 4.59 Å van-der-waals R 17 C C4 3G8SR00 Lig88
P09012_RRM1 15 82 3G8SC01 3G8S C 15 ASN ND2 3.42 Å van-der-waals R 17 U O2 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CZ 4.68 Å van-der-waals R 17 C C4' 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR OH 4.3 Å van-der-waals R 17 G N9 3G8SR00 Lig88
3G8S C 91 SER N 4.43 Å van-der-waals R 17 A N1 3G8SR00 Lig88
P09012_RRM1 19 86 3G8SC01 3G8S C 19 GLU OE1 4.84 Å van-der-waals R 17 G N3 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CD1 3.97 Å van-der-waals R 17 C C5 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CG 4.2 Å van-der-waals R 17 C N1 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG CZ 4.8 Å van-der-waals R 17 U O2 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CD2 3.45 Å van-der-waals R 17 C C5 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN OE1 4.76 Å van-der-waals R 17 G C3' 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG CZ 4.66 Å van-der-waals R 17 G O6 3G8SR00 Lig88
P09012_RRM1 46 125 3G8SC01 3G8S C 46 SER OG 2.92 Å van-der-waals R 17 C OP1 3G8SR00 Lig88
P09012_RRM1 83 170 3G8SC01 3G8S C 83 ARG NH2 4.9 Å van-der-waals R 17 U C1' 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU CD1 4.38 Å van-der-waals R 17 G C8 3G8SR00 Lig88
P09012_RRM1 51 135 3G8SC01 3G8S C 51 MET SD 4.63 Å van-der-waals R 17 A O2' 3G8SR00 Lig88
P09012_RRM1 50 129 3G8SC01 3G8S C 50 LYS NZ 4.83 Å van-der-waals R 17 G O2' 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CD1 3.74 Å van-der-waals R 17 C C6 3G8SR00 Lig88
P09012_RRM1 15 82 3G8SC01 3G8S C 15 ASN ND2 4.4 Å van-der-waals R 17 G C6 3G8SR00 Lig88
P09012_RRM1 53 137 3G8SC01 3G8S C 53 GLY N 4.67 Å van-der-waals R 17 G N1 3G8SR00 Lig88
3G8S C 87 ALA CB 4.32 Å van-der-waals R 17 A N6 3G8SR00 Lig88
P09012_RRM1 16 83 3G8SC01 3G8S C 16 ASN CA 3.45 Å van-der-waals R 17 U O2 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CE2 3.76 Å van-der-waals R 17 A C5 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CZ 4.22 Å van-der-waals R 17 C O5' 3G8SR00 Lig88
3G8S C 92 ASP OD2 4.83 Å van-der-waals R 17 U P 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN NE2 4.57 Å van-der-waals R 17 G N1 3G8SR00 Lig88
P09012_RRM1 44 123 3G8SC01 3G8S C 44 LEU CG 4.98 Å van-der-waals R 17 A N3 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CD2 3.76 Å van-der-waals R 17 A N1 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CG 3.71 Å van-der-waals R 17 C C4 3G8SR00 Lig88
3G8S C 92 ASP 3.49 Å stack R 7 C 3G8SR00 Lig88
3G8S C 91 SER OG 4.65 Å van-der-waals R 17 A C5 3G8SR00 Lig88
P09012_RRM1 47 126 3G8SC01 3G8S C 47 ARG CZ 4.86 Å ionic R 13 G OP1 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN NE2 3 Å van-der-waals R 17 G N9 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU N 4.09 Å van-der-waals R 17 G P 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN OE1 4.52 Å van-der-waals R 17 G C1' 3G8SR00 Lig88
P09012_RRM1 50 129 3G8SC01 3G8S C 50 LYS C 4.65 Å van-der-waals R 17 G C1' 3G8SR00 Lig88
P09012_RRM1 53 137 3G8SC01 3G8S C 53 GLY O 3.47 Å van-der-waals R 17 G O6 3G8SR00 Lig88
3G8S C 92 ASP OD2 3.53 Å van-der-waals R 17 C C2' 3G8SR00 Lig88
P09012_RRM1 48 127 3G8SC01 3G8S C 48 SER CA 4.32 Å van-der-waals R 17 G P 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG O 4.9 Å van-der-waals R 17 G N7 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CE2 4.41 Å van-der-waals R 17 C C4 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG C 4.35 Å van-der-waals R 17 G N2 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CZ 3.64 Å van-der-waals R 17 A C4 3G8SR00 Lig88
P09012_RRM1 51 135 3G8SC01 3G8S C 51 MET CE 4.79 Å van-der-waals R 17 C O3' 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CB 3.89 Å van-der-waals R 17 C N3 3G8SR00 Lig88
P09012_RRM1 44 123 3G8SC01 3G8S C 44 LEU CD2 3.82 Å van-der-waals R 17 A N3 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR OH 4.66 Å van-der-waals R 17 C P 3G8SR00 Lig88
P09012_RRM1 51 135 3G8SC01 3G8S C 51 MET N 4.93 Å van-der-waals R 17 G O2' 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR OH 3.16 Å van-der-waals R 17 G C8 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR OH 4.35 Å van-der-waals R 17 C C6 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CE2 4.27 Å van-der-waals R 17 A C8 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN CD 3.8 Å van-der-waals R 17 G C5 3G8SR00 Lig88
3G8S C 92 ASP CG 4.23 Å van-der-waals R 17 C N1 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN OE1 4.4 Å van-der-waals R 17 C C4' 3G8SR00 Lig88
P09012_RRM1 19 86 3G8SC01 3G8S C 19 GLU OE2 4.67 Å van-der-waals R 17 U O2 3G8SR00 Lig88
3G8S C 87 ALA CA 3.91 Å van-der-waals R 17 C O2 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG O 3.65 Å van-der-waals R 17 G N2 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG NH2 4.75 Å van-der-waals R 17 G C6 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CE2 4.05 Å van-der-waals R 17 A C2 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG O 4.85 Å van-der-waals R 17 G N9 3G8SR00 Lig88
3G8S C 87 ALA O 4.86 Å van-der-waals R 17 C N3 3G8SR00 Lig88
P09012_RRM1 48 127 3G8SC01 3G8S C 48 SER CB 3.92 Å van-der-waals R 17 C OP1 3G8SR00 Lig88
P09012_RRM1 19 86 3G8SC01 3G8S C 19 GLU CD 3.86 Å van-der-waals R 17 G N2 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR 3.58 Å stack R 7 C 3G8SR00 Lig88
3G8S C 91 SER CB 3.96 Å van-der-waals R 17 C N3 3G8SR00 Lig88
3G8S C 88 LYS C 4.82 Å van-der-waals R 17 C O2 3G8SR00 Lig88
P09012_RRM1 51 135 3G8SC01 3G8S C 51 MET SD 3.54 Å van-der-waals R 17 A O4' 3G8SR00 Lig88
P09012_RRM1 48 127 3G8SC01 3G8S C 48 SER CB 4.25 Å van-der-waals R 17 C P 3G8SR00 Lig88
P09012_RRM1 19 86 3G8SC01 3G8S C 19 GLU OE1 2.64 Å van-der-waals R 17 G N2 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN CG 4.33 Å van-der-waals R 17 G C4 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG NH1 3.85 Å van-der-waals R 17 G C5 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CE1 3.78 Å van-der-waals R 17 A N3 3G8SR00 Lig88
P09012_RRM1 50 129 3G8SC01 3G8S C 50 LYS CG 3.72 Å van-der-waals R 17 G O2' 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CD1 3.82 Å van-der-waals R 17 C N1 3G8SR00 Lig88
P09012_RRM1 83 170 3G8SC01 3G8S C 83 ARG NH2 4.91 Å van-der-waals R 17 U C2' 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CD1 4.08 Å van-der-waals R 17 A C2 3G8SR00 Lig88
P09012_RRM1 16 83 3G8SC01 3G8S C 16 ASN CG 3.79 Å van-der-waals R 17 U O2 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CE1 4.95 Å van-der-waals R 17 A C2' 3G8SR00 Lig88
P09012_RRM1 48 127 3G8SC01 3G8S C 48 SER CB 4.67 Å van-der-waals R 17 C C3' 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CZ 4.94 Å van-der-waals R 17 C C1' 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG NH1 4.03 Å van-der-waals R 17 A C6 3G8SR00 Lig88
3G8S C 85 GLN CB 3.38 Å van-der-waals R 17 C N4 3G8SR00 Lig88
3G8S C 85 GLN NE2 4.57 Å van-der-waals R 17 C C5 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CE1 4.84 Å van-der-waals R 17 C O4' 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CD2 4.53 Å van-der-waals R 17 A N9 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CZ 4.49 Å van-der-waals R 17 A N7 3G8SR00 Lig88
P09012_RRM1 48 127 3G8SC01 3G8S C 48 SER CB 4.43 Å van-der-waals R 17 C OP2 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN CG 4.45 Å van-der-waals R 17 G O6 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN NE2 4.14 Å van-der-waals R 17 G O2' 3G8SR00 Lig88
P09012_RRM1 48 127 3G8SC01 3G8S C 48 SER CA 3.35 Å van-der-waals R 17 G OP1 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG CG 4.24 Å van-der-waals R 17 G C2 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU CD1 4.53 Å van-der-waals R 17 U C1' 3G8SR00 Lig88
3G8S C 92 ASP C 4.94 Å van-der-waals R 17 C O2 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN OE1 4.27 Å van-der-waals R 17 C O4' 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG O 3.63 Å van-der-waals R 17 G N3 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG CG 4.63 Å van-der-waals R 17 U C2 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CG 4.27 Å van-der-waals R 17 C C2 3G8SR00 Lig88
P09012_RRM1 48 127 3G8SC01 3G8S C 48 SER C 4.75 Å van-der-waals R 17 G P 3G8SR00 Lig88
3G8S C 92 ASP CG 4.93 Å van-der-waals R 17 C C6 3G8SR00 Lig88
P09012_RRM1 19 86 3G8SC01 3G8S C 19 GLU OE2 4.63 Å van-der-waals R 17 A N6 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR OH 3.68 Å van-der-waals R 17 C O5' 3G8SR00 Lig88
P09012_RRM1 46 125 3G8SC01 3G8S C 46 SER OG 4.84 Å van-der-waals R 17 C O5' 3G8SR00 Lig88
P09012_RRM1 16 83 3G8SC01 3G8S C 16 ASN CA 3.49 Å van-der-waals R 17 G O6 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CZ 4.02 Å van-der-waals R 17 A O4' 3G8SR00 Lig88
3G8S C 88 LYS N 4.81 Å van-der-waals R 17 C N1 3G8SR00 Lig88
P09012_RRM1 48 127 3G8SC01 3G8S C 48 SER CB 3.82 Å van-der-waals R 17 G P 3G8SR00 Lig88
P09012_RRM1 24 92 3G8SC01 3G8S C 24 ASP OD1 3.44 Å van-der-waals R 110 U C5' 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN CG 3.65 Å van-der-waals R 17 G N7 3G8SR00 Lig88
3G8S C 92 ASP N 3.1 Å van-der-waals R 17 C O2 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN OE1 4.67 Å van-der-waals R 17 G C4 3G8SR00 Lig88
P09012_RRM1 22 90 3G8SC01 3G8S C 22 LYS CB 4.97 Å van-der-waals R 13 G O5' 3G8SR00 Lig88
3G8S C 91 SER CA 3.51 Å van-der-waals R 17 A N6 3G8SR00 Lig88
3G8S C 87 ALA C 3.7 Å van-der-waals R 17 C N3 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CZ 4.27 Å van-der-waals R 17 C C1' 3G8SR00 Lig88
3G8S C 11 THR CG2 4.27 Å van-der-waals R 17 A N1 3G8SR00 Lig88
P09012_RRM1 83 170 3G8SC01 3G8S C 83 ARG NH2 4.7 Å van-der-waals R 17 U N1 3G8SR00 Lig88
3G8S C 87 ALA C 4.69 Å van-der-waals R 17 C N4 3G8SR00 Lig88
3G8S C 87 ALA CB 4.78 Å van-der-waals R 17 C C2 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG CZ 4.11 Å van-der-waals R 17 G C8 3G8SR00 Lig88
P09012_RRM1 48 127 3G8SC01 3G8S C 48 SER O 4.93 Å van-der-waals R 17 G OP1 3G8SR00 Lig88
P09012_RRM1 19 86 3G8SC01 3G8S C 19 GLU CD 3.82 Å van-der-waals R 17 U O4 3G8SR00 Lig88
P09012_RRM1 24 92 3G8SC01 3G8S C 24 ASP OD1 4.29 Å van-der-waals R 110 U O3' 3G8SR00 Lig88
P09012_RRM1 50 129 3G8SC01 3G8S C 50 LYS CA 4.92 Å van-der-waals R 17 G C1' 3G8SR00 Lig88
P09012_RRM1 16 83 3G8SC01 3G8S C 16 ASN OD1 4.87 Å van-der-waals R 17 U N1 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN NE2 4.26 Å van-der-waals R 17 G C6 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN CD 4.08 Å van-der-waals R 17 G C2' 3G8SR00 Lig88
P09012_RRM1 47 126 3G8SC01 3G8S C 47 ARG NE 4.8 Å ionic R 13 G OP2 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG C 4.2 Å van-der-waals R 17 G N1 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU O 4.25 Å van-der-waals R 17 U O2 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU CD1 4.64 Å van-der-waals R 17 U O2 3G8SR00 Lig88
P09012_RRM1 19 86 3G8SC01 3G8S C 19 GLU CG 4.94 Å van-der-waals R 17 U N3 3G8SR00 Lig88
3G8S C 89 THR OG1 3.96 Å van-der-waals R 17 C N4 3G8SR00 Lig88
P09012_RRM1 24 92 3G8SC01 3G8S C 24 ASP CB 4.68 Å van-der-waals R 110 U C5' 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CG 4.8 Å van-der-waals R 17 A C6 3G8SR00 Lig88
P09012_RRM1 46 125 3G8SC01 3G8S C 46 SER OG 3.78 Å van-der-waals R 17 C P 3G8SR00 Lig88
P09012_RRM1 16 83 3G8SC01 3G8S C 16 ASN N 2.87 Å van-der-waals R 17 G O6 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CG 4.2 Å van-der-waals R 17 A N1 3G8SR00 Lig88
3G8S C 91 SER CA 3.88 Å van-der-waals R 17 A N1 3G8SR00 Lig88
P09012_RRM1 47 126 3G8SC01 3G8S C 47 ARG NH2 3.31 Å ionic R 13 G OP2 3G8SR00 Lig88
3G8S C 91 SER CB 4.36 Å van-der-waals R 17 A C2 3G8SR00 Lig88
P09012_RRM1 53 137 3G8SC01 3G8S C 53 GLY O 4.06 Å van-der-waals R 17 G C6 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CG 4.16 Å van-der-waals R 17 C N4 3G8SR00 Lig88
3G8S C 87 ALA N 4.38 Å van-der-waals R 17 C N3 3G8SR00 Lig88
P09012_RRM1 51 135 3G8SC01 3G8S C 51 MET CE 3.63 Å van-der-waals R 17 A C4' 3G8SR00 Lig88
P09012_RRM1 51 135 3G8SC01 3G8S C 51 MET CG 4.69 Å van-der-waals R 17 A O2' 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU O 4.67 Å van-der-waals R 17 G N3 3G8SR00 Lig88
P09012_RRM1 50 129 3G8SC01 3G8S C 50 LYS NZ 4.64 Å van-der-waals R 17 U O2' 3G8SR00 Lig88
P09012_RRM1 16 83 3G8SC01 3G8S C 16 ASN CB 4.61 Å van-der-waals R 17 G O6 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN 3.13 Å stack R 7 G 3G8SR00 Lig88
P09012_RRM1 19 86 3G8SC01 3G8S C 19 GLU OE2 4.35 Å van-der-waals R 17 U C2 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CG 4.88 Å van-der-waals R 17 C O4' 3G8SR00 Lig88
3G8S C 91 SER CB 3.94 Å van-der-waals R 17 A N6 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CZ 4.89 Å van-der-waals R 17 C C4 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CZ 4.11 Å van-der-waals R 17 C O4' 3G8SR00 Lig88
P09012_RRM1 50 129 3G8SC01 3G8S C 50 LYS O 4.8 Å van-der-waals R 17 G C3' 3G8SR00 Lig88
3G8S C 92 ASP CG 4.8 Å van-der-waals R 17 C C1' 3G8SR00 Lig88
P09012_RRM1 19 86 3G8SC01 3G8S C 19 GLU CG 4.71 Å van-der-waals R 17 G N2 3G8SR00 Lig88
P09012_RRM1 24 92 3G8SC01 3G8S C 24 ASP OD1 4.85 Å van-der-waals R 110 U O5' 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG CD 4.72 Å van-der-waals R 17 A C2 3G8SR00 Lig88
P09012_RRM1 53 137 3G8SC01 3G8S C 53 GLY C 4.67 Å van-der-waals R 17 G N1 3G8SR00 Lig88
3G8S C 87 ALA CA 4.49 Å van-der-waals R 17 C C4 3G8SR00 Lig88
P09012_RRM1 15 82 3G8SC01 3G8S C 15 ASN ND2 4.48 Å van-der-waals R 17 U C1' 3G8SR00 Lig88
3G8S C 88 LYS N 4.05 Å van-der-waals R 17 C C4 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN CD 4.6 Å van-der-waals R 17 G C6 3G8SR00 Lig88
P09012_RRM1 24 92 3G8SC01 3G8S C 24 ASP OD2 4.91 Å van-der-waals R 110 U C4' 3G8SR00 Lig88
3G8S C 91 SER OG 4.75 Å van-der-waals R 17 A N3 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CD2 4.06 Å van-der-waals R 17 A C6 3G8SR00 Lig88
P09012_RRM1 50 129 3G8SC01 3G8S C 50 LYS CD 4.97 Å van-der-waals R 17 G O2' 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CB 4.01 Å van-der-waals R 17 C N4 3G8SR00 Lig88
P09012_RRM1 80 167 3G8SC01 3G8S C 80 LYS CD 4.65 Å van-der-waals R 17 U O4 3G8SR00 Lig88
P09012_RRM1 51 135 3G8SC01 3G8S C 51 MET SD 4.93 Å van-der-waals R 17 A C3' 3G8SR00 Lig88
P09012_RRM1 48 127 3G8SC01 3G8S C 48 SER N 4.66 Å van-der-waals R 17 G OP1 3G8SR00 Lig88
P09012_RRM1 50 129 3G8SB01 3G8S B 50 LYS CD 4.36 Å ionic R 63 U OP1 3G8SR00 Lig88
3G8S C 92 ASP CA 4.28 Å van-der-waals R 17 C N3 3G8SR00 Lig88
P09012_RRM1 19 86 3G8SC01 3G8S C 19 GLU OE1 3.34 Å van-der-waals R 17 U O2 3G8SR00 Lig88
P09012_RRM1 48 127 3G8SC01 3G8S C 48 SER C 3.71 Å van-der-waals R 17 G OP1 3G8SR00 Lig88
P09012_RRM1 47 126 3G8SC01 3G8S C 47 ARG O 4.98 Å van-der-waals R 17 G OP1 3G8SR00 Lig88
P09012_RRM1 83 170 3G8SC01 3G8S C 83 ARG NH2 3.86 Å van-der-waals R 17 U O2' 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU CB 4.87 Å van-der-waals R 17 G OP2 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CD1 4.44 Å van-der-waals R 17 A C1' 3G8SR00 Lig88
3G8S C 90 ASP O 4.06 Å van-der-waals R 17 C C4 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CE2 4.81 Å van-der-waals R 17 C N4 3G8SR00 Lig88
P09012_RRM1 16 83 3G8SC01 3G8S C 16 ASN CA 4.01 Å van-der-waals R 17 U C2 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CB 4.38 Å van-der-waals R 17 C C2 3G8SR00 Lig88
3G8S C 91 SER C 4.32 Å van-der-waals R 17 C C2 3G8SR00 Lig88
P09012_RRM1 44 123 3G8SC01 3G8S C 44 LEU CD2 4.69 Å van-der-waals R 17 C O2' 3G8SR00 Lig88
3G8S C 11 THR CB 4.89 Å van-der-waals R 17 A N1 3G8SR00 Lig88
P09012_RRM1 48 127 3G8SC01 3G8S C 48 SER CB 3.87 Å van-der-waals R 17 C O5' 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CD2 4.88 Å van-der-waals R 17 A N6 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU N 4.9 Å van-der-waals R 17 G O5' 3G8SR00 Lig88
3G8S C 87 ALA CA 3.54 Å van-der-waals R 17 C N3 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CE2 3.75 Å van-der-waals R 17 A N3 3G8SR00 Lig88
P09012_RRM1 16 83 3G8SC01 3G8S C 16 ASN CA 3.87 Å van-der-waals R 17 U N3 3G8SR00 Lig88
P09012_RRM1 15 82 3G8SC01 3G8S C 15 ASN CG 4.75 Å van-der-waals R 17 G C5 3G8SR00 Lig88
3G8S B 88 LYS CE 4.72 Å van-der-waals R 80 A C5' 3G8SR00 Lig88
P09012_RRM1 24 92 3G8SC01 3G8S C 24 ASP CB 4.22 Å van-der-waals R 110 U O4' 3G8SR00 Lig88
P09012_RRM1 16 83 3G8SC01 3G8S C 16 ASN N 4.58 Å van-der-waals R 17 U N3 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CG 4.11 Å van-der-waals R 17 A C4 3G8SR00 Lig88
3G8S C 87 ALA C 4.69 Å van-der-waals R 17 C C4 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CE1 4.14 Å van-der-waals R 17 A O4' 3G8SR00 Lig88
P09012_RRM1 16 83 3G8SC01 3G8S C 16 ASN CA 4.98 Å van-der-waals R 17 U C4 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CB 3.84 Å van-der-waals R 17 C C4 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU CD2 4.43 Å van-der-waals R 17 G N9 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU CD2 3.84 Å van-der-waals R 17 G C1' 3G8SR00 Lig88
P09012_RRM1 47 126 3G8SC01 3G8S C 47 ARG C 4.84 Å van-der-waals R 17 C OP1 3G8SR00 Lig88
P09012_RRM1 19 86 3G8SC01 3G8S C 19 GLU OE2 4.83 Å van-der-waals R 17 U C5 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CZ 4.95 Å van-der-waals R 17 C C5' 3G8SR00 Lig88
3G8S C 90 ASP O 4.58 Å van-der-waals R 17 A C6 3G8SR00 Lig88
P09012_RRM1 15 82 3G8SC01 3G8S C 15 ASN CG 3.88 Å van-der-waals R 17 G N7 3G8SR00 Lig88
3G8S C 92 ASP CB 4.08 Å van-der-waals R 17 C C2 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN CD 4.84 Å van-der-waals R 17 C C5' 3G8SR00 Lig88
3G8S C 91 SER N 4.52 Å van-der-waals R 17 C N4 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CB 4.78 Å van-der-waals R 17 C N1 3G8SR00 Lig88
3G8S C 92 ASP N 4.64 Å van-der-waals R 17 C N4 3G8SR00 Lig88
P09012_RRM1 53 137 3G8SC01 3G8S C 53 GLY CA 4.33 Å van-der-waals R 17 G N1 3G8SR00 Lig88
3G8S C 92 ASP CA 3.91 Å van-der-waals R 17 C O2 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CE2 4.62 Å van-der-waals R 17 C C1' 3G8SR00 Lig88
P09012_RRM1 15 82 3G8SC01 3G8S C 15 ASN C 3.9 Å van-der-waals R 17 G O6 3G8SR00 Lig88
3G8S C 85 GLN OE1 3.75 Å van-der-waals R 17 C N4 3G8SR00 Lig88
P09012_RRM1 80 167 3G8SC01 3G8S C 80 LYS NZ 3.74 Å van-der-waals R 17 U C4 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CD1 3.56 Å van-der-waals R 17 A N3 3G8SR00 Lig88
P09012_RRM1 44 123 3G8SC01 3G8S C 44 LEU CD2 4.85 Å van-der-waals R 17 C C2 3G8SR00 Lig88
3G8S C 91 SER OG 3.23 Å van-der-waals R 17 A N6 3G8SR00 Lig88
3G8S C 90 ASP C 4.62 Å van-der-waals R 17 A C6 3G8SR00 Lig88
P09012_RRM1 50 129 3G8SB01 3G8S B 50 LYS CE 4.51 Å ionic R 63 U OP1 3G8SR00 Lig88
P09012_RRM1 22 90 3G8SC01 3G8S C 22 LYS CA 4.28 Å van-der-waals R 13 G OP1 3G8SR00 Lig88
3G8S C 88 LYS CA 3.91 Å van-der-waals R 17 C N3 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU O 4.89 Å van-der-waals R 17 G N2 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CZ 4.92 Å van-der-waals R 17 A C6 3G8SR00 Lig88
P09012_RRM1 15 82 3G8SC01 3G8S C 15 ASN CA 4.94 Å van-der-waals R 17 G C6 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CE2 4.92 Å van-der-waals R 17 A N6 3G8SR00 Lig88
P09012_RRM1 15 82 3G8SC01 3G8S C 15 ASN ND2 3.82 Å van-der-waals R 17 G O6 3G8SR00 Lig88
P09012_RRM1 15 82 3G8SC01 3G8S C 15 ASN CB 3.5 Å van-der-waals R 17 G N7 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU CA 4.95 Å van-der-waals R 17 G O4' 3G8SR00 Lig88
P09012_RRM1 50 129 3G8SC01 3G8S C 50 LYS O 3.32 Å van-der-waals R 17 G C2' 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN OE1 3.84 Å van-der-waals R 17 C O5' 3G8SR00 Lig88
P09012_RRM1 24 92 3G8SC01 3G8S C 24 ASP CB 4.22 Å van-der-waals R 110 U C4' 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG NH1 4.57 Å van-der-waals R 17 U O2 3G8SR00 Lig88
P09012_RRM1 22 90 3G8SC01 3G8S C 22 LYS CE 4.65 Å van-der-waals R 13 G C5' 3G8SR00 Lig88
P09012_RRM1 53 137 3G8SC01 3G8S C 53 GLY C 4.4 Å van-der-waals R 17 G C6 3G8SR00 Lig88
P09012_RRM1 19 86 3G8SC01 3G8S C 19 GLU OE2 4.69 Å van-der-waals R 17 G N2 3G8SR00 Lig88
3G8S C 88 LYS CB 4.56 Å van-der-waals R 17 C O2' 3G8SR00 Lig88
3G8S C 11 THR OG1 4.8 Å van-der-waals R 17 A N1 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG NH1 4.94 Å van-der-waals R 17 U C2 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CB 4.31 Å van-der-waals R 17 C C5 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG NH2 3.22 Å van-der-waals R 17 G C8 3G8SR00 Lig88
3G8S C 90 ASP O 4.03 Å van-der-waals R 17 C N3 3G8SR00 Lig88
3G8S C 89 THR N 4.49 Å van-der-waals R 17 C O2 3G8SR00 Lig88
P09012_RRM1 16 83 3G8SC01 3G8S C 16 ASN CB 4.2 Å van-der-waals R 17 U C2 3G8SR00 Lig88
P09012_RRM1 24 92 3G8SC01 3G8S C 24 ASP OD1 4.81 Å van-der-waals R 110 U C1' 3G8SR00 Lig88
P09012_RRM1 16 83 3G8SC01 3G8S C 16 ASN CB 4.09 Å van-der-waals R 17 U N3 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR OH 4.32 Å van-der-waals R 17 C OP2 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG CD 4.17 Å van-der-waals R 17 G N2 3G8SR00 Lig88
P09012_RRM1 16 83 3G8SC01 3G8S C 16 ASN CB 3.46 Å van-der-waals R 17 U O2 3G8SR00 Lig88
3G8S C 91 SER C 4.89 Å van-der-waals R 17 A N6 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG CZ 4.08 Å van-der-waals R 17 A N1 3G8SR00 Lig88
3G8S C 90 ASP CA 4.31 Å van-der-waals R 17 A N6 3G8SR00 Lig88
P09012_RRM1 16 83 3G8SC01 3G8S C 16 ASN OD1 4.94 Å van-der-waals R 17 U C5 3G8SR00 Lig88
P09012_RRM1 16 83 3G8SC01 3G8S C 16 ASN C 4.89 Å van-der-waals R 17 U O2 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CG 4.83 Å van-der-waals R 17 A N9 3G8SR00 Lig88
3G8S C 91 SER N 3.42 Å van-der-waals R 17 A N6 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CE2 4.45 Å van-der-waals R 17 C C2 3G8SR00 Lig88
P09012_RRM1 24 92 3G8SC01 3G8S C 24 ASP OD1 4.38 Å van-der-waals R 110 U C3' 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG NH2 4.4 Å van-der-waals R 17 G N9 3G8SR00 Lig88
P09012_RRM1 47 126 3G8SC01 3G8S C 47 ARG NH2 4.4 Å van-der-waals R 13 G O5' 3G8SR00 Lig88
P09012_RRM1 50 129 3G8SC01 3G8S C 50 LYS CA 3.75 Å van-der-waals R 17 G O2' 3G8SR00 Lig88
P09012_RRM1 23 91 3G8SC01 3G8S C 23 LYS CE 4.92 Å van-der-waals R 110 U O2' 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN CG 4.96 Å van-der-waals R 17 G N1 3G8SR00 Lig88
P09012_RRM1 22 90 3G8SC01 3G8S C 22 LYS CD 4.94 Å ionic R 14 C P 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CE2 4.53 Å van-der-waals R 17 A C1' 3G8SR00 Lig88
P09012_RRM1 19 86 3G8SC01 3G8S C 19 GLU OE2 3.16 Å van-der-waals R 17 U N3 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CD1 3.87 Å van-der-waals R 17 C O4' 3G8SR00 Lig88
3G8S C 92 ASP CG 4.88 Å van-der-waals R 17 U OP2 3G8SR00 Lig88
3G8S C 91 SER O 4.81 Å van-der-waals R 17 C N3 3G8SR00 Lig88
P09012_RRM1 22 90 3G8SC01 3G8S C 22 LYS CE 4.05 Å ionic R 14 C OP1 3G8SR00 Lig88
P09012_RRM1 22 90 3G8SC01 3G8S C 22 LYS C 4.98 Å van-der-waals R 13 G OP1 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CE1 4.69 Å van-der-waals R 17 C C5' 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG O 3.22 Å van-der-waals R 17 G N1 3G8SR00 Lig88
P09012_RRM1 15 82 3G8SC01 3G8S C 15 ASN ND2 3.45 Å van-der-waals R 17 G N7 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CZ 3.56 Å van-der-waals R 17 A N9 3G8SR00 Lig88
3G8S C 88 LYS CA 4.82 Å van-der-waals R 17 C C4 3G8SR00 Lig88
3G8S C 86 TYR O 3.44 Å van-der-waals R 17 C N3 3G8SR00 Lig88
P09012_RRM1 15 82 3G8SC01 3G8S C 15 ASN CG 4.84 Å van-der-waals R 17 G C6 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CE2 4.26 Å van-der-waals R 17 A N1 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CZ 4.82 Å van-der-waals R 17 C C2 3G8SR00 Lig88
3G8S C 92 ASP OD1 4.23 Å van-der-waals R 17 C N1 3G8SR00 Lig88
3G8S C 92 ASP OD2 4.34 Å van-der-waals R 17 C N3 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CB 4.43 Å van-der-waals R 17 A N1 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG NH1 3.42 Å van-der-waals R 17 G N7 3G8SR00 Lig88
P09012_RRM1 24 92 3G8SC01 3G8S C 24 ASP OD1 3.27 Å van-der-waals R 110 U C4' 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN CD 3.42 Å van-der-waals R 17 G C8 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CE2 4.24 Å van-der-waals R 17 A N7 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN CD 4.3 Å van-der-waals R 17 G C1' 3G8SR00 Lig88
3G8S C 91 SER N 4.35 Å van-der-waals R 17 A C6 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CE2 3.61 Å van-der-waals R 17 C C5 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CD1 4.77 Å van-der-waals R 17 C O2 3G8SR00 Lig88
P09012_RRM1 48 127 3G8SC01 3G8S C 48 SER CB 3.49 Å van-der-waals R 17 G OP2 3G8SR00 Lig88
P09012_RRM1 53 137 3G8SC01 3G8S C 53 GLY CA 4.34 Å van-der-waals R 17 G O6 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR OH 4.57 Å van-der-waals R 17 G C2' 3G8SR00 Lig88
3G8S C 85 GLN OE1 4.34 Å van-der-waals R 17 C C4 3G8SR00 Lig88
P09012_RRM1 51 135 3G8SC01 3G8S C 51 MET CE 4.78 Å van-der-waals R 17 A OP1 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU CB 4.43 Å van-der-waals R 17 G N9 3G8SR00 Lig88
P09012_RRM1 50 129 3G8SC01 3G8S C 50 LYS O 4.84 Å van-der-waals R 17 G C4 3G8SR00 Lig88
P09012_RRM1 83 170 3G8SC01 3G8S C 83 ARG CZ 4.93 Å van-der-waals R 17 U C2 3G8SR00 Lig88
3G8S C 86 TYR CA 4.95 Å van-der-waals R 17 C N4 3G8SR00 Lig88
3G8S C 92 ASP OD2 4.09 Å van-der-waals R 17 C O2' 3G8SR00 Lig88
P09012_RRM1 53 137 3G8SC01 3G8S C 53 GLY C 4.1 Å van-der-waals R 17 G O6 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CD1 4.36 Å van-der-waals R 17 C N3 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN NE2 4.31 Å van-der-waals R 17 G C2 3G8SR00 Lig88
P09012_RRM1 48 127 3G8SC01 3G8S C 48 SER OG 4.46 Å van-der-waals R 17 C P 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR CE1 3.65 Å van-der-waals R 17 C C6 3G8SR00 Lig88
P09012_RRM1 54 138 3G8SC01 3G8S C 54 GLN NE2 3.43 Å van-der-waals R 17 G C5 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG NH1 4.31 Å van-der-waals R 17 G C8 3G8SR00 Lig88
P09012_RRM1 22 90 3G8SC01 3G8S C 22 LYS CB 3.14 Å ionic R 13 G OP1 3G8SR00 Lig88
3G8S C 92 ASP CB 4.32 Å van-der-waals R 17 C N3 3G8SR00 Lig88
P09012_RRM1 19 86 3G8SC01 3G8S C 19 GLU CD 3.44 Å van-der-waals R 17 U N3 3G8SR00 Lig88
3G8S C 92 ASP CG 4.48 Å van-der-waals R 17 C C4 3G8SR00 Lig88
P09012_RRM1 52 136 3G8SC01 3G8S C 52 ARG CG 4.67 Å van-der-waals R 17 G N3 3G8SR00 Lig88
P09012_RRM1 49 128 3G8SC01 3G8S C 49 LEU CB 4.28 Å van-der-waals R 17 G C8 3G8SR00 Lig88
3G8S C 91 SER CA 4.09 Å van-der-waals R 17 C C2 3G8SR00 Lig88
P09012_RRM1 80 167 3G8SC01 3G8S C 80 LYS NZ 2.65 Å van-der-waals R 17 U O4 3G8SR00 Lig88
P09012_RRM1 24 92 3G8SC01 3G8S C 24 ASP CB 4.77 Å van-der-waals R 110 U C1' 3G8SR00 Lig88
P09012_RRM1 16 83 3G8SC01 3G8S C 16 ASN CA 4.71 Å van-der-waals R 17 G C6 3G8SR00 Lig88
P09012_RRM1 13 80 3G8SC01 3G8S C 13 TYR OH 3.3 Å van-der-waals R 17 G N7 3G8SR00 Lig88
3G8S C 91 SER N 4.96 Å van-der-waals R 17 C C4 3G8SR00 Lig88
P09012_RRM1 80 167 3G8SC01 3G8S C 80 LYS NZ 4.88 Å van-der-waals R 17 U C5 3G8SR00 Lig88
3G8S C 91 SER CA 4.05 Å van-der-waals R 17 A C6 3G8SR00 Lig88
P09012_RRM1 56 140 3G8SC01 3G8S C 56 PHE CE1 4.86 Å van-der-waals R 17 A C5 3G8SR00 Lig88