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
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CE2 3.52 Å van-der-waals 4 70 U C5 6QX9400 Lig168
Q9BTD8_RRM1 386 82 6QX9R01 6QX9 R 386 GLY CA 3.46 Å van-der-waals 4 68 A N1 6QX9400 Lig168
6QX9 R 456 LYS O 3.17 Å hbond 4 69 C N4 6QX9400 Lig168
6QX9 R 373 LEU CG 4.33 Å van-der-waals 4 70 U O4 6QX9400 Lig168
Q9BTD8_RRM1 453 170 6QX9R01 6QX9 R 453 LYS CB 4.51 Å van-der-waals 4 68 A N6 6QX9400 Lig168
Q9BTD8_RRM1 413 125 6QX9R01 6QX9 R 413 ILE CD1 4.69 Å van-der-waals 4 70 U O4' 6QX9400 Lig168
6QX9 R 376 TRP CZ2 4.59 Å van-der-waals 4 70 U O2 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CE1 4.1 Å van-der-waals 4 69 C C6 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CZ 4.12 Å van-der-waals 4 69 C C5 6QX9400 Lig168
Q9BTD8_RRM1 424 138 6QX9R01 6QX9 R 424 TYR CE2 4.31 Å van-der-waals 4 69 C O4' 6QX9400 Lig168
Q9BTD8_RRM1 424 138 6QX9R01 6QX9 R 424 TYR CE2 4.55 Å van-der-waals 4 70 U C1' 6QX9400 Lig168
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP CB 4.02 Å van-der-waals 4 68 A N1 6QX9400 Lig168
Q9BTD8_RRM1 424 138 6QX9R01 6QX9 R 424 TYR CZ 4.27 Å van-der-waals 4 70 U O4' 6QX9400 Lig168
6QX9 R 382 ARG NH2 4.05 Å hbond 4 70 U C4 6QX9400 Lig168
Q9BTD8_RRM1 386 82 6QX9R01 6QX9 R 386 GLY N 4.75 Å van-der-waals 4 68 A N1 6QX9400 Lig168
6QX9 R 458 MET CB 3.86 Å van-der-waals 4 69 C C2 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CE1 4.54 Å van-der-waals 4 70 U C5 6QX9400 Lig168
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP OD1 4.46 Å van-der-waals 4 68 A N6 6QX9400 Lig168
6QX9 R 456 LYS N 4.85 Å van-der-waals 4 69 C N4 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CE2 4.05 Å van-der-waals 4 70 U O4 6QX9400 Lig168
Q9BTD8_RRM1 413 125 6QX9R01 6QX9 R 413 ILE CG1 4.03 Å van-der-waals 4 70 U C1' 6QX9400 Lig168
Q9BTD8_RRM1 453 170 6QX9R01 6QX9 R 453 LYS CG 4.73 Å van-der-waals 4 68 A N6 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CE2 4.33 Å van-der-waals 4 69 C C5 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CZ 3.26 Å van-der-waals 4 69 C O2 6QX9400 Lig168
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP CA 4.23 Å van-der-waals 4 68 A C2 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CE1 4.42 Å van-der-waals 4 69 C C1' 6QX9400 Lig168
Q9BTD8_RRM1 386 82 6QX9R01 6QX9 R 386 GLY CA 3.9 Å van-der-waals 4 68 A C2 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CE2 3.71 Å van-der-waals 4 70 U C6 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CZ 4.97 Å van-der-waals 4 68 A C4 6QX9400 Lig168
6QX9 R 382 ARG CZ 4.1 Å van-der-waals 4 70 U O4 6QX9400 Lig168
6QX9 R 376 TRP CE3 4.49 Å van-der-waals 4 70 U N3 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CE2 4.86 Å van-der-waals 4 70 U C1' 6QX9400 Lig168
Q9BTD8_RRM1 423 137 6QX9R01 6QX9 R 423 GLY C 4.66 Å van-der-waals 4 68 A C2 6QX9400 Lig168
Q9BTD8_RRM1 413 125 6QX9R01 6QX9 R 413 ILE CG1 4.45 Å van-der-waals 4 70 U N1 6QX9400 Lig168
Q9BTD8_RRM1 424 138 6QX9R01 6QX9 R 424 TYR CG 4.86 Å van-der-waals 4 68 A N3 6QX9400 Lig168
6QX9 R 382 ARG NH1 4.98 Å van-der-waals 4 70 U O4 6QX9400 Lig168
Q9BTD8_RRM1 424 138 6QX9R01 6QX9 R 424 TYR OH 4.22 Å van-der-waals 4 69 C C5' 6QX9400 Lig168
6QX9 R 458 MET SD 4.79 Å van-der-waals 4 69 C C5 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CG 4.17 Å van-der-waals 4 69 C N4 6QX9400 Lig168
6QX9 R 376 TRP CH2 3.9 Å van-der-waals 4 70 U C2 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CZ 3.95 Å van-der-waals 4 69 C C2 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CD1 3.69 Å hbond 4 69 C C2 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CG 4.19 Å van-der-waals 4 70 U O4 6QX9400 Lig168
Q9BTD8_RRM1 413 125 6QX9R01 6QX9 R 413 ILE CG2 4.67 Å van-der-waals 4 70 U O4' 6QX9400 Lig168
Q9BTD8_RRM1 424 138 6QX9R01 6QX9 R 424 TYR CD1 4.24 Å van-der-waals 4 68 A O2' 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CZ 4.24 Å van-der-waals 4 69 C C4 6QX9400 Lig168
Q9BTD8_RRM1 424 138 6QX9R01 6QX9 R 424 TYR CZ 4.25 Å van-der-waals 4 69 C C5' 6QX9400 Lig168
6QX9 R 457 SER OG 4.34 Å van-der-waals 4 69 C C2 6QX9400 Lig168
6QX9 R 457 SER CA 3.89 Å van-der-waals 4 69 C C2 6QX9400 Lig168
6QX9 R 376 TRP CE3 4.83 Å van-der-waals 4 70 U C4 6QX9400 Lig168
6QX9 R 458 MET CA 4.48 Å van-der-waals 4 69 C O2' 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CE1 4.13 Å van-der-waals 4 69 C N3 6QX9400 Lig168
Q9BTD8_RRM1 413 125 6QX9R01 6QX9 R 413 ILE CD1 4.95 Å van-der-waals 4 70 U N3 6QX9400 Lig168
Q9BTD8_RRM1 424 138 6QX9R01 6QX9 R 424 TYR OH 4.44 Å van-der-waals 4 69 C C4' 6QX9400 Lig168
6QX9 R 458 MET CA 4.16 Å van-der-waals 4 69 C C2 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CE2 3.77 Å van-der-waals 4 70 U N3 6QX9400 Lig168
Q9BTD8_RRM1 424 138 6QX9R01 6QX9 R 424 TYR CB 4.53 Å van-der-waals 4 68 A N3 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CZ 3.77 Å van-der-waals 4 69 C O4' 6QX9400 Lig168
6QX9 R 376 TRP CE3 4.22 Å van-der-waals 4 70 U O4 6QX9400 Lig168
6QX9 R 382 ARG NE 4.78 Å van-der-waals 4 70 U O4 6QX9400 Lig168
6QX9 R 458 MET CG 4.37 Å van-der-waals 4 69 C O2 6QX9400 Lig168
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP CB 3.74 Å van-der-waals 4 68 A N6 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CD1 4.7 Å van-der-waals 4 69 C O4' 6QX9400 Lig168
6QX9 R 376 TRP CZ3 3.3 Å van-der-waals 4 70 U N3 6QX9400 Lig168
6QX9 R 373 LEU CD2 4.34 Å van-der-waals 4 70 U O4 6QX9400 Lig168
6QX9 R 456 LYS O 4.48 Å van-der-waals 4 69 C C2 6QX9400 Lig168
Q9BTD8_RRM1 424 138 6QX9R01 6QX9 R 424 TYR CE1 4.58 Å van-der-waals 4 69 C C5' 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CD2 3.98 Å van-der-waals 4 69 C C4 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CE1 4.63 Å van-der-waals 4 69 C C1' 6QX9400 Lig168
6QX9 R 459 TRP N 4.99 Å van-der-waals 4 69 C C2 6QX9400 Lig168
Q9BTD8_RRM1 411 123 6QX9R01 6QX9 R 411 LYS CE 4.96 Å van-der-waals 4 70 U O2 6QX9400 Lig168
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP CG 4.98 Å van-der-waals 4 68 A C6 6QX9400 Lig168
6QX9 R 455 ARG CZ 4.94 Å van-der-waals 4 68 A N7 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CE1 4.87 Å van-der-waals 4 69 C N4 6QX9400 Lig168
6QX9 R 455 ARG NH1 3.43 Å van-der-waals 4 68 A N6 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CE2 4.61 Å van-der-waals 4 69 C O2 6QX9400 Lig168
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP N 4.87 Å van-der-waals 4 68 A C5 6QX9400 Lig168
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP CG 4.8 Å van-der-waals 4 68 A N1 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CZ 3.96 Å van-der-waals 4 70 U C4 6QX9400 Lig168
Q9BTD8_RRM1 413 125 6QX9R01 6QX9 R 413 ILE CG1 4.56 Å van-der-waals 4 70 U O4' 6QX9400 Lig168
6QX9 R 458 MET N 4.98 Å van-der-waals 4 69 C C5 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CE2 3.98 Å van-der-waals 4 70 U N1 6QX9400 Lig168
6QX9 R 370 ASP OD2 4.98 Å van-der-waals 4 70 U O2' 6QX9400 Lig168
6QX9 R 456 LYS O 3.71 Å van-der-waals 4 69 C C4 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CD1 4.17 Å van-der-waals 4 69 C O2 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CG 4.83 Å van-der-waals 4 69 C N1 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CG 4.93 Å van-der-waals 4 70 U C5 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CZ 4.21 Å van-der-waals 4 70 U O4 6QX9400 Lig168
6QX9 R 382 ARG NH2 2.86 Å hbond 4 70 U O4 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CE1 4.03 Å van-der-waals 4 69 C C2 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CE2 3.56 Å van-der-waals 4 70 U C4 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CD1 4.07 Å van-der-waals 4 69 C C4 6QX9400 Lig168
6QX9 R 373 LEU CG 4.29 Å van-der-waals 4 70 U C4 6QX9400 Lig168
6QX9 R 458 MET CG 3.77 Å van-der-waals 4 69 C C6 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CZ 4.95 Å van-der-waals 4 69 C O4' 6QX9400 Lig168
6QX9 R 376 TRP CZ3 3.59 Å van-der-waals 4 70 U O4 6QX9400 Lig168
6QX9 R 376 TRP CH2 3.26 Å van-der-waals 4 70 U N3 6QX9400 Lig168
6QX9 R 458 MET N 3.19 Å van-der-waals 4 69 C N3 6QX9400 Lig168
6QX9 R 457 SER CA 3.41 Å van-der-waals 4 69 C O2 6QX9400 Lig168
6QX9 R 458 MET C 4.7 Å van-der-waals 4 69 C O2' 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE 3.85 Å stack 4 69 C 6QX9400 Lig168
6QX9 R 370 ASP OD1 4.03 Å van-der-waals 4 70 U O3' 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CD2 4.03 Å van-der-waals 4 70 U O4 6QX9400 Lig168
Q9BTD8_RRM1 413 125 6QX9R01 6QX9 R 413 ILE CD1 3.89 Å van-der-waals 4 70 U C2 6QX9400 Lig168
6QX9 R 459 TRP CA 4.46 Å van-der-waals 4 69 C O2' 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CE2 4.75 Å van-der-waals 4 70 U O2 6QX9400 Lig168
6QX9 R 458 MET CG 3.83 Å van-der-waals 4 69 C N1 6QX9400 Lig168
6QX9 R 458 MET CA 4.18 Å van-der-waals 4 69 C N3 6QX9400 Lig168
Q9BTD8_RRM1 424 138 6QX9R01 6QX9 R 424 TYR CA 4.57 Å van-der-waals 4 68 A C2 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CD1 4.66 Å van-der-waals 4 69 C N4 6QX9400 Lig168
6QX9 R 376 TRP CZ3 3.9 Å van-der-waals 4 70 U C4 6QX9400 Lig168
6QX9 R 456 LYS O 4.77 Å van-der-waals 4 69 C O2 6QX9400 Lig168
Q9BTD8_RRM1 413 125 6QX9R01 6QX9 R 413 ILE CG2 4.57 Å van-der-waals 4 70 U C1' 6QX9400 Lig168
6QX9 R 458 MET SD 4.44 Å van-der-waals 4 69 C C4 6QX9400 Lig168
6QX9 R 458 MET SD 4.69 Å van-der-waals 4 69 C N3 6QX9400 Lig168
6QX9 R 457 SER C 4.74 Å van-der-waals 4 69 C C4 6QX9400 Lig168
6QX9 R 458 MET CB 4.41 Å van-der-waals 4 69 C C4 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CB 4.54 Å van-der-waals 4 69 C O2 6QX9400 Lig168
6QX9 R 370 ASP CG 3.35 Å van-der-waals 4 70 U O3' 6QX9400 Lig168
6QX9 R 376 TRP CH2 4.18 Å van-der-waals 4 70 U O4 6QX9400 Lig168
Q9BTD8_RRM1 422 136 6QX9R01 6QX9 R 422 LYS O 4.84 Å van-der-waals 4 68 A N3 6QX9400 Lig168
6QX9 R 455 ARG CG 4.88 Å van-der-waals 4 69 C N4 6QX9400 Lig168
Q9BTD8_RRM1 388 84 6QX9R01 6QX9 R 388 LEU N 4.99 Å van-der-waals 4 68 A N1 6QX9400 Lig168
Q9BTD8_RRM1 413 125 6QX9R01 6QX9 R 413 ILE CG1 4.85 Å van-der-waals 4 70 U O2' 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CE2 4.91 Å van-der-waals 4 69 C C6 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CG 4.72 Å van-der-waals 4 69 C C5 6QX9400 Lig168
6QX9 R 370 ASP OD2 3.72 Å van-der-waals 4 70 U C3' 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CE1 4.5 Å van-der-waals 4 70 U C4 6QX9400 Lig168
6QX9 R 370 ASP OD2 4.87 Å van-der-waals 4 70 U C4' 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CZ 4.96 Å van-der-waals 4 69 C N3 6QX9400 Lig168
Q9BTD8_RRM1 386 82 6QX9R01 6QX9 R 386 GLY C 3.38 Å van-der-waals 4 68 A N1 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CE2 4.14 Å van-der-waals 4 69 C C4 6QX9400 Lig168
6QX9 R 457 SER CA 4.66 Å van-der-waals 4 69 C C4 6QX9400 Lig168
6QX9 R 459 TRP N 4.42 Å van-der-waals 4 69 C O2 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CE2 4.74 Å van-der-waals 4 69 C C1' 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CG 3.68 Å van-der-waals 4 69 C N3 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CZ 3.72 Å van-der-waals 4 70 U C5 6QX9400 Lig168
Q9BTD8_RRM1 424 138 6QX9R01 6QX9 R 424 TYR N 4.86 Å van-der-waals 4 68 A N1 6QX9400 Lig168
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP CA 4.04 Å van-der-waals 4 68 A N6 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CD2 3.75 Å van-der-waals 4 70 U C4 6QX9400 Lig168
6QX9 R 457 SER N 4.62 Å van-der-waals 4 69 C O2 6QX9400 Lig168
6QX9 R 382 ARG CD 4.59 Å van-der-waals 4 70 U O4 6QX9400 Lig168
6QX9 R 376 TRP CZ3 4.25 Å van-der-waals 4 70 U C2 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CE1 4.48 Å van-der-waals 4 69 C N1 6QX9400 Lig168
Q9BTD8_RRM1 413 125 6QX9R01 6QX9 R 413 ILE CD1 3.19 Å van-der-waals 4 70 U O2 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CG 4.31 Å van-der-waals 4 70 U C4 6QX9400 Lig168
Q9BTD8_RRM1 424 138 6QX9R01 6QX9 R 424 TYR OH 4.49 Å van-der-waals 4 70 U C5' 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CD2 4.61 Å van-der-waals 4 69 C C5 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CD2 4.14 Å van-der-waals 4 69 C N3 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CG 3.98 Å van-der-waals 4 69 C C4 6QX9400 Lig168
6QX9 R 458 MET N 4.27 Å van-der-waals 4 69 C N1 6QX9400 Lig168
Q9BTD8_RRM1 413 125 6QX9R01 6QX9 R 413 ILE CD1 3.77 Å hbond 4 70 U C1' 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CD2 3.69 Å van-der-waals 4 70 U N3 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CE1 4.2 Å van-der-waals 4 69 C C5 6QX9400 Lig168
6QX9 R 376 TRP CZ3 4.25 Å van-der-waals 4 70 U O2 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CD1 3.94 Å van-der-waals 4 69 C O2 6QX9400 Lig168
Q9BTD8_RRM1 424 138 6QX9R01 6QX9 R 424 TYR CD1 4.63 Å van-der-waals 4 68 A C2 6QX9400 Lig168
6QX9 R 458 MET CG 4.73 Å van-der-waals 4 69 C C1' 6QX9400 Lig168
Q9BTD8_RRM1 453 170 6QX9R01 6QX9 R 453 LYS CD 3.9 Å van-der-waals 4 68 A N6 6QX9400 Lig168
6QX9 R 370 ASP CB 4.11 Å van-der-waals 4 70 U O3' 6QX9400 Lig168
6QX9 R 458 MET N 3.26 Å van-der-waals 4 69 C C2 6QX9400 Lig168
Q9BTD8_RRM1 422 136 6QX9R01 6QX9 R 422 LYS O 4.93 Å van-der-waals 4 68 A C2 6QX9400 Lig168
Q9BTD8_RRM1 413 125 6QX9R01 6QX9 R 413 ILE CD1 4.45 Å van-der-waals 4 70 U C2' 6QX9400 Lig168
6QX9 R 373 LEU CD2 4.46 Å van-der-waals 4 70 U C4 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CE1 4.57 Å van-der-waals 4 69 C N3 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CE1 3.81 Å van-der-waals 4 69 C C2 6QX9400 Lig168
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP CB 4.35 Å van-der-waals 4 68 A C6 6QX9400 Lig168
Q9BTD8_RRM1 424 138 6QX9R01 6QX9 R 424 TYR CZ 4.84 Å van-der-waals 4 68 A O2' 6QX9400 Lig168
Q9BTD8_RRM1 424 138 6QX9R01 6QX9 R 424 TYR CB 4.35 Å van-der-waals 4 68 A C2 6QX9400 Lig168
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP N 3.58 Å van-der-waals 4 68 A C6 6QX9400 Lig168
6QX9 R 458 MET CA 4.83 Å van-der-waals 4 69 C N1 6QX9400 Lig168
6QX9 R 457 SER C 3.77 Å van-der-waals 4 69 C N3 6QX9400 Lig168
6QX9 R 373 LEU CB 4.88 Å van-der-waals 4 70 U O4 6QX9400 Lig168
6QX9 R 459 TRP N 3.98 Å hbond 4 69 C O2' 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CE1 4.01 Å van-der-waals 4 69 C N1 6QX9400 Lig168
Q9BTD8_RRM1 424 138 6QX9R01 6QX9 R 424 TYR CZ 4.72 Å van-der-waals 4 69 C O4' 6QX9400 Lig168
6QX9 R 458 MET N 3.07 Å hbond 4 69 C O2 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CB 4.6 Å hbond 4 69 C N4 6QX9400 Lig168
6QX9 R 457 SER OG 3.29 Å hbond 4 69 C O2 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CD1 4.36 Å van-der-waals 4 70 U O4 6QX9400 Lig168
6QX9 R 455 ARG NH1 4.11 Å van-der-waals 4 68 A C5 6QX9400 Lig168
Q9BTD8_RRM1 386 82 6QX9R01 6QX9 R 386 GLY O 4.8 Å van-der-waals 4 68 A N6 6QX9400 Lig168
Q9BTD8_RRM1 424 138 6QX9R01 6QX9 R 424 TYR CE1 4.8 Å van-der-waals 4 68 A C2' 6QX9400 Lig168
6QX9 R 458 MET CG 4.19 Å van-der-waals 4 69 C O2' 6QX9400 Lig168
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP N 4.71 Å van-der-waals 4 68 A N3 6QX9400 Lig168
Q9BTD8_RRM1 386 82 6QX9R01 6QX9 R 386 GLY O 4.48 Å van-der-waals 4 68 A N1 6QX9400 Lig168
Q9BTD8_RRM1 386 82 6QX9R01 6QX9 R 386 GLY CA 4.5 Å van-der-waals 4 68 A N6 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CE2 4.48 Å van-der-waals 4 69 C O4' 6QX9400 Lig168
6QX9 R 456 LYS C 4.28 Å van-der-waals 4 69 C N4 6QX9400 Lig168
Q9BTD8_RRM1 386 82 6QX9R01 6QX9 R 386 GLY C 4.18 Å van-der-waals 4 68 A C6 6QX9400 Lig168
Q9BTD8_RRM1 424 138 6QX9R01 6QX9 R 424 TYR OH 3.62 Å hbond 4 70 U O4' 6QX9400 Lig168
Q9BTD8_RRM1 453 170 6QX9R01 6QX9 R 453 LYS NZ 4.77 Å van-der-waals 4 68 A N6 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CD2 4.5 Å van-der-waals 4 70 U C6 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CE1 4.15 Å van-der-waals 4 69 C O4' 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CZ 4.16 Å van-der-waals 4 70 U C6 6QX9400 Lig168
Q9BTD8_RRM1 386 82 6QX9R01 6QX9 R 386 GLY CA 4.27 Å van-der-waals 4 68 A C6 6QX9400 Lig168
6QX9 R 382 ARG NH2 4.97 Å van-der-waals 4 70 U C5 6QX9400 Lig168
6QX9 R 455 ARG CD 4.38 Å van-der-waals 4 69 C N4 6QX9400 Lig168
6QX9 R 376 TRP CH2 4.2 Å van-der-waals 4 70 U C4 6QX9400 Lig168
Q9BTD8_RRM1 424 138 6QX9R01 6QX9 R 424 TYR N 4.02 Å van-der-waals 4 68 A C2 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CE2 4.15 Å van-der-waals 4 69 C N4 6QX9400 Lig168
Q9BTD8_RRM1 386 82 6QX9R01 6QX9 R 386 GLY C 4.14 Å van-der-waals 4 68 A C2 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CZ 4.81 Å van-der-waals 4 70 U N1 6QX9400 Lig168
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP N 2.61 Å hbond 4 68 A N1 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CB 4.51 Å van-der-waals 4 69 C C2 6QX9400 Lig168
6QX9 R 458 MET SD 4.45 Å van-der-waals 4 69 C N4 6QX9400 Lig168
6QX9 R 458 MET CA 4.1 Å van-der-waals 4 69 C O2 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE 3.52 Å stack 4 70 U 6QX9400 Lig168
6QX9 R 458 MET CB 4.64 Å van-der-waals 4 69 C C5 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CZ 4.65 Å van-der-waals 4 69 C N1 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CG 4.48 Å van-der-waals 4 69 C O2 6QX9400 Lig168
6QX9 R 458 MET CG 4.52 Å van-der-waals 4 69 C C2' 6QX9400 Lig168
6QX9 R 458 MET C 4.81 Å van-der-waals 4 69 C O2 6QX9400 Lig168
Q9BTD8_RRM1 413 125 6QX9R01 6QX9 R 413 ILE CD1 4.21 Å van-der-waals 4 70 U N1 6QX9400 Lig168
6QX9 R 458 MET CB 4.62 Å van-der-waals 4 69 C C1' 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CD2 4.61 Å van-der-waals 4 70 U O2 6QX9400 Lig168
Q9BTD8_RRM1 424 138 6QX9R01 6QX9 R 424 TYR CE2 4.96 Å van-der-waals 4 70 U N1 6QX9400 Lig168
Q9BTD8_RRM1 424 138 6QX9R01 6QX9 R 424 TYR CE1 4.96 Å van-der-waals 4 69 C O5' 6QX9400 Lig168
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP N 3.68 Å van-der-waals 4 68 A N6 6QX9400 Lig168
Q9BTD8_RRM1 424 138 6QX9R01 6QX9 R 424 TYR N 4.57 Å van-der-waals 4 68 A N3 6QX9400 Lig168
Q9BTD8_RRM1 453 170 6QX9R01 6QX9 R 453 LYS CE 4.86 Å van-der-waals 4 68 A N6 6QX9400 Lig168
Q9BTD8_RRM1 424 138 6QX9R01 6QX9 R 424 TYR CZ 4.96 Å van-der-waals 4 69 C O5' 6QX9400 Lig168
6QX9 R 373 LEU CG 4.56 Å van-der-waals 4 70 U N3 6QX9400 Lig168
6QX9 R 458 MET CB 4.46 Å van-der-waals 4 69 C C6 6QX9400 Lig168
6QX9 R 458 MET CE 4.66 Å van-der-waals 4 69 C N3 6QX9400 Lig168
Q9BTD8_RRM1 424 138 6QX9R01 6QX9 R 424 TYR CD2 4.49 Å van-der-waals 4 69 C O4' 6QX9400 Lig168
Q9BTD8_RRM1 386 82 6QX9R01 6QX9 R 386 GLY CA 4.98 Å van-der-waals 4 68 A N3 6QX9400 Lig168
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP CA 3.39 Å van-der-waals 4 68 A N1 6QX9400 Lig168
6QX9 R 458 MET CG 3.51 Å van-der-waals 4 69 C N3 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CZ 4.91 Å van-der-waals 4 68 A N3 6QX9400 Lig168
6QX9 R 370 ASP CB 4.72 Å van-der-waals 4 70 U C3' 6QX9400 Lig168
Q9BTD8_RRM1 424 138 6QX9R01 6QX9 R 424 TYR OH 4.13 Å van-der-waals 4 70 U C4' 6QX9400 Lig168
6QX9 R 458 MET CB 4.11 Å van-der-waals 4 69 C O2 6QX9400 Lig168
6QX9 R 455 ARG CZ 4.74 Å van-der-waals 4 68 A N6 6QX9400 Lig168
6QX9 R 455 ARG NH1 4.83 Å van-der-waals 4 68 A C8 6QX9400 Lig168
6QX9 R 458 MET CA 4.82 Å van-der-waals 4 69 C C4 6QX9400 Lig168
6QX9 R 457 SER O 4.95 Å van-der-waals 4 69 C O2 6QX9400 Lig168
6QX9 R 457 SER C 4.07 Å van-der-waals 4 69 C C2 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CZ 4.34 Å van-der-waals 4 69 C C6 6QX9400 Lig168
6QX9 R 382 ARG NH2 4.91 Å van-der-waals 4 70 U N3 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CE1 4.37 Å van-der-waals 4 70 U O4 6QX9400 Lig168
6QX9 R 455 ARG NH1 3.84 Å van-der-waals 4 68 A N7 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CD1 4.51 Å van-der-waals 4 69 C C5 6QX9400 Lig168
6QX9 R 370 ASP OD2 4.65 Å van-der-waals 4 70 U C2' 6QX9400 Lig168
6QX9 R 458 MET CE 3.97 Å van-der-waals 4 69 C C4 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CD1 4.83 Å van-der-waals 4 69 C C1' 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CD1 4.51 Å van-der-waals 4 69 C C6 6QX9400 Lig168
6QX9 R 373 LEU CG 4.6 Å van-der-waals 4 70 U C5 6QX9400 Lig168
6QX9 R 458 MET CB 3.49 Å van-der-waals 4 69 C O2' 6QX9400 Lig168
Q9BTD8_RRM1 424 138 6QX9R01 6QX9 R 424 TYR CD1 4.22 Å van-der-waals 4 68 A N3 6QX9400 Lig168
6QX9 R 456 LYS O 3.35 Å van-der-waals 4 69 C N3 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CZ 4.65 Å van-der-waals 4 69 C N4 6QX9400 Lig168
Q9BTD8_RRM1 413 125 6QX9R01 6QX9 R 413 ILE CD1 4.12 Å van-der-waals 4 70 U O2' 6QX9400 Lig168
6QX9 R 455 ARG NE 4.71 Å van-der-waals 4 69 C N4 6QX9400 Lig168
6QX9 R 373 LEU CD2 4.78 Å van-der-waals 4 70 U OP2 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CZ 4.76 Å van-der-waals 4 69 C C4' 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CD1 4.65 Å van-der-waals 4 70 U C4 6QX9400 Lig168
6QX9 R 457 SER CB 4.6 Å van-der-waals 4 69 C C2 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CG 4.15 Å van-der-waals 4 69 C C2 6QX9400 Lig168
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP N 3.39 Å van-der-waals 4 68 A C2 6QX9400 Lig168
6QX9 R 455 ARG NH1 3.99 Å van-der-waals 4 68 A C6 6QX9400 Lig168
Q9BTD8_RRM1 413 125 6QX9R01 6QX9 R 413 ILE CG1 4.41 Å van-der-waals 4 70 U C2 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CZ 4.58 Å van-der-waals 4 70 U N3 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CB 3.96 Å van-der-waals 4 69 C N3 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CZ 4.19 Å van-der-waals 4 69 C N1 6QX9400 Lig168
Q9BTD8_RRM1 413 125 6QX9R01 6QX9 R 413 ILE CG2 4.51 Å van-der-waals 4 70 U O2' 6QX9400 Lig168
6QX9 R 458 MET N 4.63 Å van-der-waals 4 69 C N4 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CE1 2.95 Å van-der-waals 4 69 C O2 6QX9400 Lig168
6QX9 R 457 SER CA 4.9 Å van-der-waals 4 69 C N4 6QX9400 Lig168
6QX9 R 458 MET CB 4.09 Å van-der-waals 4 69 C N1 6QX9400 Lig168
6QX9 R 458 MET CG 3.7 Å van-der-waals 4 69 C C2 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CE1 4.53 Å van-der-waals 4 69 C O2 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CD2 4.09 Å van-der-waals 4 70 U C2 6QX9400 Lig168
6QX9 R 458 MET CG 3.44 Å van-der-waals 4 69 C C4 6QX9400 Lig168
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP C 4.71 Å van-der-waals 4 68 A N1 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CD2 3.86 Å van-der-waals 4 69 C N4 6QX9400 Lig168
Q9BTD8_RRM1 424 138 6QX9R01 6QX9 R 424 TYR CE1 4.04 Å van-der-waals 4 68 A O2' 6QX9400 Lig168
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP CA 4.17 Å van-der-waals 4 68 A C6 6QX9400 Lig168
6QX9 R 376 TRP CZ2 4.43 Å van-der-waals 4 70 U N3 6QX9400 Lig168
6QX9 R 373 LEU CD2 4.53 Å van-der-waals 4 70 U C5 6QX9400 Lig168
6QX9 R 458 MET CG 3.97 Å van-der-waals 4 69 C N4 6QX9400 Lig168
6QX9 R 457 SER N 4.24 Å van-der-waals 4 69 C N3 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CZ 4.86 Å van-der-waals 4 68 A C2' 6QX9400 Lig168
Q9BTD8_RRM1 424 138 6QX9R01 6QX9 R 424 TYR CE2 4.31 Å van-der-waals 4 69 C C4' 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CE1 4.72 Å van-der-waals 4 69 C O4' 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CD2 4.84 Å van-der-waals 4 69 C C2 6QX9400 Lig168
6QX9 R 457 SER CB 3.74 Å van-der-waals 4 69 C O2 6QX9400 Lig168
6QX9 R 457 SER O 4.89 Å van-der-waals 4 69 C N3 6QX9400 Lig168
6QX9 R 457 SER CA 3.54 Å van-der-waals 4 69 C N3 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CB 4.86 Å van-der-waals 4 70 U O4 6QX9400 Lig168
6QX9 R 376 TRP CH2 3.6 Å van-der-waals 4 70 U O2 6QX9400 Lig168
Q9BTD8_RRM1 424 138 6QX9R01 6QX9 R 424 TYR CD1 4.6 Å van-der-waals 4 68 A C2' 6QX9400 Lig168
6QX9 R 456 LYS C 4.73 Å van-der-waals 4 69 C C4 6QX9400 Lig168
Q9BTD8_RRM1 386 82 6QX9R01 6QX9 R 386 GLY C 4.13 Å van-der-waals 4 68 A N6 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CE1 4.2 Å van-der-waals 4 69 C C4 6QX9400 Lig168
6QX9 R 457 SER CB 4.61 Å van-der-waals 4 69 C N3 6QX9400 Lig168
Q9BTD8_RRM1 424 138 6QX9R01 6QX9 R 424 TYR OH 4.61 Å van-der-waals 4 70 U C1' 6QX9400 Lig168
6QX9 R 458 MET CE 4.26 Å van-der-waals 4 69 C C5 6QX9400 Lig168
6QX9 R 457 SER C 3.73 Å van-der-waals 4 69 C O2 6QX9400 Lig168
Q9BTD8_RRM1 424 138 6QX9R01 6QX9 R 424 TYR CD2 4.9 Å van-der-waals 4 69 C C4' 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CD2 4.5 Å van-der-waals 4 70 U N1 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CZ 4.77 Å van-der-waals 4 69 C C2 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CZ 3.76 Å van-der-waals 4 69 C C1' 6QX9400 Lig168
6QX9 R 455 ARG CB 4.1 Å van-der-waals 4 69 C N4 6QX9400 Lig168
6QX9 R 370 ASP OD2 2.6 Å van-der-waals 4 70 U O3' 6QX9400 Lig168
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP CG 4.34 Å van-der-waals 4 68 A N6 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CD1 4.12 Å van-der-waals 4 69 C N1 6QX9400 Lig168
Q9BTD8_RRM1 423 137 6QX9R01 6QX9 R 423 GLY CA 4.63 Å hbond 4 68 A C2 6QX9400 Lig168
6QX9 R 458 MET CG 3.59 Å van-der-waals 4 69 C C5 6QX9400 Lig168
6QX9 R 458 MET N 4.69 Å van-der-waals 4 69 C O2' 6QX9400 Lig168
6QX9 R 370 ASP CG 4.36 Å van-der-waals 4 70 U C3' 6QX9400 Lig168
6QX9 R 456 LYS C 4.13 Å van-der-waals 4 69 C N3 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CZ 4.57 Å van-der-waals 4 69 C N3 6QX9400 Lig168
Q9BTD8_RRM1 411 123 6QX9R01 6QX9 R 411 LYS CD 4.52 Å van-der-waals 4 70 U O2 6QX9400 Lig168
6QX9 R 458 MET N 4.11 Å van-der-waals 4 69 C C4 6QX9400 Lig168
6QX9 R 457 SER OG 4.73 Å van-der-waals 4 69 C N3 6QX9400 Lig168
6QX9 R 460 LYS N 4.57 Å van-der-waals 4 69 C O2' 6QX9400 Lig168
6QX9 R 458 MET CB 4.27 Å van-der-waals 4 69 C C2' 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CE2 4.57 Å van-der-waals 4 69 C N3 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CD2 4.19 Å van-der-waals 4 70 U C5 6QX9400 Lig168
6QX9 R 458 MET CE 3.57 Å van-der-waals 4 69 C N4 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CB 4.55 Å van-der-waals 4 69 C C4 6QX9400 Lig168
Q9BTD8_RRM1 424 138 6QX9R01 6QX9 R 424 TYR CE2 4.56 Å van-der-waals 4 69 C C5' 6QX9400 Lig168
6QX9 R 458 MET CB 4.04 Å van-der-waals 4 69 C N3 6QX9400 Lig168
Q9BTD8_RRM1 424 138 6QX9R01 6QX9 R 424 TYR CE2 3.96 Å van-der-waals 4 70 U O4' 6QX9400 Lig168
Q9BTD8_RRM1 384 80 6QX9R01 6QX9 R 384 PHE CD1 3.67 Å van-der-waals 4 69 C N3 6QX9400 Lig168
6QX9 R 457 SER N 4.92 Å van-der-waals 4 69 C C2 6QX9400 Lig168
Q9BTD8_RRM1 413 125 6QX9R01 6QX9 R 413 ILE CG1 4.08 Å van-der-waals 4 70 U O2 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CG 4.45 Å van-der-waals 4 70 U N3 6QX9400 Lig168
Q9BTD8_RRM1 426 140 6QX9R01 6QX9 R 426 PHE CE2 4.01 Å van-der-waals 4 70 U C2 6QX9400 Lig168
Q9BTD8_RRM1 424 138 6QX9R01 6QX9 R 424 TYR CZ 4.42 Å van-der-waals 4 69 C C4' 6QX9400 Lig168
6QX9 R 370 ASP CG 4.96 Å van-der-waals 4 70 U C2' 6QX9400 Lig168