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 387 83 6QX9R01 6QX9 R 387 ASP OD2 2.81 Å hbond 6 48 A O4' 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP CG 4.63 Å van-der-waals 6 48 A O5' 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP CB 4.74 Å van-der-waals 6 49 G C2 6QX9600 Lig89
Q9BTD8_RRM1 453 170 6QX9R01 6QX9 R 453 LYS NZ 4.67 Å van-der-waals 6 49 G C4' 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG NE 4.84 Å van-der-waals 6 48 A O4' 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG CD 4.88 Å van-der-waals 6 48 A C6 6QX9600 Lig89
Q9BTD8_RRM1 449 166 6QX9R01 6QX9 R 449 SER C 4.48 Å van-der-waals 6 48 A N1 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP OD1 4.01 Å van-der-waals 6 49 G N2 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG NH2 4.24 Å van-der-waals 6 48 A N7 6QX9600 Lig89
6QX9 R 455 ARG NH1 4.46 Å van-der-waals 6 49 G O2' 6QX9600 Lig89
Q9BTD8_RRM1 417 129 6QX9R01 6QX9 R 417 ARG NH1 3.5 Å van-der-waals 6 36 A C5 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP OD2 3.09 Å van-der-waals 6 48 A C5' 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG CA 4.87 Å van-der-waals 6 48 A C6 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP OD1 4.43 Å van-der-waals 6 49 G C5' 6QX9600 Lig89
Q9BTD8_RRM1 451 168 6QX9R01 6QX9 R 451 PRO CD 3.66 Å van-der-waals 6 48 A N3 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP CA 4.34 Å van-der-waals 6 49 G C2 6QX9600 Lig89
Q9BTD8_RRM1 449 166 6QX9R01 6QX9 R 449 SER C 4.72 Å van-der-waals 6 48 A N6 6QX9600 Lig89
Q9BTD8_RRM1 417 129 6QX9R01 6QX9 R 417 ARG NH2 4.65 Å van-der-waals 6 36 A N9 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG CZ 4.13 Å van-der-waals 6 48 A N7 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG CZ 4.07 Å ionic 6 48 A OP1 6QX9600 Lig89
Q9BTD8_RRM1 453 170 6QX9R01 6QX9 R 453 LYS NZ 4.89 Å van-der-waals 6 49 G O3' 6QX9600 Lig89
Q9BTD8_RRM1 449 166 6QX9R01 6QX9 R 449 SER C 4.72 Å van-der-waals 6 48 A C6 6QX9600 Lig89
Q9BTD8_RRM1 449 166 6QX9R01 6QX9 R 449 SER O 3.32 Å van-der-waals 6 48 A N1 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP CG 3.98 Å van-der-waals 6 48 A C5' 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG CD 4.17 Å van-der-waals 6 48 A C8 6QX9600 Lig89
Q9BTD8_RRM1 449 166 6QX9R01 6QX9 R 449 SER O 3.57 Å van-der-waals 6 48 A C6 6QX9600 Lig89
Q9BTD8_RRM1 453 170 6QX9R01 6QX9 R 453 LYS NZ 4.46 Å van-der-waals 6 48 A O3' 6QX9600 Lig89
Q9BTD8_RRM1 451 168 6QX9R01 6QX9 R 451 PRO N 4.79 Å van-der-waals 6 48 A C2 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG NH1 3.3 Å ionic 6 48 A OP1 6QX9600 Lig89
Q9BTD8_RRM1 417 129 6QX9R01 6QX9 R 417 ARG NH2 3.33 Å van-der-waals 6 36 A C8 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP OD1 4.27 Å van-der-waals 6 48 A C1' 6QX9600 Lig89
Q9BTD8_RRM1 449 166 6QX9R01 6QX9 R 449 SER O 4.48 Å van-der-waals 6 48 A C5 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP OD2 4.66 Å van-der-waals 6 49 G N3 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP CG 4.6 Å van-der-waals 6 48 A C3' 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP OD1 4.83 Å van-der-waals 6 49 G N3 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG CG 4.45 Å van-der-waals 6 48 A N1 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP CG 4.62 Å van-der-waals 6 48 A C1' 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG CD 4.41 Å van-der-waals 6 48 A O4' 6QX9600 Lig89
Q9BTD8_RRM1 388 84 6QX9R01 6QX9 R 388 LEU N 4.93 Å van-der-waals 6 49 G N2 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG CG 4.13 Å van-der-waals 6 48 A N7 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP OD2 4.84 Å van-der-waals 6 48 A N9 6QX9600 Lig89
Q9BTD8_RRM1 422 136 6QX9R01 6QX9 R 422 LYS O 4.48 Å van-der-waals 6 49 G O6 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG NE 4.48 Å van-der-waals 6 48 A N9 6QX9600 Lig89
Q9BTD8_RRM1 417 129 6QX9R01 6QX9 R 417 ARG CZ 4.59 Å van-der-waals 6 36 A N6 6QX9600 Lig89
Q9BTD8_RRM1 453 170 6QX9R01 6QX9 R 453 LYS NZ 4.16 Å van-der-waals 6 49 G C5' 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG CB 4.85 Å van-der-waals 6 48 A C2 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG CA 4.71 Å van-der-waals 6 48 A N3 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG CD 4.1 Å van-der-waals 6 48 A N7 6QX9600 Lig89
Q9BTD8_RRM1 449 166 6QX9R01 6QX9 R 449 SER OG 4.89 Å van-der-waals 6 48 A N6 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP OD1 4.72 Å van-der-waals 6 49 G P 6QX9600 Lig89
Q9BTD8_RRM1 451 168 6QX9R01 6QX9 R 451 PRO N 4.91 Å van-der-waals 6 48 A N3 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG NH2 4.48 Å van-der-waals 6 48 A C8 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP OD1 3.65 Å van-der-waals 6 48 A O3' 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG NH1 4.33 Å van-der-waals 6 48 A C5' 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG CG 4.54 Å van-der-waals 6 48 A N3 6QX9600 Lig89
Q9BTD8_RRM1 417 129 6QX9R01 6QX9 R 417 ARG NH1 3.79 Å van-der-waals 6 36 A C6 6QX9600 Lig89
Q9BTD8_RRM1 417 129 6QX9R01 6QX9 R 417 ARG CZ 3.34 Å van-der-waals 6 36 A N7 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP CB 4.84 Å van-der-waals 6 48 A C4' 6QX9600 Lig89
Q9BTD8_RRM1 453 170 6QX9R01 6QX9 R 453 LYS NZ 3.43 Å hbond 6 50 A OP1 6QX9600 Lig89
Q9BTD8_RRM1 453 170 6QX9R01 6QX9 R 453 LYS NZ 4.42 Å ionic 6 49 G P 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP CG 3.35 Å van-der-waals 6 48 A O4' 6QX9600 Lig89
Q9BTD8_RRM1 417 129 6QX9R01 6QX9 R 417 ARG NH1 4.8 Å van-der-waals 6 36 A N9 6QX9600 Lig89
Q9BTD8_RRM1 451 168 6QX9R01 6QX9 R 451 PRO CD 4.64 Å van-der-waals 6 48 A C4 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG NH1 4.72 Å ionic 6 48 A P 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG CZ 4.7 Å van-der-waals 6 48 A C5' 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG CG 4.1 Å van-der-waals 6 48 A C4 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG NE 4.65 Å van-der-waals 6 48 A C4 6QX9600 Lig89
Q9BTD8_RRM1 453 170 6QX9R01 6QX9 R 453 LYS NZ 3.47 Å hbond 6 49 G O5' 6QX9600 Lig89
Q9BTD8_RRM1 449 166 6QX9R01 6QX9 R 449 SER O 4.05 Å van-der-waals 6 48 A C2 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG CD 4.44 Å van-der-waals 6 48 A N9 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG NH2 4.37 Å ionic 6 48 A OP1 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP OD1 4.91 Å van-der-waals 6 49 G C2 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP OD2 4.93 Å van-der-waals 6 48 A P 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP OD1 4.73 Å van-der-waals 6 48 A O5' 6QX9600 Lig89
Q9BTD8_RRM1 453 170 6QX9R01 6QX9 R 453 LYS NZ 4.72 Å van-der-waals 6 49 G C2' 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG NH1 4.91 Å van-der-waals 6 48 A C8 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG CZ 4.21 Å van-der-waals 6 48 A C8 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP C 4.26 Å van-der-waals 6 49 G N2 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG CG 4.49 Å van-der-waals 6 48 A N9 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP CG 3.32 Å van-der-waals 6 49 G N2 6QX9600 Lig89
Q9BTD8_RRM1 453 170 6QX9R01 6QX9 R 453 LYS CE 4.67 Å ionic 6 50 A OP1 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP OD1 4.03 Å van-der-waals 6 48 A C3' 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG CG 4.62 Å van-der-waals 6 48 A C2 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG NE 4.88 Å van-der-waals 6 48 A N6 6QX9600 Lig89
Q9BTD8_RRM1 417 129 6QX9R01 6QX9 R 417 ARG CZ 4.37 Å van-der-waals 6 36 A C5 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG CB 4.84 Å van-der-waals 6 48 A C5 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP OD1 4.14 Å van-der-waals 6 48 A C5' 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP OD2 4.98 Å van-der-waals 6 48 A C2' 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG CG 4.46 Å van-der-waals 6 48 A C8 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP O 4.92 Å van-der-waals 6 48 A O4' 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG CG 4.5 Å van-der-waals 6 48 A N6 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG CB 4.78 Å van-der-waals 6 48 A N3 6QX9600 Lig89
Q9BTD8_RRM1 449 166 6QX9R01 6QX9 R 449 SER O 3.57 Å van-der-waals 6 48 A N6 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP OD1 4.93 Å van-der-waals 6 48 A C2' 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP OD2 4.62 Å van-der-waals 6 48 A OP1 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP OD1 4.3 Å van-der-waals 6 49 G O5' 6QX9600 Lig89
Q9BTD8_RRM1 453 170 6QX9R01 6QX9 R 453 LYS NZ 4.02 Å van-der-waals 6 49 G C3' 6QX9600 Lig89
Q9BTD8_RRM1 417 129 6QX9R01 6QX9 R 417 ARG CZ 4.92 Å van-der-waals 6 36 A C6 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP CG 3.36 Å van-der-waals 6 48 A C4' 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP OD2 4.2 Å van-der-waals 6 48 A C1' 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP OD1 3.21 Å van-der-waals 6 48 A O4' 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP N 4.71 Å van-der-waals 6 49 G C2 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG CD 4.52 Å van-der-waals 6 48 A C4 6QX9600 Lig89
Q9BTD8_RRM1 417 129 6QX9R01 6QX9 R 417 ARG NH1 3.39 Å van-der-waals 6 36 A N6 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG CD 4.94 Å van-der-waals 6 48 A C5' 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP OD2 2.85 Å van-der-waals 6 48 A C4' 6QX9600 Lig89
Q9BTD8_RRM1 417 129 6QX9R01 6QX9 R 417 ARG NH2 4.29 Å van-der-waals 6 36 A C5 6QX9600 Lig89
Q9BTD8_RRM1 453 170 6QX9R01 6QX9 R 453 LYS CE 4.8 Å van-der-waals 6 49 G O5' 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG CG 4.06 Å van-der-waals 6 48 A C6 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP CB 3.69 Å van-der-waals 6 49 G N2 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP OD2 2.91 Å hbond 6 49 G N2 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP OD1 3.12 Å van-der-waals 6 48 A C4' 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG NE 4.08 Å van-der-waals 6 48 A C5 6QX9600 Lig89
Q9BTD8_RRM1 417 129 6QX9R01 6QX9 R 417 ARG NH1 4.66 Å van-der-waals 6 36 A C4 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG CG 3.85 Å van-der-waals 6 48 A C5 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG CB 4.72 Å van-der-waals 6 48 A C4 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP CG 4.68 Å van-der-waals 6 49 G N3 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG NE 3.77 Å hbond 6 48 A C8 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG CB 4.96 Å van-der-waals 6 48 A N1 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG CA 4.51 Å van-der-waals 6 48 A N1 6QX9600 Lig89
Q9BTD8_RRM1 453 170 6QX9R01 6QX9 R 453 LYS NZ 4.73 Å ionic 6 50 A P 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP OD2 3.88 Å van-der-waals 6 48 A O5' 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP CG 4.43 Å van-der-waals 6 49 G C2 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP CB 4.77 Å van-der-waals 6 48 A O4' 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP CA 3.25 Å van-der-waals 6 49 G N2 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP N 3.93 Å van-der-waals 6 49 G N2 6QX9600 Lig89
Q9BTD8_RRM1 417 129 6QX9R01 6QX9 R 417 ARG NE 4.67 Å van-der-waals 6 36 A N7 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG CG 4.88 Å van-der-waals 6 48 A O4' 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG NE 4.96 Å van-der-waals 6 48 A C5' 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG CB 4.96 Å van-der-waals 6 48 A C6 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP OD2 4.31 Å hbond 6 48 A C3' 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP OD2 4.17 Å van-der-waals 6 49 G C2 6QX9600 Lig89
Q9BTD8_RRM1 451 168 6QX9R01 6QX9 R 451 PRO CG 4.47 Å van-der-waals 6 48 A C2 6QX9600 Lig89
Q9BTD8_RRM1 417 129 6QX9R01 6QX9 R 417 ARG CZ 4.03 Å van-der-waals 6 36 A C8 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP CG 4.56 Å van-der-waals 6 48 A O3' 6QX9600 Lig89
Q9BTD8_RRM1 417 129 6QX9R01 6QX9 R 417 ARG NH1 3.79 Å van-der-waals 6 36 A C8 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG 3.64 Å stack 6 48 A 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG CD 4.3 Å van-der-waals 6 48 A C5 6QX9600 Lig89
Q9BTD8_RRM1 451 168 6QX9R01 6QX9 R 451 PRO CG 4.38 Å van-der-waals 6 48 A N3 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG N 4.99 Å van-der-waals 6 48 A N1 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP O 4.82 Å van-der-waals 6 49 G N2 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG NE 4.71 Å van-der-waals 6 48 A C6 6QX9600 Lig89
Q9BTD8_RRM1 417 129 6QX9R01 6QX9 R 417 ARG NH2 3.01 Å van-der-waals 6 36 A N7 6QX9600 Lig89
Q9BTD8_RRM1 453 170 6QX9R01 6QX9 R 453 LYS NZ 4.41 Å ionic 6 49 G OP2 6QX9600 Lig89
Q9BTD8_RRM1 451 168 6QX9R01 6QX9 R 451 PRO CD 3.58 Å van-der-waals 6 48 A C2 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG CA 4.42 Å van-der-waals 6 48 A C2 6QX9600 Lig89
Q9BTD8_RRM1 451 168 6QX9R01 6QX9 R 451 PRO CD 4.46 Å van-der-waals 6 48 A N1 6QX9600 Lig89
Q9BTD8_RRM1 450 167 6QX9R01 6QX9 R 450 ARG NE 3.5 Å van-der-waals 6 48 A N7 6QX9600 Lig89
Q9BTD8_RRM1 449 166 6QX9R01 6QX9 R 449 SER O 4.9 Å van-der-waals 6 48 A N3 6QX9600 Lig89
Q9BTD8_RRM1 387 83 6QX9R01 6QX9 R 387 ASP OD2 4.65 Å van-der-waals 6 48 A O3' 6QX9600 Lig89
Q9BTD8_RRM1 417 129 6QX9R01 6QX9 R 417 ARG NH1 2.82 Å hbond 6 36 A N7 6QX9600 Lig89