List of Contacts

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
E9BNI3_RRM1 86 125 5OSGh01 5OSG h 86 ARG CD 4.59 Å ionic 2 809 C OP1 5OSG200 Lig100
E9BNI3_RRM1 86 125 5OSGh01 5OSG h 86 ARG CZ 3.95 Å ionic 2 809 C OP1 5OSG200 Lig100
E9BNI3_RRM1 86 125 5OSGh01 5OSG h 86 ARG NE 4.56 Å ionic 2 809 C OP1 5OSG200 Lig100
E9BNI3_RRM1 86 125 5OSGh01 5OSG h 86 ARG NH1 3.2 Å ionic 2 809 C OP1 5OSG200 Lig100
E9BNI3_RRM1 86 125 5OSGh01 5OSG h 86 ARG NH1 3.85 Å ionic 2 809 C OP2 5OSG200 Lig100
E9BNI3_RRM1 86 125 5OSGh01 5OSG h 86 ARG NH1 4.01 Å ionic 2 809 C P 5OSG200 Lig100
E9BNI3_RRM1 86 125 5OSGh01 5OSG h 86 ARG NH1 4.77 Å van-der-waals 2 808 A O3' 5OSG200 Lig100
E9BNI3_RRM1 86 125 5OSGh01 5OSG h 86 ARG NH2 4.63 Å ionic 2 809 C OP1 5OSG200 Lig100
E9BNI3_RRM1 87 126 5OSGh01 5OSG h 87 ARG CB 4.89 Å ionic 2 809 C OP1 5OSG200 Lig100
E9BNI3_RRM1 87 126 5OSGh01 5OSG h 87 ARG CD 3.47 Å ionic 2 809 C OP1 5OSG200 Lig100
E9BNI3_RRM1 87 126 5OSGh01 5OSG h 87 ARG CD 4.77 Å ionic 2 809 C P 5OSG200 Lig100
E9BNI3_RRM1 87 126 5OSGh01 5OSG h 87 ARG CD 4.89 Å van-der-waals 2 809 C O5' 5OSG200 Lig100
E9BNI3_RRM1 87 126 5OSGh01 5OSG h 87 ARG CG 4.71 Å ionic 2 809 C OP1 5OSG200 Lig100
E9BNI3_RRM1 87 126 5OSGh01 5OSG h 87 ARG CZ 3.31 Å ionic 2 809 C OP1 5OSG200 Lig100
E9BNI3_RRM1 87 126 5OSGh01 5OSG h 87 ARG CZ 3.63 Å van-der-waals 2 809 C O5' 5OSG200 Lig100
E9BNI3_RRM1 87 126 5OSGh01 5OSG h 87 ARG CZ 4.06 Å ionic 2 809 C P 5OSG200 Lig100
E9BNI3_RRM1 87 126 5OSGh01 5OSG h 87 ARG CZ 4.23 Å van-der-waals 2 809 C C5' 5OSG200 Lig100
E9BNI3_RRM1 87 126 5OSGh01 5OSG h 87 ARG CZ 4.57 Å van-der-waals 2 808 A O3' 5OSG200 Lig100
E9BNI3_RRM1 87 126 5OSGh01 5OSG h 87 ARG NE 3.44 Å ionic 2 809 C OP1 5OSG200 Lig100
E9BNI3_RRM1 87 126 5OSGh01 5OSG h 87 ARG NE 4.08 Å van-der-waals 2 809 C O5' 5OSG200 Lig100
E9BNI3_RRM1 87 126 5OSGh01 5OSG h 87 ARG NE 4.31 Å van-der-waals 2 809 C C5' 5OSG200 Lig100
E9BNI3_RRM1 87 126 5OSGh01 5OSG h 87 ARG NE 4.41 Å ionic 2 809 C P 5OSG200 Lig100
E9BNI3_RRM1 87 126 5OSGh01 5OSG h 87 ARG NH1 3.18 Å ionic 2 809 C OP1 5OSG200 Lig100
E9BNI3_RRM1 87 126 5OSGh01 5OSG h 87 ARG NH1 4.04 Å van-der-waals 2 809 C O5' 5OSG200 Lig100
E9BNI3_RRM1 87 126 5OSGh01 5OSG h 87 ARG NH1 4.04 Å ionic 2 809 C P 5OSG200 Lig100
E9BNI3_RRM1 87 126 5OSGh01 5OSG h 87 ARG NH1 4.17 Å van-der-waals 2 808 A O3' 5OSG200 Lig100
E9BNI3_RRM1 87 126 5OSGh01 5OSG h 87 ARG NH1 4.97 Å van-der-waals 2 809 C C5' 5OSG200 Lig100
E9BNI3_RRM1 87 126 5OSGh01 5OSG h 87 ARG NH2 3.49 Å van-der-waals 2 809 C O5' 5OSG200 Lig100
E9BNI3_RRM1 87 126 5OSGh01 5OSG h 87 ARG NH2 3.97 Å van-der-waals 2 809 C C5' 5OSG200 Lig100
E9BNI3_RRM1 87 126 5OSGh01 5OSG h 87 ARG NH2 4.07 Å ionic 2 809 C OP1 5OSG200 Lig100
E9BNI3_RRM1 87 126 5OSGh01 5OSG h 87 ARG NH2 4.38 Å ionic 2 809 C P 5OSG200 Lig100
E9BNI3_RRM1 87 126 5OSGh01 5OSG h 87 ARG NH2 4.63 Å van-der-waals 2 809 C C4' 5OSG200 Lig100
E9BNI3_RRM1 87 126 5OSGh01 5OSG h 87 ARG NH2 4.78 Å van-der-waals 2 808 A O3' 5OSG200 Lig100
E9BNI3_RRM1 87 126 5OSGh01 5OSG h 87 ARG NH2 4.8 Å van-der-waals 2 808 A O2' 5OSG200 Lig100
E9BNI3_RRM1 87 126 5OSGh01 5OSG h 87 ARG NH2 4.88 Å ionic 2 810 G OP1 5OSG200 Lig100
E9BNI3_RRM1 92 140 5OSGh01 5OSG h 92 LEU CD2 4.44 Å van-der-waals 2 809 C C6 5OSG200 Lig100
E9BNI3_RRM1 92 140 5OSGh01 5OSG h 92 LEU CD2 4.66 Å van-der-waals 2 809 C C5 5OSG200 Lig100
E9BNI3_RRM1 92 140 5OSGh01 5OSG h 92 LEU CD2 4.78 Å van-der-waals 2 809 C OP2 5OSG200 Lig100
E9BNI3_RRM1 92 140 5OSGh01 5OSG h 92 LEU CD2 4.82 Å van-der-waals 2 809 C C2' 5OSG200 Lig100
E9BNI3_RRM1 92 140 5OSGh01 5OSG h 92 LEU CD2 4.87 Å van-der-waals 2 809 C C5' 5OSG200 Lig100
E9BNI3_RRM1 94 142 5OSGh01 5OSG h 94 PHE CD1 4.81 Å van-der-waals 2 809 C N4 5OSG200 Lig100
E9BNI3_RRM1 94 142 5OSGh01 5OSG h 94 PHE CD2 4.47 Å van-der-waals 2 809 C N4 5OSG200 Lig100
E9BNI3_RRM1 94 142 5OSGh01 5OSG h 94 PHE CE1 4.09 Å van-der-waals 2 809 C N4 5OSG200 Lig100
E9BNI3_RRM1 94 142 5OSGh01 5OSG h 94 PHE CE1 4.1 Å van-der-waals 2 809 C C4 5OSG200 Lig100
E9BNI3_RRM1 94 142 5OSGh01 5OSG h 94 PHE CE1 4.39 Å van-der-waals 2 809 C C5 5OSG200 Lig100
E9BNI3_RRM1 94 142 5OSGh01 5OSG h 94 PHE CE1 4.51 Å van-der-waals 2 809 C N3 5OSG200 Lig100
E9BNI3_RRM1 94 142 5OSGh01 5OSG h 94 PHE CE1 4.99 Å van-der-waals 2 809 C C6 5OSG200 Lig100
E9BNI3_RRM1 94 142 5OSGh01 5OSG h 94 PHE CE2 3.68 Å van-der-waals 2 809 C N4 5OSG200 Lig100
E9BNI3_RRM1 94 142 5OSGh01 5OSG h 94 PHE CE2 4.27 Å van-der-waals 2 809 C C4 5OSG200 Lig100
E9BNI3_RRM1 94 142 5OSGh01 5OSG h 94 PHE CE2 4.39 Å van-der-waals 2 809 C C5 5OSG200 Lig100
E9BNI3_RRM1 94 142 5OSGh01 5OSG h 94 PHE CZ 3.45 Å van-der-waals 2 809 C N4 5OSG200 Lig100
E9BNI3_RRM1 94 142 5OSGh01 5OSG h 94 PHE CZ 3.6 Å van-der-waals 2 809 C C4 5OSG200 Lig100
E9BNI3_RRM1 94 142 5OSGh01 5OSG h 94 PHE CZ 3.63 Å van-der-waals 2 809 C C5 5OSG200 Lig100
E9BNI3_RRM1 94 142 5OSGh01 5OSG h 94 PHE CZ 4.4 Å van-der-waals 2 809 C N3 5OSG200 Lig100
E9BNI3_RRM1 94 142 5OSGh01 5OSG h 94 PHE CZ 4.44 Å van-der-waals 2 809 C C6 5OSG200 Lig100
E9BNI3_RRM1 94 142 5OSGh01 5OSG h 94 PHE 3.61 Å stack 2 809 C 5OSG200 Lig100
E9BNI3_RRM1 98 146 5OSGh01 5OSG h 98 SER C 4.28 Å van-der-waals 2 822 U OP1 5OSG200 Lig100
E9BNI3_RRM1 98 146 5OSGh01 5OSG h 98 SER C 4.54 Å van-der-waals 2 821 A OP2 5OSG200 Lig100
E9BNI3_RRM1 98 146 5OSGh01 5OSG h 98 SER C 4.98 Å van-der-waals 2 822 U OP2 5OSG200 Lig100
E9BNI3_RRM1 98 146 5OSGh01 5OSG h 98 SER CA 4.25 Å van-der-waals 2 822 U OP1 5OSG200 Lig100
E9BNI3_RRM1 98 146 5OSGh01 5OSG h 98 SER CB 3.59 Å van-der-waals 2 822 U OP1 5OSG200 Lig100
E9BNI3_RRM1 98 146 5OSGh01 5OSG h 98 SER CB 4.24 Å van-der-waals 2 821 A OP2 5OSG200 Lig100
E9BNI3_RRM1 98 146 5OSGh01 5OSG h 98 SER CB 4.98 Å van-der-waals 2 822 U P 5OSG200 Lig100
E9BNI3_RRM1 98 146 5OSGh01 5OSG h 98 SER O 3.49 Å van-der-waals 2 822 U OP1 5OSG200 Lig100
E9BNI3_RRM1 98 146 5OSGh01 5OSG h 98 SER O 3.79 Å van-der-waals 2 822 U OP2 5OSG200 Lig100
E9BNI3_RRM1 98 146 5OSGh01 5OSG h 98 SER O 4.18 Å van-der-waals 2 822 U P 5OSG200 Lig100
E9BNI3_RRM1 98 146 5OSGh01 5OSG h 98 SER O 4.2 Å van-der-waals 2 821 A OP2 5OSG200 Lig100
E9BNI3_RRM1 98 146 5OSGh01 5OSG h 98 SER OG 4.19 Å van-der-waals 2 822 U OP1 5OSG200 Lig100
E9BNI3_RRM1 99 147 5OSGh01 5OSG h 99 ALA C 4.34 Å van-der-waals 2 821 A OP2 5OSG200 Lig100
E9BNI3_RRM1 99 147 5OSGh01 5OSG h 99 ALA C 4.92 Å van-der-waals 2 820 C O2' 5OSG200 Lig100
E9BNI3_RRM1 99 147 5OSGh01 5OSG h 99 ALA O 3.47 Å van-der-waals 2 821 A OP2 5OSG200 Lig100
E9BNI3_RRM1 99 147 5OSGh01 5OSG h 99 ALA O 4.43 Å van-der-waals 2 820 C O2' 5OSG200 Lig100
E9BNI3_RRM1 99 147 5OSGh01 5OSG h 99 ALA O 4.46 Å van-der-waals 2 820 C O3' 5OSG200 Lig100
E9BNI3_RRM1 99 147 5OSGh01 5OSG h 99 ALA O 4.57 Å van-der-waals 2 821 A P 5OSG200 Lig100
E9BNI3_RRM1 100 148 5OSGh01 5OSG h 100 ALA C 3.44 Å van-der-waals 2 820 C O2' 5OSG200 Lig100
E9BNI3_RRM1 100 148 5OSGh01 5OSG h 100 ALA C 4.72 Å van-der-waals 2 820 C C2' 5OSG200 Lig100
E9BNI3_RRM1 100 148 5OSGh01 5OSG h 100 ALA C 4.91 Å van-der-waals 2 820 C C1' 5OSG200 Lig100
E9BNI3_RRM1 100 148 5OSGh01 5OSG h 100 ALA CA 3.87 Å van-der-waals 2 820 C O2' 5OSG200 Lig100
E9BNI3_RRM1 100 148 5OSGh01 5OSG h 100 ALA CB 3.17 Å van-der-waals 2 820 C O2' 5OSG200 Lig100
E9BNI3_RRM1 100 148 5OSGh01 5OSG h 100 ALA CB 3.99 Å van-der-waals 2 820 C C4' 5OSG200 Lig100
E9BNI3_RRM1 100 148 5OSGh01 5OSG h 100 ALA CB 4.18 Å van-der-waals 2 820 C C2' 5OSG200 Lig100
E9BNI3_RRM1 100 148 5OSGh01 5OSG h 100 ALA CB 4.21 Å van-der-waals 2 820 C O3' 5OSG200 Lig100
E9BNI3_RRM1 100 148 5OSGh01 5OSG h 100 ALA CB 4.32 Å van-der-waals 2 820 C O4' 5OSG200 Lig100
E9BNI3_RRM1 100 148 5OSGh01 5OSG h 100 ALA CB 4.39 Å van-der-waals 2 820 C C3' 5OSG200 Lig100
E9BNI3_RRM1 100 148 5OSGh01 5OSG h 100 ALA CB 4.42 Å van-der-waals 2 820 C C1' 5OSG200 Lig100
E9BNI3_RRM1 100 148 5OSGh01 5OSG h 100 ALA CB 4.47 Å van-der-waals 2 821 A OP2 5OSG200 Lig100
E9BNI3_RRM1 100 148 5OSGh01 5OSG h 100 ALA N 4.7 Å van-der-waals 2 820 C O2' 5OSG200 Lig100
E9BNI3_RRM1 100 148 5OSGh01 5OSG h 100 ALA O 4.04 Å van-der-waals 2 820 C O2' 5OSG200 Lig100
E9BNI3_RRM1 100 148 5OSGh01 5OSG h 100 ALA O 4.96 Å van-der-waals 2 820 C C1' 5OSG200 Lig100
E9BNI3_RRM1 101 149 5OSGh01 5OSG h 101 VAL C 3.02 Å van-der-waals 2 820 C O2' 5OSG200 Lig100
E9BNI3_RRM1 101 149 5OSGh01 5OSG h 101 VAL C 3.71 Å van-der-waals 2 821 A OP2 5OSG200 Lig100
E9BNI3_RRM1 101 149 5OSGh01 5OSG h 101 VAL C 4.07 Å van-der-waals 2 820 C C2' 5OSG200 Lig100
E9BNI3_RRM1 101 149 5OSGh01 5OSG h 101 VAL C 4.43 Å van-der-waals 2 820 C O2 5OSG200 Lig100
E9BNI3_RRM1 101 149 5OSGh01 5OSG h 101 VAL C 4.58 Å van-der-waals 2 821 A P 5OSG200 Lig100
E9BNI3_RRM1 101 149 5OSGh01 5OSG h 101 VAL C 4.59 Å van-der-waals 2 821 A OP1 5OSG200 Lig100
E9BNI3_RRM1 101 149 5OSGh01 5OSG h 101 VAL CA 3.3 Å van-der-waals 2 820 C O2' 5OSG200 Lig100
E9BNI3_RRM1 101 149 5OSGh01 5OSG h 101 VAL CA 3.84 Å van-der-waals 2 821 A OP2 5OSG200 Lig100
E9BNI3_RRM1 101 149 5OSGh01 5OSG h 101 VAL CA 4.62 Å van-der-waals 2 820 C C2' 5OSG200 Lig100
E9BNI3_RRM1 101 149 5OSGh01 5OSG h 101 VAL CA 4.97 Å van-der-waals 2 821 A P 5OSG200 Lig100
E9BNI3_RRM1 101 149 5OSGh01 5OSG h 101 VAL CB 4.83 Å van-der-waals 2 820 C O2' 5OSG200 Lig100
E9BNI3_RRM1 101 149 5OSGh01 5OSG h 101 VAL CB 4.85 Å van-der-waals 2 821 A OP2 5OSG200 Lig100
E9BNI3_RRM1 101 149 5OSGh01 5OSG h 101 VAL CG2 4.58 Å van-der-waals 2 821 A OP2 5OSG200 Lig100
E9BNI3_RRM1 101 149 5OSGh01 5OSG h 101 VAL N 3.18 Å van-der-waals 2 820 C O2' 5OSG200 Lig100
E9BNI3_RRM1 101 149 5OSGh01 5OSG h 101 VAL N 4.5 Å van-der-waals 2 820 C C2' 5OSG200 Lig100
E9BNI3_RRM1 101 149 5OSGh01 5OSG h 101 VAL N 4.76 Å van-der-waals 2 821 A OP2 5OSG200 Lig100
E9BNI3_RRM1 101 149 5OSGh01 5OSG h 101 VAL N 4.81 Å van-der-waals 2 820 C O2 5OSG200 Lig100
E9BNI3_RRM1 101 149 5OSGh01 5OSG h 101 VAL N 4.97 Å van-der-waals 2 820 C C1' 5OSG200 Lig100
E9BNI3_RRM1 101 149 5OSGh01 5OSG h 101 VAL O 2.96 Å van-der-waals 2 820 C O2' 5OSG200 Lig100
E9BNI3_RRM1 101 149 5OSGh01 5OSG h 101 VAL O 3.37 Å van-der-waals 2 820 C O2 5OSG200 Lig100
E9BNI3_RRM1 101 149 5OSGh01 5OSG h 101 VAL O 3.81 Å van-der-waals 2 820 C C2' 5OSG200 Lig100
E9BNI3_RRM1 101 149 5OSGh01 5OSG h 101 VAL O 4.51 Å van-der-waals 2 820 C C2 5OSG200 Lig100
E9BNI3_RRM1 101 149 5OSGh01 5OSG h 101 VAL O 4.53 Å van-der-waals 2 820 C C1' 5OSG200 Lig100
E9BNI3_RRM1 101 149 5OSGh01 5OSG h 101 VAL O 4.53 Å van-der-waals 2 821 A OP2 5OSG200 Lig100
E9BNI3_RRM1 101 149 5OSGh01 5OSG h 101 VAL O 4.89 Å van-der-waals 2 821 A OP1 5OSG200 Lig100
E9BNI3_RRM1 102 150 5OSGh01 5OSG h 102 LYS CA 3.84 Å van-der-waals 2 821 A OP1 5OSG200 Lig100
E9BNI3_RRM1 102 150 5OSGh01 5OSG h 102 LYS CA 3.97 Å van-der-waals 2 821 A OP2 5OSG200 Lig100
E9BNI3_RRM1 102 150 5OSGh01 5OSG h 102 LYS CA 4.4 Å van-der-waals 2 820 C O2' 5OSG200 Lig100
E9BNI3_RRM1 102 150 5OSGh01 5OSG h 102 LYS CA 4.46 Å van-der-waals 2 821 A P 5OSG200 Lig100
E9BNI3_RRM1 102 150 5OSGh01 5OSG h 102 LYS CA 4.84 Å van-der-waals 2 820 C C2' 5OSG200 Lig100
E9BNI3_RRM1 102 150 5OSGh01 5OSG h 102 LYS CB 4.2 Å ionic 2 821 A OP1 5OSG200 Lig100
E9BNI3_RRM1 102 150 5OSGh01 5OSG h 102 LYS CB 4.3 Å ionic 2 821 A OP2 5OSG200 Lig100
E9BNI3_RRM1 102 150 5OSGh01 5OSG h 102 LYS CB 4.8 Å ionic 2 821 A P 5OSG200 Lig100
E9BNI3_RRM1 102 150 5OSGh01 5OSG h 102 LYS CD 4.55 Å ionic 2 821 A OP2 5OSG200 Lig100
E9BNI3_RRM1 102 150 5OSGh01 5OSG h 102 LYS CD 4.57 Å ionic 2 821 A OP1 5OSG200 Lig100
E9BNI3_RRM1 102 150 5OSGh01 5OSG h 102 LYS CD 4.89 Å ionic 2 821 A P 5OSG200 Lig100
E9BNI3_RRM1 102 150 5OSGh01 5OSG h 102 LYS CD 4.93 Å van-der-waals 2 821 A O5' 5OSG200 Lig100
E9BNI3_RRM1 102 150 5OSGh01 5OSG h 102 LYS CE 3.91 Å ionic 2 822 U OP1 5OSG200 Lig100
E9BNI3_RRM1 102 150 5OSGh01 5OSG h 102 LYS CE 4.2 Å van-der-waals 2 821 A O5' 5OSG200 Lig100
E9BNI3_RRM1 102 150 5OSGh01 5OSG h 102 LYS CE 4.49 Å ionic 2 821 A OP2 5OSG200 Lig100
E9BNI3_RRM1 102 150 5OSGh01 5OSG h 102 LYS CE 4.58 Å ionic 2 821 A OP1 5OSG200 Lig100
E9BNI3_RRM1 102 150 5OSGh01 5OSG h 102 LYS CE 4.65 Å ionic 2 821 A P 5OSG200 Lig100
E9BNI3_RRM1 102 150 5OSGh01 5OSG h 102 LYS CE 4.8 Å van-der-waals 2 821 A O3' 5OSG200 Lig100
E9BNI3_RRM1 102 150 5OSGh01 5OSG h 102 LYS CE 4.99 Å van-der-waals 2 821 A C5' 5OSG200 Lig100
E9BNI3_RRM1 102 150 5OSGh01 5OSG h 102 LYS CG 3.43 Å ionic 2 821 A OP2 5OSG200 Lig100
E9BNI3_RRM1 102 150 5OSGh01 5OSG h 102 LYS CG 3.47 Å ionic 2 821 A OP1 5OSG200 Lig100
E9BNI3_RRM1 102 150 5OSGh01 5OSG h 102 LYS CG 3.85 Å ionic 2 821 A P 5OSG200 Lig100
E9BNI3_RRM1 102 150 5OSGh01 5OSG h 102 LYS CG 4.34 Å van-der-waals 2 821 A O5' 5OSG200 Lig100
E9BNI3_RRM1 102 150 5OSGh01 5OSG h 102 LYS N 3.31 Å van-der-waals 2 821 A OP2 5OSG200 Lig100
E9BNI3_RRM1 102 150 5OSGh01 5OSG h 102 LYS N 3.69 Å van-der-waals 2 820 C O2' 5OSG200 Lig100
E9BNI3_RRM1 102 150 5OSGh01 5OSG h 102 LYS N 4.04 Å van-der-waals 2 821 A OP1 5OSG200 Lig100
E9BNI3_RRM1 102 150 5OSGh01 5OSG h 102 LYS N 4.18 Å van-der-waals 2 821 A P 5OSG200 Lig100
E9BNI3_RRM1 102 150 5OSGh01 5OSG h 102 LYS N 4.51 Å van-der-waals 2 820 C C2' 5OSG200 Lig100
E9BNI3_RRM1 102 150 5OSGh01 5OSG h 102 LYS NZ 4.37 Å ionic 2 822 U OP1 5OSG200 Lig100
E9BNI3_RRM1 102 150 5OSGh01 5OSG h 102 LYS O 4.69 Å van-der-waals 2 820 C O2 5OSG200 Lig100
E9BNI3_RRM1 104 152 5OSGh01 5OSG h 104 ALA C 4.34 Å van-der-waals 2 820 C O2 5OSG200 Lig100
E9BNI3_RRM1 104 152 5OSGh01 5OSG h 104 ALA CA 4.77 Å van-der-waals 2 820 C O2 5OSG200 Lig100
E9BNI3_RRM1 104 152 5OSGh01 5OSG h 104 ALA CB 4.31 Å van-der-waals 2 820 C O2 5OSG200 Lig100
E9BNI3_RRM1 105 153 5OSGh01 5OSG h 105 ILE CA 4.14 Å van-der-waals 2 820 C O2 5OSG200 Lig100
E9BNI3_RRM1 105 153 5OSGh01 5OSG h 105 ILE CA 4.37 Å van-der-waals 2 820 C N3 5OSG200 Lig100
E9BNI3_RRM1 105 153 5OSGh01 5OSG h 105 ILE CA 4.72 Å van-der-waals 2 820 C C2 5OSG200 Lig100
E9BNI3_RRM1 105 153 5OSGh01 5OSG h 105 ILE CB 4.14 Å van-der-waals 2 820 C N3 5OSG200 Lig100
E9BNI3_RRM1 105 153 5OSGh01 5OSG h 105 ILE CB 4.28 Å van-der-waals 2 820 C O2 5OSG200 Lig100
E9BNI3_RRM1 105 153 5OSGh01 5OSG h 105 ILE CB 4.65 Å van-der-waals 2 818 U O2 5OSG200 Lig100
E9BNI3_RRM1 105 153 5OSGh01 5OSG h 105 ILE CB 4.65 Å van-der-waals 2 820 C C2 5OSG200 Lig100
E9BNI3_RRM1 105 153 5OSGh01 5OSG h 105 ILE CD1 3.65 Å van-der-waals 2 818 U O2 5OSG200 Lig100
E9BNI3_RRM1 105 153 5OSGh01 5OSG h 105 ILE CD1 3.68 Å van-der-waals 2 820 C N4 5OSG200 Lig100
E9BNI3_RRM1 105 153 5OSGh01 5OSG h 105 ILE CD1 3.78 Å van-der-waals 2 820 C N3 5OSG200 Lig100
E9BNI3_RRM1 105 153 5OSGh01 5OSG h 105 ILE CD1 4.19 Å van-der-waals 2 820 C C4 5OSG200 Lig100
E9BNI3_RRM1 105 153 5OSGh01 5OSG h 105 ILE CD1 4.35 Å van-der-waals 2 818 U C2 5OSG200 Lig100
E9BNI3_RRM1 105 153 5OSGh01 5OSG h 105 ILE CD1 4.5 Å van-der-waals 2 818 U N3 5OSG200 Lig100
E9BNI3_RRM1 105 153 5OSGh01 5OSG h 105 ILE CD1 4.91 Å van-der-waals 2 820 C C2 5OSG200 Lig100
E9BNI3_RRM1 105 153 5OSGh01 5OSG h 105 ILE CG1 3.9 Å van-der-waals 2 818 U O2 5OSG200 Lig100
E9BNI3_RRM1 105 153 5OSGh01 5OSG h 105 ILE CG1 4.44 Å van-der-waals 2 820 C N3 5OSG200 Lig100
E9BNI3_RRM1 105 153 5OSGh01 5OSG h 105 ILE CG1 4.82 Å van-der-waals 2 818 U C2 5OSG200 Lig100
E9BNI3_RRM1 105 153 5OSGh01 5OSG h 105 ILE CG1 4.85 Å van-der-waals 2 820 C N4 5OSG200 Lig100
E9BNI3_RRM1 105 153 5OSGh01 5OSG h 105 ILE N 3.57 Å hbond 2 820 C O2 5OSG200 Lig100
E9BNI3_RRM1 105 153 5OSGh01 5OSG h 105 ILE N 4.48 Å van-der-waals 2 820 C C2 5OSG200 Lig100
E9BNI3_RRM1 105 153 5OSGh01 5OSG h 105 ILE N 4.56 Å van-der-waals 2 820 C N3 5OSG200 Lig100
E9BNI3_RRM1 108 156 5OSGh01 5OSG h 108 PHE CE2 4.59 Å van-der-waals 2 820 C N3 5OSG200 Lig100
E9BNI3_RRM1 108 156 5OSGh01 5OSG h 108 PHE CE2 4.99 Å van-der-waals 2 820 C O2 5OSG200 Lig100
E9BNI3_RRM1 108 156 5OSGh01 5OSG h 108 PHE CZ 4.74 Å van-der-waals 2 820 C N3 5OSG200 Lig100
E9BNI3_RRM1 108 156 5OSGh01 5OSG h 108 PHE CZ 4.87 Å van-der-waals 2 820 C N4 5OSG200 Lig100