RRM Structure 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
P09012_RRM1	22	90	3K0JC01	3K0J	C	422	LYS	NZ	4.9 Å	ionic	F	124	U	OP2	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	CB	4.95 Å	van-der-waals	F	125	U	N3	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	CD	3.82 Å	van-der-waals	F	125	U	C2	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	CD	3.98 Å	van-der-waals	F	125	U	C2'	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	CD	3.98 Å	van-der-waals	F	125	U	N1	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	CD	4.03 Å	van-der-waals	F	125	U	O2	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	CD	4.12 Å	van-der-waals	F	125	U	N3	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	CD	4.38 Å	van-der-waals	F	125	U	C6	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	CD	4.49 Å	van-der-waals	F	125	U	C1'	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	CD	4.59 Å	van-der-waals	F	125	U	C4	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	CD	4.68 Å	van-der-waals	F	125	U	C5	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	CD	4.76 Å	van-der-waals	F	125	U	O2'	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	CD	4.86 Å	van-der-waals	F	125	U	C3'	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	CG	4.19 Å	van-der-waals	F	125	U	N3	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	CG	4.37 Å	van-der-waals	F	125	U	C2	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	CG	4.45 Å	van-der-waals	F	125	U	C4	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	CG	4.7 Å	van-der-waals	F	125	U	O2	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	CG	4.76 Å	van-der-waals	F	125	U	N1	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	CG	4.81 Å	van-der-waals	F	125	U	C5	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	CG	4.87 Å	van-der-waals	F	125	U	O4	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	CG	4.93 Å	van-der-waals	F	125	U	C6	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	OE1	3.18 Å	van-der-waals	F	125	U	O2	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	OE1	3.33 Å	van-der-waals	F	125	U	C2	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	OE1	3.37 Å	van-der-waals	F	125	U	C2'	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	OE1	3.71 Å	van-der-waals	F	125	U	N1	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	OE1	3.84 Å	van-der-waals	F	125	U	O2'	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	OE1	3.89 Å	van-der-waals	F	125	U	N3	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	OE1	4.03 Å	van-der-waals	F	125	U	C1'	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	OE1	4.48 Å	van-der-waals	F	125	U	C6	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	OE1	4.5 Å	van-der-waals	F	125	U	C3'	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	OE1	4.71 Å	hbond	F	125	U	C4	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	OE1	4.93 Å	van-der-waals	F	125	U	C5	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	OE2	3.91 Å	van-der-waals	F	125	U	C2'	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	OE2	4.17 Å	van-der-waals	F	125	U	N1	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	OE2	4.36 Å	van-der-waals	F	125	U	C6	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	OE2	4.4 Å	van-der-waals	F	125	U	C3'	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	OE2	4.41 Å	van-der-waals	F	125	U	C2	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	OE2	4.49 Å	van-der-waals	F	125	U	C1'	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	OE2	4.75 Å	van-der-waals	F	125	U	O2	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	OE2	4.82 Å	van-der-waals	F	125	U	C5	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	OE2	4.82 Å	van-der-waals	F	125	U	OP2	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	OE2	4.83 Å	van-der-waals	F	125	U	N3	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU	OE2	4.93 Å	van-der-waals	F	125	U	O2'	3K0JF00	Lig25
P09012_RRM1	25	93	3K0JC01	3K0J	C	425	GLU		4.04 Å	stack	F	125	U		3K0JF00	Lig25
P09012_RRM1	28	96	3K0JC01	3K0J	C	428	LYS	CD	4.33 Å	van-der-waals	F	125	U	O2'	3K0JF00	Lig25
P09012_RRM1	28	96	3K0JC01	3K0J	C	428	LYS	CD	4.58 Å	van-der-waals	F	125	U	C2'	3K0JF00	Lig25
P09012_RRM1	28	96	3K0JC01	3K0J	C	428	LYS	CD	4.87 Å	van-der-waals	F	125	U	O3'	3K0JF00	Lig25
P09012_RRM1	28	96	3K0JC01	3K0J	C	428	LYS	CE	4.32 Å	van-der-waals	F	125	U	O3'	3K0JF00	Lig25
P09012_RRM1	28	96	3K0JC01	3K0J	C	428	LYS	CE	4.57 Å	van-der-waals	F	125	U	C2'	3K0JF00	Lig25
P09012_RRM1	28	96	3K0JC01	3K0J	C	428	LYS	CE	4.59 Å	van-der-waals	F	125	U	O2'	3K0JF00	Lig25
P09012_RRM1	28	96	3K0JC01	3K0J	C	428	LYS	CE	4.65 Å	van-der-waals	F	125	U	C3'	3K0JF00	Lig25
P09012_RRM1	28	96	3K0JC01	3K0J	C	428	LYS	NZ	3.1 Å	hbond	F	125	U	O3'	3K0JF00	Lig25
P09012_RRM1	28	96	3K0JC01	3K0J	C	428	LYS	NZ	3.24 Å	van-der-waals	F	125	U	C3'	3K0JF00	Lig25
P09012_RRM1	28	96	3K0JC01	3K0J	C	428	LYS	NZ	3.37 Å	van-der-waals	F	125	U	C2'	3K0JF00	Lig25
P09012_RRM1	28	96	3K0JC01	3K0J	C	428	LYS	NZ	3.7 Å	van-der-waals	F	125	U	O2'	3K0JF00	Lig25
P09012_RRM1	28	96	3K0JC01	3K0J	C	428	LYS	NZ	4.1 Å	ionic	F	126	G	P	3K0JF00	Lig25
P09012_RRM1	28	96	3K0JC01	3K0J	C	428	LYS	NZ	4.23 Å	ionic	F	126	G	OP1	3K0JF00	Lig25
P09012_RRM1	28	96	3K0JC01	3K0J	C	428	LYS	NZ	4.39 Å	ionic	F	126	G	OP2	3K0JF00	Lig25
P09012_RRM1	28	96	3K0JC01	3K0J	C	428	LYS	NZ	4.76 Å	van-der-waals	F	125	U	C4'	3K0JF00	Lig25
P09012_RRM1	28	96	3K0JC01	3K0J	C	428	LYS	NZ	4.83 Å	van-der-waals	F	125	U	C1'	3K0JF00	Lig25
P09012_RRM1	49	128	3K0JC01	3K0J	C	449	LEU	CD1	4.47 Å	van-der-waals	E	67	A	OP1	3K0JE00	Lig25
P09012_RRM1	49	128	3K0JC01	3K0J	C	449	LEU	CD1	4.8 Å	van-der-waals	E	68	U	OP2	3K0JE00	Lig25
P09012_RRM1	49	128	3K0JC01	3K0J	C	449	LEU	CD1	4.84 Å	van-der-waals	E	67	A	OP2	3K0JE00	Lig25
P09012_RRM1	50	129	3K0JC01	3K0J	C	450	LYS	CA	4.72 Å	van-der-waals	E	67	A	OP2	3K0JE00	Lig25
P09012_RRM1	50	129	3K0JC01	3K0J	C	450	LYS	CB	3.6 Å	ionic	E	67	A	OP2	3K0JE00	Lig25
P09012_RRM1	50	129	3K0JC01	3K0J	C	450	LYS	CB	4.88 Å	ionic	E	67	A	P	3K0JE00	Lig25
P09012_RRM1	50	129	3K0JC01	3K0J	C	450	LYS	CB	4.98 Å	ionic	E	66	G	OP1	3K0JE00	Lig25
P09012_RRM1	50	129	3K0JC01	3K0J	C	450	LYS	CD	2.98 Å	ionic	E	66	G	OP1	3K0JE00	Lig25
P09012_RRM1	50	129	3K0JC01	3K0J	C	450	LYS	CD	3.98 Å	ionic	E	66	G	P	3K0JE00	Lig25
P09012_RRM1	50	129	3K0JC01	3K0J	C	450	LYS	CD	4.2 Å	ionic	E	67	A	OP2	3K0JE00	Lig25
P09012_RRM1	50	129	3K0JC01	3K0J	C	450	LYS	CD	4.3 Å	ionic	E	66	G	OP2	3K0JE00	Lig25
P09012_RRM1	50	129	3K0JC01	3K0J	C	450	LYS	CD	4.35 Å	van-der-waals	E	66	G	O5'	3K0JE00	Lig25
P09012_RRM1	50	129	3K0JC01	3K0J	C	450	LYS	CD	4.82 Å	van-der-waals	E	66	G	C5'	3K0JE00	Lig25
P09012_RRM1	50	129	3K0JC01	3K0J	C	450	LYS	CE	3.25 Å	ionic	E	66	G	OP1	3K0JE00	Lig25
P09012_RRM1	50	129	3K0JC01	3K0J	C	450	LYS	CE	3.33 Å	ionic	E	67	A	OP2	3K0JE00	Lig25
P09012_RRM1	50	129	3K0JC01	3K0J	C	450	LYS	CE	4.04 Å	ionic	E	67	A	P	3K0JE00	Lig25
P09012_RRM1	50	129	3K0JC01	3K0J	C	450	LYS	CE	4.05 Å	ionic	E	67	A	OP1	3K0JE00	Lig25
P09012_RRM1	50	129	3K0JC01	3K0J	C	450	LYS	CE	4.06 Å	van-der-waals	E	66	G	O5'	3K0JE00	Lig25
P09012_RRM1	50	129	3K0JC01	3K0J	C	450	LYS	CE	4.12 Å	van-der-waals	E	66	G	C5'	3K0JE00	Lig25
P09012_RRM1	50	129	3K0JC01	3K0J	C	450	LYS	CE	4.19 Å	ionic	E	66	G	P	3K0JE00	Lig25
P09012_RRM1	50	129	3K0JC01	3K0J	C	450	LYS	CE	4.39 Å	van-der-waals	E	66	G	O3'	3K0JE00	Lig25
P09012_RRM1	50	129	3K0JC01	3K0J	C	450	LYS	CE	4.8 Å	van-der-waals	E	66	G	C3'	3K0JE00	Lig25
P09012_RRM1	50	129	3K0JC01	3K0J	C	450	LYS	CE	4.85 Å	ionic	E	66	G	OP2	3K0JE00	Lig25
P09012_RRM1	50	129	3K0JC01	3K0J	C	450	LYS	CG	4.39 Å	ionic	E	66	G	OP1	3K0JE00	Lig25
P09012_RRM1	50	129	3K0JC01	3K0J	C	450	LYS	CG	4.46 Å	ionic	E	67	A	OP2	3K0JE00	Lig25
P09012_RRM1	50	129	3K0JC01	3K0J	C	450	LYS	NZ	2.71 Å	hbond	E	66	G	OP1	3K0JE00	Lig25
P09012_RRM1	50	129	3K0JC01	3K0J	C	450	LYS	NZ	3.35 Å	van-der-waals	E	66	G	C5'	3K0JE00	Lig25
P09012_RRM1	50	129	3K0JC01	3K0J	C	450	LYS	NZ	3.67 Å	van-der-waals	E	66	G	O5'	3K0JE00	Lig25
P09012_RRM1	50	129	3K0JC01	3K0J	C	450	LYS	NZ	3.8 Å	ionic	E	66	G	P	3K0JE00	Lig25
P09012_RRM1	50	129	3K0JC01	3K0J	C	450	LYS	NZ	4.07 Å	ionic	E	67	A	OP2	3K0JE00	Lig25
P09012_RRM1	50	129	3K0JC01	3K0J	C	450	LYS	NZ	4.29 Å	van-der-waals	E	66	G	O3'	3K0JE00	Lig25
P09012_RRM1	50	129	3K0JC01	3K0J	C	450	LYS	NZ	4.41 Å	van-der-waals	E	66	G	C4'	3K0JE00	Lig25
P09012_RRM1	50	129	3K0JC01	3K0J	C	450	LYS	NZ	4.46 Å	ionic	E	67	A	OP1	3K0JE00	Lig25
P09012_RRM1	50	129	3K0JC01	3K0J	C	450	LYS	NZ	4.46 Å	ionic	E	67	A	P	3K0JE00	Lig25
P09012_RRM1	50	129	3K0JC01	3K0J	C	450	LYS	NZ	4.63 Å	van-der-waals	E	66	G	C3'	3K0JE00	Lig25
P09012_RRM1	50	129	3K0JC01	3K0J	C	450	LYS	NZ	4.86 Å	ionic	E	66	G	OP2	3K0JE00	Lig25
P09012_RRM1	50	129	3K0JC01	3K0J	C	450	LYS	NZ	4.87 Å	van-der-waals	E	65	G	O3'	3K0JE00	Lig25

List of Contacts