PDB Chemical Component 2FJ

The following tables include covalent bond distance, bond angle and torsion angle values for the experimental model and ideal geometries stored in the definition for this chemical component.

Bond Distances for 2FJ

Atom I Atom J Distance (Experimental Model) Distance (Ideal Model)
C15 C16 1.427  
C15 C14 1.407  
C16 C17 1.422  
C21 C20 1.385  
C21 C22 1.446  
C14 C13 1.405  
C20 C19 1.343  
C17 C22 1.544  
C17 N3 1.343  
C22 N4 1.323  
C13 N3 1.384  
C19 C18 1.395  
N4 C18 1.380  
C1 C2 1.401  
C1 N1 1.380  
C2 C3 1.435  
N1 C5 1.357  
C3 C4 1.346  
C23 N5 1.359  
C23 C24 1.389  
C5 C4 1.402  
C5 C11 1.428  
N5 C27 1.370  
C4 C6 1.398  
C24 C25 1.429  
N6 C28 1.378  
N6 C32 1.360  
C27 C32 1.570  
C27 C26 1.422  
C25 C26 1.387  
C28 C29 1.427  
N8 C6 1.398  
N8 C38 1.346  
C11 N2 1.341  
C11 C10 1.401  
C6 C12 1.441  
C32 C31 1.424  
N2 C7 1.357  
C35 C34 1.384  
C35 C36 1.430  
C34 C33 1.377  
C29 C30 1.398  
C38 C36 1.382  
C38 C44 1.403  
C31 C30 1.375  
C10 C12 1.386  
C10 C9 1.393  
C12 N10 1.405  
C36 C37 1.418  
C7 C8 1.374  
C56 C55 1.399  
C56 C57 1.358  
C33 N7 1.394  
C55 N13 1.356  
C44 N10 1.324  
C44 C42 1.456  
C9 C8 1.359  
C57 C58 1.376  
C37 N7 1.339  
C37 C43 1.421  
C42 C43 1.411  
C42 C41 1.348  
C43 N9 1.340  
N13 C59 1.398  
C58 C59 1.437  
C45 C46 1.424  
C45 N11 1.357  
C46 C47 1.410  
C41 C40 1.415  
C59 C64 1.534  
N11 C49 1.406  
N9 C39 1.380  
C47 C48 1.424  
C49 C48 1.392  
C49 C54 1.513  
C40 C39 1.394  
C54 N12 1.369  
C54 C53 1.394  
N12 C50 1.357  
C64 N14 1.350  
C64 C63 1.394  
C53 C52 1.395  
N14 C60 1.351  
C50 C51 1.354  
C52 C51 1.377  
C63 C62 1.393  
C60 C61 1.389  
C62 C61 1.408  
N7 RU2 2.069  
N1 RU1 2.070  
RU1 N5 2.048  
RU1 N4 2.067  
RU2 N12 2.082  
RU2 N13 2.095  
C1 H1 1.079  
C2 H2 1.079  
C3 H3 1.080  
C7 H4 1.080  
C8 H5 1.081  
C9 H6 1.080  
C13 H7 1.080  
C14 H8 1.080  
C15 H9 1.080  
C16 H10 1.079  
C19 H12 1.080  
C20 H13 1.081  
C21 H14 1.080  
C23 H15 1.080  
C24 H16 1.080  
C25 H17 1.080  
C26 H18 1.080  
C28 H19 1.080  
C29 H20 1.080  
C30 H21 1.080  
C31 H22 1.080  
C33 H23 1.080  
C34 H24 1.080  
C35 H25 1.080  
C39 H26 1.080  
C40 H27 1.080  
C41 H28 1.080  
C45 H29 1.080  
C46 H30 1.080  
C47 H31 1.080  
C48 H32 1.080  
C50 H33 1.080  
C51 H34 1.081  
C52 H35 1.080  
C53 H36 1.080  
C55 H37 1.080  
C56 H38 1.080  
C57 H39 1.080  
C58 H40 1.080  
C60 H41 1.080  
C61 H42 1.080  
C62 H43 1.080  
C63 H44 1.080  
RU2 N9 2.069  
RU2 N11 2.088  
RU2 N14 2.127  
RU1 N3 2.126  
RU1 N2 2.147  
RU1 N6 2.124  
C18 H11 1.080  

Bond Angles for 2FJ

Atom I Atom J Atom K Angle (Experimental Model) Angle (Ideal Model)
C15 C16 C17 119.1  
C16 C15 H9 121.3  
C15 C16 H10 120.4  
C15 C14 H8 121.2  
C16 C17 C22 122.6  
C17 C16 H10 120.5  
C21 C20 H13 120.5  
C17 C22 C21 122.5  
C22 C21 H14 121.9  
C14 C13 H7 117.1  
C20 C19 H12 119.4  
C19 C18 H11 119.1  
N4 C18 H11 119.1  
N1 C1 C2 119.1  
C1 C2 C3 120.2  
C2 C1 H1 120.4  
C1 C2 H2 119.9  
C1 N1 C5 118.2  
C1 N1 RU1 125.7  
N1 C1 H1 120.5  
C2 C3 C4 120.2  
C3 C2 H2 119.9  
C2 C3 H3 119.9  
N1 C5 C4 125.2  
N1 C5 C11 116.0  
C5 N1 RU1 115.5  
C3 C4 C6 122.0  
C4 C3 H3 119.9  
C23 N5 C27 117.3  
C23 C24 C25 123.2  
C24 C23 H15 119.8  
C23 C24 H16 118.4  
C5 C4 C6 121.0  
C5 C11 C10 118.5  
N5 C27 C32 114.3  
N5 C27 C26 123.5  
C4 C6 C12 121.6  
C24 C25 C26 115.1  
C25 C24 H16 118.4  
C24 C25 H17 122.5  
C28 N6 C32 116.7  
N6 C28 C29 122.6  
N6 C28 H19 118.7  
N6 C32 C27 113.3  
N6 C32 C31 123.5  
C27 C32 C31 123.2  
C27 C26 H18 120.2  
C26 C25 H17 122.4  
C25 C26 H18 120.2  
C28 C29 C30 117.6  
C29 C28 H19 118.7  
C28 C29 H20 121.2  
N8 C6 C12 120.8  
N8 C38 C36 122.9  
N8 C38 C44 120.1  
C11 C10 C12 124.6  
C6 C12 C10 114.9  
C6 C12 N10 116.2  
C32 C31 H22 120.9  
N2 C7 C8 121.2  
N2 C7 H4 119.4  
C35 C34 H24 119.5  
C35 C36 C37 113.7  
C36 C35 H25 119.4  
C34 C33 H23 121.1  
C30 C29 H20 121.2  
C29 C30 H21 119.9  
C38 C44 C42 122.2  
C31 C30 H21 119.8  
C10 C12 N10 128.7  
C10 C9 H6 120.3  
C36 C37 C43 120.8  
C8 C7 H4 119.4  
C7 C8 H5 119.6  
C56 C55 H37 118.2  
C56 C57 C58 124.3  
C57 C56 H38 121.0  
C56 C57 H39 117.9  
C33 N7 RU2 124.2  
C55 N13 C59 115.1  
C9 C8 H5 119.6  
C57 C58 C59 113.8  
C58 C57 H39 117.8  
C57 C58 H40 123.1  
C37 N7 RU2 114.7  
C37 C43 C42 117.5  
C42 C41 H28 122.5  
N13 C59 C58 124.7  
N13 C59 C64 113.7  
C58 C59 C64 121.5  
C59 C58 H40 123.1  
C45 C46 C47 116.2  
C46 C45 H29 118.2  
C45 C46 H30 121.9  
C45 N11 C49 116.9  
C46 C47 C48 122.6  
C47 C46 H30 121.9  
C46 C47 H31 118.7  
C41 C40 H27 117.6  
C59 C64 C63 123.6  
N11 C49 C48 124.5  
N11 C49 C54 111.1  
N9 C39 H26 121.2  
C48 C47 H31 118.7  
C47 C48 H32 122.3  
C49 C48 H32 122.3  
C49 C54 C53 118.3  
C40 C39 H26 121.1  
C54 C53 H36 119.8  
N12 C50 C51 123.5  
N12 C50 H33 118.2  
C64 C63 H44 120.4  
C53 C52 H35 121.8  
N14 C60 C61 124.0  
N14 C60 H41 118.0  
C51 C50 H33 118.2  
C50 C51 H34 119.5  
C52 C51 H34 119.5  
C63 C62 H43 121.2  
C61 C60 H41 118.0  
C60 C61 H42 120.5  
C62 C61 H42 120.5  
N7 RU2 N12 92.4  
N7 RU2 N13 93.9  
N7 RU2 N9 78.6  
N7 RU2 N11 91.7  
N7 RU2 N14 167.0  
N1 RU1 N5 171.6  
N1 RU1 N4 94.8  
N1 RU1 N3 95.8  
N1 RU1 N2 77.8  
N1 RU1 N6 93.6  

Torsion Angles for 2FJ

Atom I Atom J Atom K Atom L Angle (Experimental Model) Angle (Ideal Model)
C16 C15 C14 H8 189.9  
C15 C16 C17 C22 186.6  
C17 C16 C15 H10 180.0  
C15 C14 C13 H7 169.7  
C17 C16 C15 H9 176.8  
C15 C16 C17 H10 180.0  
C16 C17 C22 C21 355.0  
C17 C22 C21 C20 187.0  
C21 C20 C19 H12 183.5  
C22 C21 C20 H13 168.7  
C20 C19 C18 H11 187.7  
C22 C17 C16 H10 6.5  
C17 C22 C21 H14 7.0  
N1 RU1 N3 C17 259.0  
C22 N4 C18 H11 170.5  
N1 RU1 N4 C22 104.2  
N1 RU1 N3 C13 90.5  
N4 C18 C19 H11 180.0  
C19 C18 N4 H11 180.0  
N1 RU1 N4 C18 270.4  
C2 C1 N1 C5 1.9  
C2 C1 N1 RU1 190.7  
N1 C1 C2 H1 180.0  
C1 C2 C3 C4 4.3  
C3 C2 C1 H2 180.0  
C1 C2 C3 H3 184.3  
N1 C1 C2 C3 355.9  
C2 C1 N1 H1 180.0  
N1 C1 C2 H2 175.9  
C1 N1 C5 C4 0.4  
C1 N1 C5 C11 191.6  
C5 N1 C1 RU1 171.1  
C1 N1 RU1 N5 113.4  
C1 N1 RU1 N4 263.4  
C1 N1 RU1 N3 339.1  
C1 N1 RU1 N2 168.2  
C1 N1 RU1 N6 74.8  
C3 C2 C1 H1 175.9  
C1 C2 C3 H2 180.0  
C2 C3 C4 C6 174.4  
C4 C3 C2 H3 180.0  
C5 N1 C1 C2 1.9  
C1 N1 C5 RU1 188.0  
C5 N1 C1 H1 181.8  
N1 C5 C4 C6 183.3  
N1 C5 C11 C10 182.9  
C5 N1 RU1 N5 302.1  
C5 N1 RU1 N4 92.1  
C5 N1 RU1 N3 167.8  
C5 N1 RU1 N2 356.9  
C5 N1 RU1 N6 263.5  
C4 C3 C2 H2 184.3  
C2 C3 C4 H3 180.0  
N1 C5 C4 C3 359.8  
C5 C4 C3 C6 183.6  
C3 C4 C6 C12 180.5  
C23 N5 C27 C32 182.1  
C23 N5 C27 C26 352.6  
N1 RU1 N5 C23 143.0  
C24 C23 N5 C27 7.9  
C23 C24 C25 C26 6.3  
C25 C24 C23 H16 180.0  
C23 C24 C25 H17 186.3  
N1 C5 C4 C11 191.4  
C4 C5 N1 RU1 172.4  
C3 C4 C5 C6 176.5  
C5 C4 C3 H3 177.9  
C5 C4 C6 C12 356.8  
N1 C5 C11 C4 169.7  
C11 C5 N1 RU1 3.6  
C11 C5 C4 C6 351.9  
C5 C11 C10 C12 352.3  
N6 C32 C27 N5 351.2  
N5 C27 C32 C31 169.8  
N5 C27 C26 H18 186.4  
N1 RU1 N5 C27 313.5  
C6 C4 C3 H3 354.4  
N8 C6 C4 C12 187.3  
C4 C6 C12 C10 8.8  
C4 C6 C12 N10 184.7  
C25 C24 C23 H15 172.2  
C23 C24 C25 H16 180.0  
C26 C25 C24 H17 180.0  
C24 C25 C26 H18 174.7  
C28 N6 C32 C27 178.9  
C28 N6 C32 C31 0.2  
N6 C28 C29 C30 349.2  
C29 C28 N6 H19 180.0  
N6 C28 C29 H20 169.2  
N1 RU1 N6 C28 1.1  
N5 C27 C32 N6 351.2  
C32 N6 C28 C29 4.1  
C32 N6 C28 H19 184.1  
C27 C32 N6 C31 178.7  
N6 C32 C31 H22 182.2  
N1 RU1 N6 C32 176.7  
N5 C27 C32 C26 170.8  
N6 C32 C27 C31 181.3  
C32 C27 C26 H18 356.3  
C27 C32 C31 H22 3.7  
N5 C27 C26 C32 190.1  
N6 C32 C27 C26 180.4  
C27 C26 C25 H17 174.7  
C25 C26 C27 H18 180.0  
N5 C27 C26 C25 6.3  
C26 C25 C24 H16 186.3  
C24 C25 C26 H17 180.0  
C27 C26 C25 H18 180.0  
C29 C28 N6 C32 4.1  
N6 C28 C29 H19 180.0  
C30 C29 C28 H20 180.0  
C28 C29 C30 H21 193.1  
C4 C6 N8 C12 172.8  
N8 C6 C12 C10 181.2  
N8 C6 C12 N10 357.1  
C38 N8 C6 C12 4.7  
N8 C38 C44 C42 177.2  
N1 C5 C11 N2 358.3  
C11 N2 C7 H4 186.8  
N1 RU1 N2 C11 2.1  
C6 C12 C10 C11 356.7  
C11 C10 C12 N10 181.4  
C11 C10 C9 H6 183.3  
C11 C10 C12 C6 356.7  
C10 C12 C6 N10 184.1  
N6 C32 C31 C27 178.5  
C32 C31 C30 H21 170.9  
C8 C7 N2 H4 180.0  
N2 C7 C8 H5 177.2  
N1 RU1 N2 C7 182.1  
C35 C34 C33 H23 171.9  
N8 C38 C36 C35 2.7  
C36 C35 C34 H24 194.1  
C35 C36 C37 C43 183.7  
C34 C33 N7 RU2 176.1  
C30 C29 C28 H19 169.2  
C28 C29 C30 H20 180.0  
C31 C30 C29 H21 180.0  
N8 C38 C36 C44 187.9  
C38 C36 C35 H25 355.6  
C38 C36 C37 C43 359.3  
N8 C38 C44 C36 172.4  
N6 C32 C31 C30 2.2  
C27 C32 C31 C30 183.7  
C31 C30 C29 H20 193.1  
C29 C30 C31 H21 180.0  
C6 C12 C10 N10 175.3  
C12 C10 C9 H6 6.7  
C5 C11 C10 C9 176.0  
C6 C12 C10 C9 173.0  
C10 C9 C8 H5 177.7  
C6 C12 N10 C10 184.8  
N8 C38 C36 C37 187.5  
C37 C36 C35 H25 171.2  
C36 C37 N7 RU2 188.9  
C36 C37 C43 C42 357.4  
N2 C7 C8 H4 180.0  
C9 C8 C7 H5 180.0  
C56 C55 N13 C59 0.6  
C57 C56 C55 H37 183.8  
C56 C57 C58 C59 360.0  
C58 C57 C56 H39 180.0  
C56 C57 C58 H40 180.0  
C37 N7 C33 RU2 181.4  
C33 N7 RU2 N12 270.4  
C33 N7 RU2 N13 86.4  
C33 N7 RU2 N9 176.6  
C33 N7 RU2 N11 351.7  
C33 N7 RU2 N14 128.8  
C55 N13 C59 C58 354.9  
C55 N13 C59 C64 179.9  
N7 RU2 N13 C55 354.9  
N8 C38 C44 N10 358.3  
C44 C42 C41 H28 351.9  
C9 C8 C7 H4 177.2  
C7 C8 C9 H5 180.0  
C58 C57 C56 H38 176.0  
C56 C57 C58 H39 180.0  
N13 C59 C58 C57 4.9  
C57 C58 C59 C64 179.5  
C59 C58 C57 H40 180.0  
C33 N7 C37 RU2 178.7  
C37 N7 RU2 N12 89.0  
C37 N7 RU2 N13 265.1  
C37 N7 RU2 N9 355.3  
C37 N7 RU2 N11 170.3  
C37 N7 RU2 N14 307.5  
C43 C37 N7 RU2 3.6  
C38 C44 C42 C43 351.7  
C43 C42 C41 H28 186.8  
C38 C44 C42 C41 186.5  
C37 C43 C42 C41 171.9  
C42 C41 C40 H27 173.3  
C43 N9 C39 H26 176.0  
N7 RU2 N9 C43 5.1  
C57 C58 C59 N13 4.9  
C58 C59 N13 C64 175.0  
N13 C59 C58 H40 184.9  
N13 C59 C64 C63 174.2  
N7 RU2 N13 C59 172.2  
C59 C58 C57 H39 180.0  
C57 C58 C59 H40 180.0  
N13 C59 C58 C64 185.4  
C58 C59 C64 C63 359.0  
C46 C45 N11 C49 351.2  
C45 C46 C47 C48 4.7  
C47 C46 C45 H30 180.0  
C45 C46 C47 H31 184.7  
C45 N11 C49 C48 4.4  
C45 N11 C49 C54 171.5  
N7 RU2 N11 C45 99.9  
C47 C46 C45 H29 184.5  
C45 C46 C47 H30 180.0  
C48 C47 C46 H31 180.0  
C46 C47 C48 H32 171.6  
C41 C40 C39 H26 185.3  
N13 C59 C64 C58 175.2  
C64 C59 C58 H40 359.5  
C59 C64 C63 H44 4.3  
N11 C49 C48 H32 183.8  
N11 C49 C54 C53 175.0  
N7 RU2 N11 C49 278.6  
C40 C39 N9 H26 180.0  
N7 RU2 N9 C39 172.4  
C48 C47 C46 H30 184.7  
C46 C47 C48 H31 180.0  
N11 C49 C48 C47 3.8  
C49 C48 C47 H32 180.0  
N11 C49 C48 C54 165.5  
C49 C48 C47 H31 171.6  
C47 C48 C49 H32 180.0  
N11 C49 C54 C48 192.7  
C54 C49 C48 H32 18.3  
C49 C54 C53 H36 355.9  
N9 C39 C40 H26 180.0  
N11 C49 C54 N12 357.0  
C54 N12 C50 H33 177.7  
N7 RU2 N12 C54 79.7  
C54 C53 C52 H35 188.3  
C51 C50 N12 H33 180.0  
N12 C50 C51 H34 185.1  
N7 RU2 N12 C50 272.7  
N13 C59 C64 N14 353.7  
C64 N14 C60 H41 179.9  
N7 RU2 N14 C64 311.2  
C64 C63 C62 H43 178.4  
C49 C54 C53 C52 175.9  
C53 C52 C51 H34 172.2  
C61 C60 N14 H41 180.0  
N14 C60 C61 H42 182.9  
N7 RU2 N14 C60 143.0  
N12 C50 C51 H33 180.0  
C52 C51 C50 H34 180.0  
C52 C51 C50 H33 185.1  
C50 C51 C52 H34 180.0  
C59 C64 C63 C62 184.3  
C63 C62 C61 H42 178.1  
N14 C60 C61 H41 180.0  
C62 C61 C60 H42 180.0  
C62 C61 C60 H41 182.9  
C60 C61 C62 H42 180.0  
RU1 N1 C1 C2 190.7  
C1 N1 RU1 C5 171.3  
RU1 N1 C1 H1 10.7  
RU1 N1 C5 C4 172.4  
RU1 N1 C5 C11 3.6  
N1 RU1 N5 N4 150.1  
N1 RU1 N5 N3 225.4  
N1 RU1 N5 N2 53.7  
N1 RU1 N5 N6 320.8  
RU1 N4 C18 H11 3.6  
N1 RU1 N4 N5 184.2  
N1 RU1 N4 N3 94.7  
N1 RU1 N4 N2 281.8  
N1 RU1 N4 N6 134.3  
RU2 N12 C50 H33 344.1  
N7 RU2 N12 N13 147.6  
N7 RU2 N12 N9 281.2  
N7 RU2 N12 N11 91.4  
N7 RU2 N12 N14 188.1  
N7 RU2 N13 N12 212.4  
N7 RU2 N13 N9 78.7  
N7 RU2 N13 N11 268.0  
N7 RU2 N13 N14 171.0  
N1 C1 H1 C2 180.0  
H1 C1 C2 C3 175.9  
H1 C1 C2 H2 355.9  
H1 C1 N1 C5 181.8  
H1 C1 N1 RU1 10.7  
C1 C2 H2 C3 180.0  
H2 C2 C1 H1 355.9  
H2 C2 C3 C4 184.3  
H2 C2 C3 H3 4.3  
C2 C3 H3 C4 180.0  
H3 C3 C2 H2 4.3  
H3 C3 C4 C6 354.4  
N2 C7 H4 C8 180.0  
H4 C7 C8 H5 357.1  
H5 C8 C7 H4 357.1  
H6 C9 C8 H5 357.6  
H8 C14 C13 H7 349.7  
H9 C15 C16 C17 176.8  
H9 C15 C16 H10 356.8  
H9 C15 C14 H8 9.9  
C15 C16 H10 C17 180.0  
H10 C16 C15 H9 356.8  
H10 C16 C17 C22 6.5  
H12 C19 C18 H11 7.7  
H13 C20 C19 H12 3.5  
H14 C21 C20 H13 348.7  
H15 C23 N5 C27 187.9  
H15 C23 C24 C25 172.2  
H15 C23 C24 H16 352.2  
C23 C24 H16 C25 180.0  
H16 C24 C23 H15 352.2  
H16 C24 C25 C26 186.3  
H16 C24 C25 H17 6.3  
C24 C25 H17 C26 180.0  
H17 C25 C24 H16 6.3  
H17 C25 C26 H18 354.7  
H18 C26 C25 H17 354.7  
H19 C28 N6 C32 184.1  
N6 C28 H19 C29 180.0  
H19 C28 C29 C30 169.2  
H19 C28 C29 H20 349.2  
C28 C29 H20 C30 180.0  
H20 C29 C28 H19 349.2  
H20 C29 C30 H21 13.1  
H21 C30 C29 H20 13.1  
H22 C31 C30 H21 350.9  
H23 C33 N7 RU2 356.1  
H24 C34 C33 H23 351.9  
H25 C35 C34 H24 14.1  
H25 C35 C36 C37 171.2  
H27 C40 C39 H26 5.3  
H28 C41 C40 H27 353.3  
H29 C45 C46 C47 184.5  
H29 C45 C46 H30 4.5  
H29 C45 N11 C49 171.2  
C45 C46 H30 C47 180.0  
H30 C46 C45 H29 4.5  
H30 C46 C47 C48 184.7  
H30 C46 C47 H31 4.7  
C46 C47 H31 C48 180.0  
H31 C47 C46 H30 4.7  
H31 C47 C48 H32 351.6  
H32 C48 C47 H31 351.6  
N12 C50 H33 C51 180.0  
H33 C50 C51 H34 5.0  
H34 C51 C50 H33 5.0  
H35 C52 C51 H34 352.2  
H36 C53 C52 H35 8.4  
H37 C55 N13 C59 180.6  
H38 C56 C55 H37 3.8  
H38 C56 C57 C58 176.0  
H38 C56 C57 H39 356.0  
C56 C57 H39 C58 180.0  
H39 C57 C56 H38 356.0  
H39 C57 C58 C59 180.0  
H39 C57 C58 H40 0.0  
C57 C58 H40 C59 180.0  
H40 C58 C57 H39 0.0  
H40 C58 C59 C64 359.5  
N14 C60 H41 C61 180.0  
H41 C60 C61 H42 2.9  
H42 C61 C60 H41 2.9  
H43 C62 C61 H42 358.1  
H44 C63 C62 H43 358.4  
RU2 N9 C39 H26 9.3  
N7 RU2 N9 N12 91.6  
N7 RU2 N9 N13 266.3  
N7 RU2 N9 N11 27.3  
N7 RU2 N9 N14 189.6  
N7 RU2 N11 N12 267.9  
N7 RU2 N11 N13 94.0  
N7 RU2 N11 N9 333.3  
N7 RU2 N11 N14 171.1  
RU2 N14 C60 H41 348.4  
N7 RU2 N14 N12 141.2  
N7 RU2 N14 N13 316.3  
N7 RU2 N14 N9 46.6  
N7 RU2 N14 N11 223.3  
N1 RU1 N3 N5 174.0  
N1 RU1 N3 N4 266.5  
N1 RU1 N3 N2 306.0  
N1 RU1 N3 N6 94.1  
RU1 N2 C7 H4 6.8  
N1 RU1 N2 N5 186.9  
N1 RU1 N2 N4 93.7  
N1 RU1 N2 N3 55.4  
N1 RU1 N2 N6 267.2  
RU1 N6 C28 H19 359.7  
N1 RU1 N6 N5 174.7  
N1 RU1 N6 N4 225.6  
N1 RU1 N6 N3 263.9  
N1 RU1 N6 N2 78.0