PDB Chemical Component 03R

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 03R

Atom I Atom J Distance (Experimental Model) Distance (Ideal Model)
C1 N2 1.383 1.324
C1 C3 1.415 1.387
C1 O4 1.365 1.358
N2 C5 1.380 1.325
C3 C6 1.401 1.394
C3 F7 1.298 1.351
O4 C8 1.364 1.357
C5 C9 1.392 1.386
C5 O10 1.339 1.357
C6 C9 1.370 1.394
C6 N11 1.361 1.395
C8 C12 1.454 1.402
C8 C13 1.414 1.387
C9 F14 1.297 1.351
O10 C15 1.331 1.359
N11 C16 1.454 1.469
N11 H11 1.000 1.009
C12 C17 1.419 1.398
C12 C18 1.399 1.475
C13 C19 1.404 1.380
C13 H13 1.080 1.080
C15 C20 1.415 1.385
C15 C21 1.401 1.389
C16 C22 1.533 1.530
C16 C23 1.555 1.530
C16 H16 1.100 1.090
C17 C24 1.405 1.378
C17 H17 1.080 1.080
C18 O25 1.246 1.348
C18 O26 1.346 1.215
C19 C24 1.413 1.386
C19 H19 1.079 1.079
C20 C27 1.418 1.394
C20 H20 1.080 1.080
C21 C28 1.371 1.382
C21 H21 1.080 1.080
C22 C29 1.548 1.530
C22 H221 1.100 1.090
C22 H222 1.100 1.090
C23 H231 1.100 1.090
C23 H232 1.100 1.089
C23 H233 1.100 1.090
C24 H24 1.080 1.080
O26 H26 0.951  
C27 C30 1.405 1.395
C27 C31 1.412 1.481
C28 C30 1.400 1.380
C28 H28 1.080 1.080
C29 C32 1.477 1.508
C29 H291 1.100 1.090
C29 H292 1.100 1.090
C30 H30 1.080 1.081
C31 N33 1.347 1.378
C31 N34 1.350 1.302
C32 C35 1.417 1.383
C32 C36 1.421 1.382
N33 H33 1.000 0.970
N34 H341 1.001  
N34 H342 1.000 0.970
C35 C37 1.405 1.383
C35 H35 1.080 1.079
C36 C38 1.410 1.383
C36 H36 1.080 1.080
C37 C39 1.413 1.382
C37 H37 1.080 1.081
C38 C39 1.410 1.383
C38 H38 1.080 1.080
C39 H39 1.080 1.080

Bond Angles for 03R

Atom I Atom J Atom K Angle (Experimental Model) Angle (Ideal Model)
N2 C1 C3 118.5 120.8
N2 C1 O4 126.2 119.6
C1 N2 C5 120.7 121.8
C3 C1 O4 115.3 119.6
C1 C3 C6 121.1 119.1
C1 C3 F7 118.3 120.5
C1 O4 C8 128.8 106.8
N2 C5 C9 119.7 120.8
N2 C5 O10 130.1 119.6
C6 C3 F7 120.6 120.5
C3 C6 C9 118.0 118.4
C3 C6 N11 119.7 120.8
O4 C8 C12 128.0 120.2
O4 C8 C13 112.3 120.2
C9 C5 O10 110.2 119.6
C5 C9 C6 121.9 119.1
C5 C9 F14 117.4 120.4
C5 O10 C15 136.0 106.8
C9 C6 N11 122.3 120.8
C6 C9 F14 120.7 120.4
C6 N11 C16 128.7 106.7
C6 N11 H11 103.5 106.7
C12 C8 C13 119.7 119.7
C8 C12 C17 118.2 119.6
C8 C12 C18 124.3 120.2
C8 C13 C19 120.6 120.1
C8 C13 H13 119.7 119.9
O10 C15 C20 120.6 120.0
O10 C15 C21 120.0 120.0
C16 N11 H11 103.5 106.7
N11 C16 C22 112.0 109.5
N11 C16 C23 114.5 109.5
N11 C16 H16 104.1 109.5
C17 C12 C18 117.5 120.2
C12 C17 C24 121.2 119.8
C12 C17 H17 119.4 120.1
C12 C18 O25 121.2 120.0
C12 C18 O26 121.9 120.0
C19 C13 H13 119.7 119.9
C13 C19 C24 120.1 120.3
C13 C19 H19 120.0 119.8
C20 C15 C21 119.2 120.0
C15 C20 C27 121.0 119.8
C15 C20 H20 119.5 120.1
C15 C21 C28 120.8 120.2
C15 C21 H21 119.6 119.8
C22 C16 C23 109.4 109.5
C22 C16 H16 109.7 109.5
C16 C22 C29 118.7 109.4
C16 C22 H221 104.4 109.5
C16 C22 H222 106.5 109.5
C23 C16 H16 106.9 109.5
C16 C23 H231 109.4 109.5
C16 C23 H232 109.5 109.5
C16 C23 H233 109.5 109.5
C24 C17 H17 119.4 120.1
C17 C24 C19 120.2 120.4
C17 C24 H24 119.9 119.8
O25 C18 O26 116.9 120.0
C18 O26 H26 109.5  
C24 C19 H19 120.0 119.8
C19 C24 H24 119.9 119.8
C27 C20 H20 119.5 120.1
C20 C27 C30 117.0 119.7
C20 C27 C31 122.9 120.1
C28 C21 H21 119.6 119.9
C21 C28 C30 119.9 120.2
C21 C28 H28 120.1 119.9
C29 C22 H221 104.3 109.5
C29 C22 H222 106.5 109.4
C22 C29 C32 115.3 109.5
C22 C29 H291 106.2 109.5
C22 C29 H292 107.6 109.4
H221 C22 H222 117.1 109.5
H231 C23 H232 109.5 109.5
H231 C23 H233 109.4 109.4
H232 C23 H233 109.5 109.5
C30 C27 C31 120.0 120.1
C27 C30 C28 122.1 120.0
C27 C30 H30 119.0 120.0
C27 C31 N33 121.3 120.0
C27 C31 N34 123.9 120.0
C30 C28 H28 120.1 119.9
C28 C30 H30 119.0 120.0
C32 C29 H291 106.2 109.5
C32 C29 H292 107.6 109.4
C29 C32 C35 120.6 119.9
C29 C32 C36 120.7 120.0
H291 C29 H292 114.1 109.5
N33 C31 N34 114.8 120.0
C31 N33 H33 109.6 120.0
C31 N34 H341 125.2  
C31 N34 H342 109.5 120.0
C35 C32 C36 118.8 120.1
C32 C35 C37 120.8 119.9
C32 C35 H35 119.6 120.0
C32 C36 C38 120.5 120.0
C32 C36 H36 119.7 120.0
H341 N34 H342 125.2  
C37 C35 H35 119.6 120.1
C35 C37 C39 120.0 120.1
C35 C37 H37 120.0 120.0
C38 C36 H36 119.8 120.0
C36 C38 C39 120.0 120.0
C36 C38 H38 120.0 120.0
C39 C37 H37 120.0 120.0
C37 C39 C38 120.0 120.0
C37 C39 H39 120.0 120.1
C39 C38 H38 120.0 120.0
C38 C39 H39 120.0 120.0

Torsion Angles for 03R

Atom I Atom J Atom K Atom L Angle (Experimental Model) Angle (Ideal Model)
C3 C1 N2 O4 181.5 179.7
N2 C1 C3 C6 360.0 0.5
N2 C1 C3 F7 180.3 180.0
N2 C1 O4 C8 6.3 303.9
C1 N2 C5 C9 359.0 0.1
C1 N2 C5 O10 176.4 180.0
N2 C1 C3 O4 178.7 180.3
C3 C1 N2 C5 0.3 359.7
C3 C1 O4 C8 184.9 124.1
C6 C3 C1 F7 179.7 180.5
C1 C3 C6 C9 0.4 359.5
C1 C3 C6 N11 180.9 179.8
N2 C1 O4 C3 181.4 179.7
O4 C1 N2 C5 178.9 180.0
O4 C1 C3 C6 181.3 180.2
O4 C1 C3 F7 1.6 359.7
C1 O4 C8 C12 50.1 172.2
C1 O4 C8 C13 232.7 352.4
C5 N2 C1 C3 0.3 359.7
C5 N2 C1 O4 178.9 180.0
C9 C5 N2 O10 182.6 180.1
N2 C5 C9 C6 1.4 360.0
N2 C5 C9 F14 179.7 179.9
N2 C5 O10 C15 6.0 299.3
C6 C3 C1 O4 181.3 180.2
C1 C3 C6 F7 180.3 179.5
C5 C9 C6 C3 359.0 0.2
C9 C6 C3 N11 179.5 179.7
C3 C6 C9 F14 180.7 180.3
C3 C6 N11 C16 129.3 239.7
C3 C6 N11 H11 249.3 125.9
F7 C3 C1 O4 1.6 359.7
C1 C3 F7 C6 179.7 180.5
F7 C3 C6 C9 180.0 180.0
F7 C3 C6 N11 0.5 0.3
C12 C8 O4 C13 177.4 179.8
O4 C8 C12 C17 184.6 179.8
O4 C8 C12 C18 8.5 0.2
O4 C8 C13 C19 176.5 180.0
O4 C8 C13 H13 356.6 0.0
N2 C5 C9 O10 177.9 179.9
C3 C6 C9 C5 359.0 0.2
C9 C5 O10 C15 183.6 119.2
C5 C9 C6 N11 178.5 180.0
C6 C9 C5 F14 181.7 180.1
N2 C5 O10 C9 182.4 180.1
O10 C5 C9 C6 183.5 180.0
O10 C5 C9 F14 1.8 360.0
C5 O10 C15 C20 127.5 6.6
C5 O10 C15 C21 302.3 186.9
C9 C6 C3 F7 180.0 180.0
C3 C6 C9 N11 180.5 180.3
C6 C9 C5 O10 183.5 180.0
C5 C9 C6 F14 178.3 179.9
C9 C6 N11 C16 309.8 60.0
C9 C6 N11 H11 69.8 306.2
N11 C6 C3 F7 0.5 0.3
C3 C6 N11 C9 179.5 179.7
N11 C6 C9 F14 0.2 0.0
C16 N11 C6 H11 240.0 113.8
C6 N11 C16 C22 118.3 205.0
C6 N11 C16 C23 353.1 85.0
C6 N11 C16 H16 236.8 325.0
O4 C8 C12 C13 182.8 180.2
C12 C8 C13 C19 358.9 0.2
C12 C8 C13 H13 178.9 180.3
C17 C12 C8 C18 176.1 179.6
C8 C12 C17 C24 359.1 0.5
C8 C12 C17 H17 179.1 180.3
C8 C12 C18 O25 206.9 179.5
C8 C12 C18 O26 27.2 359.5
O4 C8 C13 C12 177.6 179.8
C13 C8 C12 C17 1.8 359.5
C13 C8 C12 C18 185.7 180.0
C19 C13 C8 H13 180.0 180.0
C8 C13 C19 C24 359.4 0.0
C8 C13 C19 H19 179.4 180.0
F14 C9 C5 O10 1.8 360.0
C5 C9 F14 C6 181.7 180.1
F14 C9 C6 N11 0.2 0.0
C20 C15 O10 C21 185.2 179.7
O10 C15 C20 C27 175.3 179.8
O10 C15 C20 H20 355.3 0.3
O10 C15 C21 C28 184.6 180.0
O10 C15 C21 H21 4.6 360.0
C6 N11 C16 H11 120.0 246.2
C22 C16 N11 C23 125.2 120.0
C22 C16 N11 H16 241.6 240.0
N11 C16 C22 C29 21.4 65.0
N11 C16 C22 H221 265.8 185.0
N11 C16 C22 H222 141.3 305.0
C23 C16 N11 H16 116.4 120.0
N11 C16 C23 H231 348.5 60.0
N11 C16 C23 H232 228.5 180.0
N11 C16 C23 H233 108.5 300.0
C6 N11 H11 C16 224.0 113.8
H11 N11 C16 C22 358.3 318.8
H11 N11 C16 C23 233.1 198.8
H11 N11 C16 H16 116.7 78.8
C17 C12 C8 C13 1.8 359.5
C8 C12 C17 C18 183.7 180.4
C17 C12 C18 O25 30.8 360.0
C17 C12 C18 O26 211.1 180.0
C24 C17 C12 H17 180.0 180.2
C12 C17 C24 C19 359.2 359.8
C12 C17 C24 H24 179.2 179.8
C18 C12 C8 C13 185.7 180.0
C8 C12 C18 C17 176.1 179.5
C18 C12 C17 C24 175.4 180.0
C18 C12 C17 H17 355.5 359.8
O25 C18 C12 O26 179.7 180.0
C12 C18 O26 H26 179.7  
C8 C13 C19 H13 180.0 180.0
C17 C24 C19 C13 1.5 360.0
C24 C19 C13 H19 180.0 180.0
C13 C19 C24 H24 181.5 179.9
C8 C13 H13 C19 180.0 180.0
H13 C13 C19 C24 179.4 180.0
H13 C13 C19 H19 359.4 360.0
O10 C15 C20 C21 174.9 180.3
C20 C15 C21 C28 359.5 0.3
C20 C15 C21 H21 179.5 180.3
C27 C20 C15 H20 180.0 179.5
C15 C20 C27 C30 359.7 0.5
C15 C20 C27 C31 180.9 180.3
O10 C15 C21 C20 185.1 179.7
C21 C15 C20 C27 0.4 359.5
C21 C15 C20 H20 180.4 180.0
C28 C21 C15 H21 180.0 180.0
C15 C21 C28 C30 0.6 360.0
C15 C21 C28 H28 180.6 180.0
C22 C16 N11 H11 358.3 318.8
N11 C16 C22 C23 232.0 240.0
N11 C16 C22 H16 115.0 120.0
C23 C16 C22 H16 243.0 240.0
C22 C16 C23 H231 221.9 300.0
C22 C16 C23 H232 101.9 60.0
C22 C16 C23 H233 341.9 180.0
C29 C22 C16 H221 115.6 240.0
C29 C22 C16 H222 240.0 119.9
C16 C22 C29 C32 257.1 180.0
C16 C22 C29 H291 139.7 300.0
C16 C22 C29 H292 17.1 60.1
H221 C22 C16 H222 124.4 239.9
C23 C16 N11 H11 233.1 198.8
N11 C16 C23 C22 126.6 120.0
N11 C16 C23 H16 245.3 240.0
C22 C16 C23 H16 118.7 120.0
C23 C16 C22 C29 149.4 185.0
C23 C16 C22 H221 33.8 305.0
C23 C16 C22 H222 269.4 65.0
H231 C23 C16 H232 120.0 240.0
H231 C23 C16 H233 240.0 120.0
H232 C23 C16 H233 120.0 240.0
H16 C16 N11 H11 116.7 78.8
N11 C16 H16 C22 240.1 240.0
N11 C16 H16 C23 121.5 120.0
C22 C16 H16 C23 241.5 240.0
H16 C16 C22 C29 266.4 304.9
H16 C16 C22 H221 150.8 65.0
H16 C16 C22 H222 26.4 185.0
H16 C16 C23 H231 103.2 180.0
H16 C16 C23 H232 343.2 300.0
H16 C16 C23 H233 223.2 60.0
C24 C17 C12 C18 175.4 180.0
C12 C17 C24 H17 180.0 179.8
C13 C19 C24 C17 1.5 360.0
C17 C24 C19 H19 181.5 180.0
C19 C24 C17 H24 180.0 179.9
H17 C17 C12 C18 355.5 359.8
C12 C17 H17 C24 180.0 180.2
H17 C17 C24 C19 179.2 179.9
H17 C17 C24 H24 359.2 0.0
C12 C18 O25 O26 180.3 180.0
O25 C18 O26 H26 360.0  
C12 C18 O26 O25 179.7 180.0
C24 C19 C13 H13 179.4 180.0
C13 C19 C24 H19 180.0 180.0
C19 C24 C17 H17 179.2 179.9
C17 C24 C19 H24 180.0 180.1
H19 C19 C13 H13 359.4 360.0
C13 C19 H19 C24 180.0 180.0
H19 C19 C24 H24 1.5 359.9
C27 C20 C15 C21 0.4 359.5
C15 C20 C27 H20 180.0 180.5
C30 C27 C20 C31 178.7 180.2
C20 C27 C30 C28 0.4 359.7
C20 C27 C30 H30 180.3 179.8
C20 C27 C31 N33 121.5 180.2
C20 C27 C31 N34 301.4 0.3
H20 C20 C15 C21 180.4 180.0
C15 C20 H20 C27 180.0 179.5
H20 C20 C27 C30 179.7 180.0
H20 C20 C27 C31 0.9 359.8
C15 C21 C28 H21 180.0 180.0
C27 C30 C28 C21 359.5 0.0
C30 C28 C21 H28 180.0 179.9
C21 C28 C30 H30 179.5 179.9
C15 C21 H21 C28 180.0 180.0
H21 C21 C28 C30 180.6 180.0
H21 C21 C28 H28 0.6 0.0
C29 C22 C16 C23 149.4 185.0
C29 C22 C16 H16 266.4 304.9
C16 C22 C29 H221 244.4 120.0
C16 C22 C29 H222 120.0 240.1
H221 C22 C29 H222 235.6 120.0
C32 C29 C22 H291 117.4 240.0
C32 C29 C22 H292 240.0 119.9
C22 C29 C32 C35 84.1 90.1
C22 C29 C32 C36 264.3 269.7
H291 C29 C22 H292 122.6 239.9
H221 C22 C16 C23 33.8 305.0
H221 C22 C16 H16 150.8 65.0
C16 C22 H221 C29 125.3 240.0
C16 C22 H221 H222 242.6 120.0
C29 C22 H221 H222 117.3 240.0
H221 C22 C29 C32 12.7 60.0
H221 C22 C29 H291 255.3 180.0
H221 C22 C29 H292 132.7 300.0
H222 C22 C16 C23 269.4 65.0
H222 C22 C16 H16 26.4 185.0
C16 C22 H222 C29 232.4 119.9
C16 C22 H222 H221 116.2 239.9
C29 C22 H222 H221 243.8 120.0
H222 C22 C29 C32 137.1 299.9
H222 C22 C29 H291 19.8 59.9
H222 C22 C29 H292 257.1 180.0
H231 C23 C16 H16 103.2 180.0
C16 C23 H231 H232 240.0 120.0
C16 C23 H231 H233 120.0 240.0
H232 C23 H231 H233 240.0 120.0
H232 C23 C16 H16 343.2 300.0
C16 C23 H232 H231 120.0 240.0
C16 C23 H232 H233 240.0 120.0
H231 C23 H232 H233 120.0 240.0
H233 C23 C16 H16 223.2 60.0
C16 C23 H233 H231 240.0 120.0
C16 C23 H233 H232 120.0 240.0
H231 C23 H233 H232 240.0 120.0
H24 C24 C17 H17 359.2 0.0
C17 C24 H24 C19 180.0 179.9
H24 C24 C19 H19 1.5 359.9
C30 C27 C20 H20 179.7 180.0
C20 C27 C30 C31 181.2 179.8
C21 C28 C30 C27 359.5 0.0
C30 C27 C31 N33 302.8 360.0
C30 C27 C31 N34 122.7 180.0
C27 C30 C28 H28 179.5 180.0
C28 C30 C27 H30 180.0 179.9
C31 C27 C20 H20 0.9 359.8
C20 C27 C31 C30 178.7 180.2
C31 C27 C30 C28 179.1 180.0
C31 C27 C30 H30 359.1 0.0
N33 C31 C27 N34 180.0 180.0
C27 C31 N33 H33 180.0 180.0
C27 C31 N34 H341 180.0  
C27 C31 N34 H342 360.0 180.0
C30 C28 C21 H21 180.6 180.0
C21 C28 C30 H28 180.0 180.1
C28 C30 C27 C31 179.1 180.0
C27 C30 C28 H30 180.0 180.1
H28 C28 C21 H21 0.6 0.0
C21 C28 H28 C30 180.0 179.9
H28 C28 C30 H30 359.5 359.9
C32 C29 C22 H221 12.7 60.0
C32 C29 C22 H222 137.1 299.9
C22 C29 C32 H291 242.6 120.1
C22 C29 C32 H292 120.0 240.1
H291 C29 C32 H292 237.4 120.0
C35 C32 C29 C36 179.8 180.3
C29 C32 C35 C37 180.2 180.0
C29 C32 C35 H35 0.1 359.9
C29 C32 C36 C38 179.8 179.8
C29 C32 C36 H36 359.9 0.3
H291 C29 C22 H221 255.3 180.0
H291 C29 C22 H222 19.8 59.9
C22 C29 H291 C32 123.3 240.0
C22 C29 H291 H292 241.6 120.0
C32 C29 H291 H292 118.3 240.0
H291 C29 C32 C35 201.5 330.0
H291 C29 C32 C36 21.7 149.7
H292 C29 C22 H221 132.7 300.0
H292 C29 C22 H222 257.1 180.0
C22 C29 H292 C32 235.2 119.9
C22 C29 H292 H291 117.6 239.9
C32 C29 H292 H291 242.4 120.0
H292 C29 C32 C35 324.1 210.0
H292 C29 C32 C36 144.3 29.7
H30 C30 C27 C31 359.1 0.0
C27 C30 H30 C28 180.0 179.9
H30 C30 C28 H28 359.5 359.9
C27 C31 N33 N34 180.0 180.0
N33 C31 N34 H341 360.0  
N33 C31 N34 H342 180.0 0.1
C27 C31 N34 N33 180.0 180.0
N34 C31 N33 H33 360.0 360.0
H341 N34 C31 H342 180.0  
C35 C32 C29 H291 201.5 330.0
C35 C32 C29 H292 324.1 210.0
C29 C32 C35 C36 180.2 179.7
C35 C32 C36 C38 0.0 359.5
C35 C32 C36 H36 180.0 179.9
C37 C35 C32 H35 180.0 180.1
C32 C35 C37 C39 0.0 359.9
C32 C35 C37 H37 180.0 179.9
C36 C32 C29 H291 21.7 149.7
C36 C32 C29 H292 144.3 29.7
C29 C32 C36 C35 179.8 180.3
C36 C32 C35 C37 360.0 0.3
C36 C32 C35 H35 180.0 180.3
C38 C36 C32 H36 180.0 179.5
C32 C36 C38 C39 360.0 0.4
C32 C36 C38 H38 179.9 180.3
H33 N33 C31 N34 360.0 360.0
C31 N34 H341 H342 180.0  
C31 N34 H342 H341 180.0  
C37 C35 C32 C36 360.0 0.3
C32 C35 C37 H35 180.0 179.9
C39 C37 C35 H37 180.0 180.1
C35 C37 C39 C38 359.9 360.0
C35 C37 C39 H39 179.9 180.0
H35 C35 C32 C36 180.0 180.3
C32 C35 H35 C37 180.0 180.1
H35 C35 C37 C39 180.1 180.0
H35 C35 C37 H37 0.1 359.9
C32 C36 C38 H36 180.0 180.5
C37 C39 C38 C36 0.1 359.9
C39 C38 C36 H38 180.0 180.2
C36 C38 C39 H39 180.1 179.8
C32 C36 H36 C38 180.0 179.5
H36 C36 C38 C39 179.9 180.0
H36 C36 C38 H38 359.9 359.8
C39 C37 C35 H35 180.1 180.0
C35 C37 C39 H37 180.0 179.9
C36 C38 C39 C37 0.1 359.9
C37 C39 C38 H38 180.1 180.0
C38 C39 C37 H39 180.0 180.0
H37 C37 C35 H35 0.1 359.9
C35 C37 H37 C39 180.0 180.1
H37 C37 C39 C38 179.9 180.0
H37 C37 C39 H39 359.9 0.1
C39 C38 C36 H36 179.9 180.0
C36 C38 C39 H38 180.0 179.8
C38 C39 C37 H37 179.9 180.0
C37 C39 C38 H39 180.0 180.0
H38 C38 C36 H36 359.9 359.8
C36 C38 H38 C39 180.0 180.2
H38 C38 C39 H39 0.1 360.0
H39 C39 C37 H37 359.9 0.1
C37 C39 H39 C38 180.0 180.0
H39 C39 C38 H38 0.1 360.0