PDB Chemical Component LQ7

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 LQ7

Atom I Atom J Distance (Experimental Model) Distance (Ideal Model)
C07 C08 1.432 1.334
C07 C06 1.524 1.384
C08 S09 1.618 1.759
C06 C05 1.432 1.334
S09 C05 1.618 1.759
C12 N13 1.450 1.469
C12 C11 1.525 1.530
C11 C10 1.532 1.530
C05 C04 1.530 1.507
C04 N03 1.464 1.465
C10 N03 1.465 1.466
C28 C27 1.382 1.378
C28 C14 1.377 1.397
N03 C02 1.468 1.348
C27 C26 1.382 1.386
C02 O01 1.184 1.216
C02 C14 1.525 1.475
C14 C15 1.380 1.402
C26 C25 1.379 1.381
C15 C25 1.382 1.386
C15 O16 1.394 1.357
O16 C17 1.395 1.429
C17 C18 1.521 1.507
C24 C18 1.383 1.382
C24 C23 1.383 1.383
C18 C19 1.380 1.383
C23 C22 1.384 1.382
C19 C20 1.379 1.382
C22 C20 1.380 1.383
C20 C21 1.522 1.507
C04 H042 1.100 1.091
C04 H041 1.100 1.090
C06 H061 1.080 1.080
C07 H071 1.080 1.080
C08 H081 1.080 1.080
C10 H101 1.100 1.090
C10 H102 1.100 1.090
C11 H111 1.100 1.090
C11 H112 1.100 1.091
C12 H122 1.100 1.090
C12 H121 1.100 1.090
C17 H172 1.100 1.091
C17 H171 1.100 1.090
C19 H191 1.080 1.080
C21 H212 1.100 1.089
C21 H211 1.100 1.090
C21 H213 1.100 1.090
C22 H221 1.080 1.080
C23 H231 1.080 1.080
C24 H241 1.080 1.079
C25 H251 1.080 1.080
C26 H261 1.080 1.079
C27 H271 1.080 1.080
C28 H281 1.080 1.080
N13 H131 1.000 1.009
N13 H132 1.000 1.008

Bond Angles for LQ7

Atom I Atom J Atom K Angle (Experimental Model) Angle (Ideal Model)
C07 C08 S09 109.5 109.6
C08 C07 H071 125.1 122.6
C07 C08 H081 125.2 125.2
C07 C06 H061 124.9 122.6
S09 C08 H081 125.3 125.2
N13 C12 H122 109.3 109.5
N13 C12 H121 109.3 109.5
C12 N13 H131 109.5 111.0
C12 N13 H132 109.4 111.0
C12 C11 H111 108.9 109.5
C12 C11 H112 108.9 109.4
C11 C10 N03 113.3 109.4
C11 C10 H101 108.5 109.5
C11 C10 H102 108.5 109.5
C05 C04 N03 114.0 109.5
C05 C04 H042 108.3 109.5
C05 C04 H041 108.3 109.5
C04 N03 C10 119.4 120.0
N03 C04 H042 108.3 109.4
N03 C04 H041 108.3 109.5
N03 C10 H101 108.5 109.4
N03 C10 H102 108.5 109.4
C28 C27 H271 119.9 119.8
N03 C02 O01 120.7 120.0
C27 C26 H261 120.1 119.8
C14 C02 O01 116.5 120.0
C02 C14 C15 119.3 120.2
C14 C15 C25 120.3 119.7
C14 C15 O16 119.7 120.1
C26 C25 H251 120.1 119.9
C25 C15 O16 120.1 120.2
C15 C25 H251 120.0 120.0
C15 O16 C17 112.2 117.0
O16 C17 H172 109.6 109.5
O16 C17 H171 109.6 109.4
C17 C18 C19 119.8 120.0
C18 C17 H172 109.6 109.5
C18 C17 H171 109.7 109.5
C24 C23 H231 120.1 120.0
C18 C19 C20 119.8 120.0
C18 C19 H191 120.1 120.0
C23 C22 H221 120.0 120.0
C19 C20 C21 119.7 120.0
C20 C19 H191 120.1 120.0
C20 C21 H212 109.5 109.5
C20 C21 H211 109.5 109.5
C20 C21 H213 109.5 109.4
H042 C04 H041 109.5 109.5
H101 C10 H102 109.5 109.5
H111 C11 H112 109.5 109.5
H122 C12 H121 109.5 109.4
H172 C17 H171 109.4 109.5
H212 C21 H211 109.4 109.5
H212 C21 H213 109.4 109.5
H211 C21 H213 109.5 109.4
H131 N13 H132 109.5 111.0

Torsion Angles for LQ7

Atom I Atom J Atom K Atom L Angle (Experimental Model) Angle (Ideal Model)
C08 C07 C06 H061 179.7 180.0
S09 C08 C07 H081 180.0 179.7
S09 C08 C07 H071 180.1 180.0
C07 C08 S09 H081 180.0 180.3
C06 C05 C04 N03 277.6 90.0
C06 C05 C04 H042 38.3 209.9
C06 C05 C04 H041 157.0 330.0
S09 C05 C04 H042 217.7 29.7
S09 C05 C04 H041 336.4 149.7
N13 C12 C11 H111 188.4 60.0
N13 C12 C11 H112 307.8 300.0
H122 C12 N13 H121 240.2 120.0
H131 N13 C12 H132 240.0 236.0
C12 C11 C10 N03 168.3 180.0
C12 C11 C10 H101 288.8 299.9
C12 C11 C10 H102 47.7 60.0
H111 C11 C12 H112 240.6 120.0
C04 N03 C10 C11 94.6 90.0
N03 C10 C11 H101 239.5 240.1
N03 C10 C11 H102 120.6 120.0
H101 C10 C11 H102 241.1 239.9
C05 C04 N03 C10 315.4 273.2
N03 C04 C05 H042 239.3 240.1
N03 C04 C05 H041 120.7 120.0
H042 C04 C05 H041 241.3 240.0
C11 C10 N03 C04 94.6 90.0
C05 C04 N03 H042 120.7 120.0
C05 C04 N03 H041 239.3 239.9
C04 N03 C10 H101 334.0 330.0
C04 N03 C10 H102 215.2 210.0
C04 N03 C02 O01 359.1 4.1
H042 C04 N03 H041 118.7 119.9
C11 C10 N03 H101 120.6 120.0
C11 C10 N03 H102 239.4 240.0
C10 N03 C04 H042 194.8 153.2
C10 N03 C04 H041 76.1 33.2
C10 N03 C02 O01 181.1 184.1
H101 C10 N03 H102 118.9 120.0
C28 C27 C26 H261 180.1 179.7
C28 C14 C02 O01 259.1 121.7
C28 C14 C15 O16 179.5 180.3
C14 C02 N03 O01 179.9 179.7
C27 C26 C25 H251 180.2 180.1
O01 C02 C14 C15 79.2 301.9
N03 C02 C14 O01 180.1 180.3
C02 C14 C15 C25 180.1 180.0
C02 C14 C15 O16 359.4 0.0
C15 C14 C02 O01 79.2 301.9
C25 C15 C14 O16 180.6 180.0
C14 C15 C25 H251 179.6 180.0
C14 C15 O16 C17 265.0 180.0
C26 C25 C15 O16 180.3 180.0
C15 C25 C26 H251 180.0 179.9
C14 C15 C25 O16 179.4 180.0
C26 C25 C15 H251 180.0 180.1
C25 C15 O16 C17 84.4 0.0
C14 C15 O16 C25 180.6 180.0
O16 C15 C25 H251 0.3 359.9
C15 O16 C17 H172 284.0 59.9
C15 O16 C17 H171 44.1 300.0
C18 C17 O16 H172 240.1 120.0
C18 C17 O16 H171 119.9 240.0
H172 C17 O16 H171 239.8 120.0
C15 O16 C17 C18 164.1 180.0
O16 C17 C18 H172 119.9 240.0
O16 C17 C18 H171 240.1 120.0
C17 C18 C19 C20 179.9 180.0
C17 C18 C19 H191 359.9 360.0
H172 C17 C18 H171 120.2 240.0
C24 C18 C17 H172 135.5 29.7
C24 C18 C17 H171 15.3 149.7
C24 C18 C19 H191 180.2 180.2
C24 C23 C22 H221 179.8 179.7
C19 C18 C17 H172 315.8 210.0
C19 C18 C17 H171 195.6 330.0
C18 C19 C20 C21 179.8 180.0
C20 C19 C18 H191 180.0 180.0
C18 C19 C20 H191 180.0 180.0
C19 C20 C21 H212 90.0 90.0
C19 C20 C21 H211 210.0 210.0
C19 C20 C21 H213 330.0 330.0
C22 C20 C19 H191 179.8 180.0
C22 C20 C21 H212 270.0 270.0
C22 C20 C21 H211 30.0 30.1
C22 C20 C21 H213 150.0 150.0
C21 C20 C19 H191 359.8 0.0
H212 C21 C20 H211 240.0 240.0
H212 C21 C20 H213 120.0 120.0
H211 C21 C20 H213 240.0 240.0
C05 C04 H042 N03 235.9 240.0
C05 C04 H042 H041 117.9 120.1
H042 C04 N03 C10 194.8 153.2
N03 C04 H042 H041 242.1 240.1
C05 C04 H041 N03 124.1 120.0
C05 C04 H041 H042 242.1 239.9
H041 C04 N03 C10 76.1 33.2
N03 C04 H041 H042 117.9 119.9
H071 C07 C08 S09 180.1 180.0
H071 C07 C08 H081 0.1 0.3
H071 C07 C06 H061 359.7 359.7
C07 C08 H081 S09 180.0 179.7
H081 C08 C07 H071 0.1 0.3
C11 C10 H101 N03 236.5 240.1
C11 C10 H101 H102 118.2 120.1
N03 C10 H101 H102 241.8 240.0
C11 C10 H102 N03 123.5 120.0
C11 C10 H102 H101 241.8 239.9
N03 C10 H102 H101 118.2 120.0
C12 C11 H111 H112 119.0 240.0
H111 C11 C10 N03 47.9 300.0
H111 C11 C10 H101 168.5 59.9
H111 C11 C10 H102 287.4 180.0
C12 C11 H112 H111 241.0 120.0
H112 C11 C10 N03 288.6 60.0
H112 C11 C10 H101 49.2 180.0
H112 C11 C10 H102 168.0 300.1
N13 C12 H122 H121 119.6 240.0
H122 C12 N13 H131 300.1 296.0
H122 C12 N13 H132 60.1 60.0
H122 C12 C11 H111 68.3 180.0
H122 C12 C11 H112 187.6 60.0
N13 C12 H121 H122 240.4 120.0
H121 C12 N13 H131 59.9 176.0
H121 C12 N13 H132 179.9 300.0
H121 C12 C11 H111 308.6 300.0
H121 C12 C11 H112 67.9 180.0
O16 C17 H172 H171 120.3 240.0
H172 C17 C18 C19 315.8 210.0
C18 C17 H172 H171 239.7 120.0
O16 C17 H171 H172 239.7 120.0
H171 C17 C18 C19 195.6 330.0
C18 C17 H171 H172 120.3 240.0
C18 C19 H191 C20 180.0 180.0
H191 C19 C20 C21 359.8 0.0
C20 C21 H212 H211 120.0 120.1
C20 C21 H212 H213 240.0 240.0
H211 C21 H212 H213 120.0 120.0
C20 C21 H211 H212 240.0 240.0
C20 C21 H211 H213 120.0 119.9
H212 C21 H211 H213 240.0 240.0
C20 C21 H213 H212 120.0 120.0
C20 C21 H213 H211 240.0 240.0
H212 C21 H213 H211 120.0 120.0
H231 C23 C22 H221 359.8 0.0
H241 C24 C23 H231 0.2 360.0
H251 C25 C15 O16 0.3 359.9
H261 C26 C25 H251 0.2 0.1
H271 C27 C26 H261 0.1 0.0
H281 C28 C27 H271 359.7 359.6
H131 N13 C12 H122 300.1 296.0
H131 N13 C12 H121 59.9 176.0
C12 N13 H131 H132 120.0 124.0
H132 N13 C12 H122 60.1 60.0
H132 N13 C12 H121 179.9 300.0
C12 N13 H132 H131 240.0 236.1