PDB Chemical Component IN6

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 IN6

Atom I Atom J Distance (Experimental Model) Distance (Ideal Model)
C1 C2 1.402 1.383
C1 C6 1.395 1.382
C1 H1 1.104 1.080
C2 C3 1.403 1.382
C2 H2 1.103 1.080
C3 C4 1.393 1.383
C3 H3 1.103 1.079
C4 C5 1.396 1.382
C4 C7 1.503 1.507
C5 C6 1.401 1.383
C5 H5 1.103 1.079
C6 H6 1.103 1.081
C7 O8 1.440 1.452
C7 H71 1.116 1.089
C7 H72 1.114 1.090
O8 C9 1.430 1.346
C9 O10 1.250 1.215
C9 N24 1.338 1.347
C11 C12 1.544 1.530
C11 C17 1.597 1.507
C11 N24 1.468 1.465
C11 H11 1.116 1.090
C12 C14 1.542 1.530
C12 H121 1.115 1.090
C12 H122 1.115 1.091
C14 C15 1.549 1.530
C14 C16 1.541 1.530
C14 H14 1.115 1.090
C15 H151 1.116 1.090
C15 H152 1.115 1.090
C15 H153 1.115 1.090
C16 H161 1.116 1.090
C16 H162 1.115 1.089
C16 H163 1.115 1.089
C17 S18 1.717 1.734
C17 N19 1.378 1.308
S18 C42 1.759 1.735
N19 C20 1.390 1.333
C20 C42 1.358 1.372
C20 C21 1.624 1.473
N24 HN4 1.020 0.969
C42 H42 1.103 1.081
C21 O22 1.190 1.216
C21 NK' 1.552 1.347
C1' C2' 1.378 1.383
C1' C6' 1.404 1.382
C1' H1' 1.104 1.081
C2' C3' 1.394 1.382
C2' H2' 1.104 1.080
C3' C4' 1.397 1.382
C3' H3' 1.103 1.080
C4' C5' 1.399 1.383
C4' C7' 1.508 1.507
C5' C6' 1.393 1.382
C5' H5' 1.103 1.080
C6' H6' 1.103 1.081
C7' O8' 1.467 1.451
C7' H7'1 1.115 1.090
C7' H7'2 1.115 1.090
O8' C9' 1.423 1.347
C9' OA' 1.230 1.215
C9' NO' 1.334 1.347
CB' CC' 1.538 1.530
CB' CH' 1.544 1.507
CB' NO' 1.466 1.464
CB' H11' 1.115 1.089
CC' CE' 1.537 1.530
CC' H12A 1.115 1.090
CC' H12B 1.115 1.088
CE' CF' 1.508 1.530
CE' CG' 1.510 1.530
CE' H14' 1.115 1.090
CF' H15A 1.115 1.089
CF' H15B 1.115 1.091
CF' H15C 1.115 1.090
CG' H16A 1.115 1.090
CG' H16B 1.115 1.090
CG' H16C 1.116 1.090
CH' OI' 1.231 1.213
CH' NJ' 1.374 1.348
NJ' NK' 1.518 1.401
NJ' HN9 1.020 0.971
NK' HN0 1.020 0.969
NO' HN2 1.019 0.970

Bond Angles for IN6

Atom I Atom J Atom K Angle (Experimental Model) Angle (Ideal Model)
C2 C1 C6 119.6 120.0
C2 C1 H1 120.5 120.0
C1 C2 C3 120.0 120.0
C1 C2 H2 120.0 120.0
C6 C1 H1 119.9 120.0
C1 C6 C5 119.7 120.0
C1 C6 H6 120.0 120.0
C3 C2 H2 120.0 120.0
C2 C3 C4 120.7 120.0
C2 C3 H3 120.0 120.0
C4 C3 H3 119.3 120.0
C3 C4 C5 118.8 120.0
C3 C4 C7 120.5 120.0
C5 C4 C7 120.6 120.0
C4 C5 C6 121.2 120.0
C4 C5 H5 119.3 120.0
C4 C7 O8 116.5 109.4
C4 C7 H71 109.7 109.5
C4 C7 H72 109.7 109.5
C6 C5 H5 119.6 120.0
C5 C6 H6 120.3 120.0
O8 C7 H71 109.6 109.5
O8 C7 H72 109.7 109.5
C7 O8 C9 125.9 120.0
H71 C7 H72 100.5 109.5
O8 C9 O10 121.9 120.0
O8 C9 N24 115.2 120.0
O10 C9 N24 122.9 120.0
C9 N24 C11 121.6 120.0
C9 N24 HN4 114.5 120.0
C12 C11 C17 112.6 109.5
C12 C11 N24 110.2 109.4
C12 C11 H11 108.1 109.5
C11 C12 C14 120.1 109.5
C11 C12 H121 108.4 109.5
C11 C12 H122 108.4 109.5
C17 C11 N24 113.3 109.5
C17 C11 H11 104.7 109.5
C11 C17 S18 119.7 128.6
C11 C17 N19 130.0 128.6
N24 C11 H11 107.4 109.5
C11 N24 HN4 123.9 120.0
C14 C12 H121 108.4 109.4
C14 C12 H122 108.4 109.4
C12 C14 C15 110.7 109.5
C12 C14 C16 113.5 109.5
C12 C14 H14 106.4 109.4
H121 C12 H122 101.6 109.4
C15 C14 C16 111.2 109.5
C15 C14 H14 108.9 109.5
C14 C15 H151 110.7 109.4
C14 C15 H152 111.8 109.5
C14 C15 H153 111.8 109.5
C16 C14 H14 105.8 109.4
C14 C16 H161 113.5 109.5
C14 C16 H162 110.7 109.5
C14 C16 H163 110.7 109.5
H151 C15 H152 111.7 109.5
H151 C15 H153 111.7 109.5
H152 C15 H153 98.6 109.5
H161 C16 H162 110.7 109.5
H161 C16 H163 110.7 109.5
H162 C16 H163 99.6 109.5
S18 C17 N19 110.3 102.8
C17 S18 C42 88.6 98.2
C17 N19 C20 118.2 120.0
S18 C42 C20 116.5 101.5
S18 C42 H42 133.5 129.2
N19 C20 C42 106.4 117.5
N19 C20 C21 124.6 121.2
C42 C20 C21 128.8 121.2
C20 C42 H42 110.0 129.2
C20 C21 O22 90.9 119.9
C20 C21 NK' 117.1 120.0
O22 C21 NK' 106.9 120.1
C21 NK' NJ' 117.2 120.0
C21 NK' HN0 122.4 120.0
C2' C1' C6' 120.1 120.0
C2' C1' H1' 119.0 120.0
C1' C2' C3' 120.0 120.0
C1' C2' H2' 119.4 120.0
C6' C1' H1' 120.9 120.0
C1' C6' C5' 119.8 120.0
C1' C6' H6' 120.5 120.0
C3' C2' H2' 120.6 120.0
C2' C3' C4' 120.8 120.0
C2' C3' H3' 119.5 120.0
C4' C3' H3' 119.7 120.0
C3' C4' C5' 118.9 120.0
C3' C4' C7' 120.3 120.0
C5' C4' C7' 120.7 120.0
C4' C5' C6' 120.4 120.0
C4' C5' H5' 120.1 120.0
C4' C7' O8' 109.1 109.5
C4' C7' H7'1 112.3 109.4
C4' C7' H7'2 112.3 109.5
C6' C5' H5' 119.5 120.0
C5' C6' H6' 119.7 120.0
O8' C7' H7'1 112.4 109.5
O8' C7' H7'2 112.4 109.5
C7' O8' C9' 125.1 120.0
H7'1 C7' H7'2 98.1 109.5
O8' C9' OA' 121.3 120.0
O8' C9' NO' 115.9 120.0
OA' C9' NO' 122.8 120.0
C9' NO' CB' 122.3 120.0
C9' NO' HN2 114.0 120.0
CC' CB' CH' 112.3 109.5
CC' CB' NO' 110.5 109.5
CC' CB' H11' 107.6 109.5
CB' CC' CE' 122.7 109.5
CB' CC' H12A 107.5 109.4
CB' CC' H12B 107.5 109.5
CH' CB' NO' 111.7 109.5
CH' CB' H11' 106.2 109.5
CB' CH' OI' 119.4 120.0
CB' CH' NJ' 119.6 120.0
NO' CB' H11' 108.2 109.5
CB' NO' HN2 123.7 120.0
CE' CC' H12A 107.5 109.4
CE' CC' H12B 107.5 109.5
CC' CE' CF' 113.5 109.5
CC' CE' CG' 112.5 109.5
CC' CE' H14' 104.8 109.4
H12A CC' H12B 102.3 109.5
CF' CE' CG' 110.9 109.5
CF' CE' H14' 106.7 109.5
CE' CF' H15A 113.5 109.5
CE' CF' H15B 110.7 109.4
CE' CF' H15C 110.7 109.5
CG' CE' H14' 107.8 109.5
CE' CG' H16A 112.5 109.5
CE' CG' H16B 111.1 109.5
CE' CG' H16C 111.1 109.4
H15A CF' H15B 110.7 109.4
H15A CF' H15C 110.7 109.6
H15B CF' H15C 99.6 109.4
H16A CG' H16B 111.1 109.5
H16A CG' H16C 111.1 109.4
H16B CG' H16C 99.2 109.4
OI' CH' NJ' 121.0 120.0
CH' NJ' NK' 121.4 120.0
CH' NJ' HN9 114.3 120.0
NK' NJ' HN9 124.3 120.0
NJ' NK' HN0 120.3 120.0

Torsion Angles for IN6

Atom I Atom J Atom K Atom L Angle (Experimental Model) Angle (Ideal Model)
C6 C1 C2 H1 180.0 180.1
C2 C1 C6 C5 0.1 359.8
C2 C1 C6 H6 180.1 180.0
C3 C2 C1 H2 180.0 180.0
C1 C2 C3 C4 0.1 359.9
C1 C2 C3 H3 180.0 180.0
C2 C1 C6 H1 180.0 179.9
C6 C1 C2 C3 359.9 0.0
C6 C1 C2 H2 179.9 180.0
C4 C5 C6 C1 0.0 0.5
C1 C6 C5 H5 180.1 180.0
C5 C6 C1 H6 180.0 179.8
C2 C1 H1 C6 180.0 180.1
H1 C1 C2 C3 179.9 180.0
H1 C1 C2 H2 359.9 359.9
H1 C1 C6 C5 180.0 179.8
H1 C1 C6 H6 0.0 0.1
C3 C2 C1 C6 359.9 0.0
C3 C2 C1 H1 179.9 180.0
C1 C2 C3 H2 180.0 180.0
C4 C3 C2 H3 180.0 179.9
C2 C3 C4 C5 0.0 0.4
C2 C3 C4 C7 179.4 180.0
H2 C2 C1 C6 179.9 180.0
H2 C2 C1 H1 359.9 359.9
C1 C2 H2 C3 180.0 180.0
H2 C2 C3 C4 180.1 179.9
H2 C2 C3 H3 0.0 0.0
C4 C3 C2 H2 180.1 179.9
C2 C3 C4 H3 180.0 180.1
C5 C4 C3 C7 180.6 180.4
C3 C4 C5 C6 359.9 359.4
C3 C4 C5 H5 179.9 180.0
C3 C4 C7 O8 119.4 90.0
C3 C4 C7 H71 244.6 330.1
C3 C4 C7 H72 354.1 210.1
H3 C3 C2 H2 0.0 0.0
C2 C3 H3 C4 180.0 179.9
H3 C3 C4 C5 180.0 180.2
H3 C3 C4 C7 359.4 359.9
C1 C6 C5 C4 0.0 0.5
C5 C4 C3 H3 180.0 180.2
C3 C4 C5 C7 179.4 179.6
C5 C4 C7 O8 298.8 269.7
C5 C4 C7 H71 64.0 149.7
C5 C4 C7 H72 173.5 29.7
C6 C5 C4 H5 180.0 179.5
C4 C5 C6 H6 180.0 180.3
C7 C4 C3 H3 359.4 359.9
C3 C4 C7 C5 180.6 180.4
C7 C4 C5 C6 180.6 179.8
C7 C4 C5 H5 0.5 0.3
O8 C7 C4 H71 234.8 120.0
O8 C7 C4 H72 125.3 240.0
C4 C7 O8 C9 69.7 179.9
H71 C7 C4 H72 250.5 120.0
C5 C6 C1 H1 180.0 179.8
C1 C6 C5 H6 180.0 180.2
C6 C5 C4 C7 180.6 179.8
C4 C5 C6 H5 180.0 180.5
H5 C5 C4 C7 0.5 0.3
C4 C5 H5 C6 180.0 179.5
H5 C5 C6 H6 0.0 359.8
H6 C6 C1 H1 0.0 0.1
C1 C6 H6 C5 180.0 179.8
H6 C6 C5 H5 0.0 359.8
C4 C7 O8 H71 125.2 240.0
C4 C7 O8 H72 234.7 120.0
H71 C7 O8 H72 109.5 240.0
C7 O8 C9 O10 321.6 0.1
C7 O8 C9 N24 142.1 180.0
C4 C7 H71 O8 230.9 120.0
C4 C7 H71 H72 115.5 240.0
O8 C7 H71 H72 244.5 120.0
H71 C7 O8 C9 304.5 299.9
C4 C7 H72 O8 129.1 240.0
C4 C7 H72 H71 244.5 120.0
O8 C7 H72 H71 115.4 240.0
H72 C7 O8 C9 195.0 59.9
C9 O8 C7 H71 304.5 299.9
C9 O8 C7 H72 195.0 59.9
O10 C9 O8 N24 179.5 180.1
O8 C9 N24 C11 178.9 182.4
O8 C9 N24 HN4 358.8 2.3
O8 C9 O10 N24 180.6 179.9
O10 C9 N24 C11 359.4 2.3
O10 C9 N24 HN4 179.4 182.3
O8 C9 N24 O10 179.4 180.1
C12 C11 N24 C9 118.9 107.6
C17 C11 N24 C9 246.1 227.6
C9 N24 C11 H11 1.3 347.6
C11 N24 C9 HN4 180.1 180.0
C9 N24 C11 C12 118.9 107.6
C17 C11 C12 N24 232.4 240.0
C17 C11 C12 H11 115.2 120.0
C12 C11 C17 S18 213.2 60.0
C12 C11 C17 N19 32.4 240.3
N24 C11 C12 H11 242.9 240.0
C12 C11 N24 HN4 299.0 287.6
C14 C12 C11 H121 234.7 240.0
C14 C12 C11 H122 125.2 120.0
C11 C12 C14 C15 150.6 174.3
C11 C12 C14 C16 24.7 294.3
C11 C12 C14 H14 268.8 54.2
H121 C12 C11 H122 250.5 240.0
C9 N24 C11 C17 246.1 227.6
C12 C11 C17 N24 126.0 120.0
C12 C11 C17 H11 242.7 240.0
C17 C11 C12 C14 134.2 178.4
C17 C11 C12 H121 259.5 298.4
C17 C11 C12 H122 9.0 58.4
N24 C11 C17 H11 116.7 120.0
C17 C11 N24 HN4 66.2 47.6
S18 C17 C11 N19 180.8 179.7
C11 C17 S18 C42 178.9 180.0
C11 C17 N19 C20 180.7 180.2
C9 N24 C11 HN4 179.9 180.0
C12 C11 N24 C17 232.7 240.0
C12 C11 N24 H11 117.6 120.0
N24 C11 C12 C14 261.9 298.4
N24 C11 C12 H121 27.1 58.4
N24 C11 C12 H122 136.6 178.4
C17 C11 N24 H11 244.8 240.0
N24 C11 C17 S18 87.2 300.0
N24 C11 C17 N19 266.4 120.3
C12 C11 H11 C17 120.3 120.0
C12 C11 H11 N24 241.1 240.0
H11 C11 C12 C14 19.0 58.4
H11 C11 C12 H121 144.2 178.4
H11 C11 C12 H122 253.7 298.4
C17 C11 H11 N24 120.7 120.0
H11 C11 C17 S18 330.5 180.0
H11 C11 C17 N19 149.7 0.3
H11 C11 N24 HN4 181.4 167.6
C14 C12 C11 C17 134.2 178.4
C14 C12 C11 N24 261.9 298.4
C14 C12 C11 H11 19.0 58.4
C11 C12 C14 H121 125.3 120.0
C11 C12 C14 H122 234.7 240.0
H121 C12 C14 H122 109.4 119.9
C15 C14 C12 C16 125.8 240.0
C15 C14 C12 H14 241.8 120.1
C12 C14 C15 H151 180.0 300.0
C12 C14 C15 H152 305.2 60.0
C12 C14 C15 H153 54.7 180.0
C16 C14 C12 H14 116.0 240.1
C12 C14 C16 H161 180.0 304.9
C12 C14 C16 H162 305.3 64.9
C12 C14 C16 H163 54.8 185.0
H121 C12 C11 C17 259.5 298.4
H121 C12 C11 N24 27.1 58.4
H121 C12 C11 H11 144.2 178.4
C11 C12 H121 C14 228.1 240.0
C11 C12 H121 H122 114.1 120.0
C14 C12 H121 H122 246.0 240.1
H121 C12 C14 C15 25.3 54.2
H121 C12 C14 C16 259.5 174.2
H121 C12 C14 H14 143.5 294.2
H122 C12 C11 C17 9.0 58.4
H122 C12 C11 N24 136.6 178.4
H122 C12 C11 H11 253.7 298.4
C11 C12 H122 C14 131.9 120.0
C11 C12 H122 H121 245.9 240.0
C14 C12 H122 H121 114.0 119.9
H122 C12 C14 C15 275.9 294.3
H122 C12 C14 C16 150.0 54.3
H122 C12 C14 H14 34.0 174.3
C15 C14 C12 H121 25.3 54.2
C15 C14 C12 H122 275.9 294.3
C12 C14 C15 C16 232.9 120.0
C12 C14 C15 H14 116.6 240.0
C16 C14 C15 H14 243.7 120.0
C15 C14 C16 H161 54.5 65.0
C15 C14 C16 H162 179.7 185.0
C15 C14 C16 H163 289.2 305.0
H151 C15 C14 H152 234.7 240.0
H151 C15 C14 H153 125.2 120.0
H152 C15 C14 H153 250.5 240.0
C16 C14 C12 H121 259.5 174.2
C16 C14 C12 H122 150.0 54.3
C12 C14 C16 C15 125.6 240.0
C12 C14 C16 H14 243.7 119.9
C15 C14 C16 H14 118.1 240.0
C16 C14 C15 H151 307.1 180.0
C16 C14 C15 H152 72.3 300.0
C16 C14 C15 H153 181.8 60.0
H161 C16 C14 H162 234.8 240.0
H161 C16 C14 H163 125.2 120.0
H162 C16 C14 H163 250.5 240.0
H14 C14 C12 H121 143.5 294.2
H14 C14 C12 H122 34.0 174.3
C12 C14 H14 C15 240.6 120.1
C12 C14 H14 C16 121.0 240.1
C15 C14 H14 C16 240.4 120.0
H14 C14 C15 H151 63.3 60.0
H14 C14 C15 H152 188.6 180.0
H14 C14 C15 H153 298.1 300.0
H14 C14 C16 H161 296.3 185.0
H14 C14 C16 H162 61.6 305.0
H14 C14 C16 H163 171.1 65.0
H151 C15 C14 C16 307.1 180.0
H151 C15 C14 H14 63.3 60.0
C14 C15 H151 H152 125.3 120.0
C14 C15 H151 H153 234.7 240.0
H152 C15 H151 H153 109.4 120.0
H152 C15 C14 C16 72.3 300.0
H152 C15 C14 H14 188.6 180.0
C14 C15 H152 H151 235.3 240.0
C14 C15 H152 H153 117.7 120.0
H151 C15 H152 H153 242.4 240.0
H153 C15 C14 C16 181.8 60.0
H153 C15 C14 H14 298.1 300.0
C14 C15 H153 H151 124.7 120.0
C14 C15 H153 H152 242.3 240.0
H151 C15 H153 H152 117.6 120.0
H161 C16 C14 H14 296.3 185.0
C14 C16 H161 H162 125.2 120.0
C14 C16 H161 H163 234.8 240.0
H162 C16 H161 H163 109.5 120.0
H162 C16 C14 H14 61.6 305.0
C14 C16 H162 H161 233.2 240.0
C14 C16 H162 H163 116.6 120.0
H161 C16 H162 H163 243.4 240.0
H163 C16 C14 H14 171.1 65.0
C14 C16 H163 H161 126.8 120.0
C14 C16 H163 H162 243.4 240.0
H161 C16 H163 H162 116.6 120.0
S18 C17 C11 N24 87.2 300.0
S18 C17 C11 H11 330.5 180.0
C11 C17 S18 N19 179.4 180.2
S18 C17 N19 C20 0.0 0.4
C17 S18 C42 C20 0.9 0.0
C17 S18 C42 H42 181.0 180.0
N19 C17 C11 N24 266.4 120.3
N19 C17 C11 H11 149.7 0.3
C11 C17 N19 S18 180.7 179.8
N19 C17 S18 C42 359.5 359.8
C17 N19 C20 C42 0.6 359.5
C17 N19 C20 C21 185.4 179.8
C42 S18 C17 N19 359.5 359.8
N19 C20 C42 S18 359.0 0.2
S18 C42 C20 C21 173.9 180.0
C20 C42 S18 H42 180.0 180.0
S18 C42 C20 N19 359.0 0.2
C42 C20 N19 C21 175.2 179.8
N19 C20 C42 H42 178.9 180.2
N19 C20 C21 O22 32.7 179.8
N19 C20 C21 NK' 283.1 359.7
S18 C42 C20 H42 180.0 180.0
N19 C20 C42 C21 185.1 180.2
C42 C20 C21 O22 218.6 0.1
C42 C20 C21 NK' 109.0 180.0
N19 C20 C21 C42 174.1 179.8
C21 C20 C42 H42 353.9 360.0
O22 C21 C20 NK' 109.6 180.1
C20 C21 NK' NJ' 253.2 180.0
C20 C21 NK' HN0 73.2 0.0
C9 N24 HN4 C11 180.1 180.0
HN4 N24 C11 H11 181.4 167.6
S18 C42 H42 C20 180.0 180.0
H42 C42 C20 C21 353.9 360.0
C20 C21 O22 NK' 241.2 179.9
O22 C21 NK' NJ' 153.1 359.9
O22 C21 NK' HN0 333.1 179.9
C20 C21 NK' O22 100.1 180.1
CH' NJ' NK' C21 261.5 180.1
C21 NK' NJ' HN9 81.5 0.0
NJ' NK' C21 HN0 180.0 180.0
C6' C1' C2' H1' 180.0 180.0
C2' C1' C6' C5' 359.9 359.8
C2' C1' C6' H6' 179.9 180.0
C3' C2' C1' H2' 180.0 180.0
C1' C2' C3' C4' 359.6 359.9
C1' C2' C3' H3' 179.6 180.1
C2' C1' C6' H1' 180.0 180.0
C6' C1' C2' C3' 0.1 360.0
C6' C1' C2' H2' 180.0 180.0
C4' C5' C6' C1' 0.5 0.4
C1' C6' C5' H5' 180.5 179.9
C5' C6' C1' H6' 180.0 179.9
C2' C1' H1' C6' 180.0 180.0
H1' C1' C2' C3' 180.0 180.0
H1' C1' C2' H2' 0.0 0.0
H1' C1' C6' C5' 179.9 179.8
H1' C1' C6' H6' 359.9 359.9
C3' C2' C1' C6' 0.1 360.0
C3' C2' C1' H1' 180.0 180.0
C1' C2' C3' H2' 180.0 180.0
C4' C3' C2' H3' 180.0 179.9
C2' C3' C4' C5' 0.8 0.3
C2' C3' C4' C7' 183.7 180.0
H2' C2' C1' C6' 180.0 180.0
H2' C2' C1' H1' 0.0 0.0
C1' C2' H2' C3' 180.0 180.0
H2' C2' C3' C4' 179.6 179.9
H2' C2' C3' H3' 359.6 0.0
C4' C3' C2' H2' 179.6 179.9
C2' C3' C4' H3' 180.0 180.1
C5' C4' C3' C7' 177.1 180.3
C3' C4' C5' C6' 359.2 359.5
C3' C4' C5' H5' 179.2 180.0
C3' C4' C7' O8' 99.7 90.0
C3' C4' C7' H7'1 224.9 330.0
C3' C4' C7' H7'2 334.4 210.0
H3' C3' C2' H2' 359.6 0.0
C2' C3' H3' C4' 180.0 179.9
H3' C3' C4' C5' 180.8 180.2
H3' C3' C4' C7' 3.7 359.9
C1' C6' C5' C4' 0.5 0.4
C5' C4' C3' H3' 180.8 180.2
C3' C4' C5' C7' 182.9 179.7
C5' C4' C7' O8' 282.6 269.7
C5' C4' C7' H7'1 47.9 149.7
C5' C4' C7' H7'2 157.3 29.7
C6' C5' C4' H5' 180.0 179.5
C4' C5' C6' H6' 180.5 180.3
C7' C4' C3' H3' 3.7 359.9
C3' C4' C7' C5' 177.1 180.3
C7' C4' C5' C6' 176.3 179.8
C7' C4' C5' H5' 356.3 0.3
O8' C7' C4' H7'1 234.7 120.0
O8' C7' C4' H7'2 125.3 240.0
C4' C7' O8' C9' 321.9 180.0
H7'1 C7' C4' H7'2 250.5 120.0
C5' C6' C1' H1' 179.9 179.8
C1' C6' C5' H6' 180.0 180.1
C6' C5' C4' C7' 176.3 179.8
C4' C5' C6' H5' 180.0 180.5
H5' C5' C4' C7' 356.3 0.3
C4' C5' H5' C6' 180.0 179.5
H5' C5' C6' H6' 0.5 359.8
H6' C6' C1' H1' 359.9 359.9
C1' C6' H6' C5' 180.0 179.9
H6' C6' C5' H5' 0.5 359.8
C4' C7' O8' H7'1 125.2 240.0
C4' C7' O8' H7'2 234.8 120.0
H7'1 C7' O8' H7'2 109.6 239.9
C7' O8' C9' OA' 72.1 0.0
C7' O8' C9' NO' 252.2 180.1
C4' C7' H7'1 O8' 236.6 120.0
C4' C7' H7'1 H7'2 118.2 240.0
O8' C7' H7'1 H7'2 241.7 120.1
H7'1 C7' O8' C9' 196.6 300.0
C4' C7' H7'2 O8' 123.4 240.0
C4' C7' H7'2 H7'1 241.8 120.0
O8' C7' H7'2 H7'1 118.3 240.0
H7'2 C7' O8' C9' 87.1 60.0
C9' O8' C7' H7'1 196.6 300.0
C9' O8' C7' H7'2 87.1 60.0
OA' C9' O8' NO' 179.8 180.0
O8' C9' NO' CB' 180.1 183.4
O8' C9' NO' HN2 0.1 3.3
O8' C9' OA' NO' 180.2 180.0
OA' C9' NO' CB' 0.3 3.4
OA' C9' NO' HN2 180.3 183.4
O8' C9' NO' OA' 179.8 180.0
CC' CB' NO' C9' 109.0 108.0
CH' CB' NO' C9' 234.8 228.0
C9' NO' CB' H11' 351.4 347.9
CB' NO' C9' HN2 180.0 180.0
C9' NO' CB' CC' 109.0 108.0
CH' CB' CC' NO' 234.5 240.0
CH' CB' CC' H11' 116.6 120.0
CC' CB' CH' OI' 98.4 120.0
CC' CB' CH' NJ' 277.6 299.9
NO' CB' CC' H11' 242.0 240.0
CC' CB' NO' HN2 289.0 288.0
CE' CC' CB' H12A 234.7 119.9
CE' CC' CB' H12B 125.3 239.9
CB' CC' CE' CF' 280.0 173.9
CB' CC' CE' CG' 47.1 293.9
CB' CC' CE' H14' 164.0 54.0
H12A CC' CB' H12B 250.6 120.0
C9' NO' CB' CH' 234.8 228.0
CC' CB' CH' NO' 124.8 120.0
CC' CB' CH' H11' 242.6 240.0
CH' CB' CC' CE' 280.8 175.4
CH' CB' CC' H12A 46.0 55.5
CH' CB' CC' H12B 155.5 295.5
NO' CB' CH' H11' 117.8 120.0
CH' CB' NO' HN2 54.8 48.0
OI' CH' CB' NJ' 180.9 180.1
CB' CH' NJ' NK' 181.8 180.0
CB' CH' NJ' HN9 1.8 0.1
C9' NO' CB' HN2 180.0 180.0
CC' CB' NO' CH' 234.2 240.0
CC' CB' NO' H11' 117.6 120.0
NO' CB' CC' CE' 46.2 295.4
NO' CB' CC' H12A 171.5 175.5
NO' CB' CC' H12B 280.9 55.5
CH' CB' NO' H11' 243.4 240.0
NO' CB' CH' OI' 333.7 0.0
NO' CB' CH' NJ' 152.8 179.9
CC' CB' H11' CH' 120.5 120.0
CC' CB' H11' NO' 240.6 240.0
H11' CB' CC' CE' 164.2 55.4
H11' CB' CC' H12A 289.4 295.5
H11' CB' CC' H12B 38.9 175.5
CH' CB' H11' NO' 120.1 120.0
H11' CB' CH' OI' 215.9 240.0
H11' CB' CH' NJ' 35.0 60.0
H11' CB' NO' HN2 171.4 168.0
CE' CC' CB' CH' 280.8 175.4
CE' CC' CB' NO' 46.2 295.4
CE' CC' CB' H11' 164.2 55.4
CB' CC' CE' H12A 125.2 240.1
CB' CC' CE' H12B 234.7 120.1
H12A CC' CE' H12B 109.5 240.0
CF' CE' CC' CG' 233.0 240.0
CF' CE' CC' H14' 116.1 120.0
CC' CE' CF' H15A 180.0 180.1
CC' CE' CF' H15B 305.3 300.0
CC' CE' CF' H15C 54.7 59.9
CG' CE' CC' H14' 243.1 240.0
CC' CE' CG' H16A 180.0 305.6
CC' CE' CG' H16B 305.3 65.7
CC' CE' CG' H16C 54.7 185.7
H12A CC' CB' CH' 46.0 55.5
H12A CC' CB' NO' 171.5 175.5
H12A CC' CB' H11' 289.4 295.5
CB' CC' H12A CE' 226.1 119.9
CB' CC' H12A H12B 113.0 240.0
CE' CC' H12A H12B 246.9 120.1
H12A CC' CE' CF' 154.8 293.9
H12A CC' CE' CG' 281.8 53.8
H12A CC' CE' H14' 38.7 173.9
H12B CC' CB' CH' 155.5 295.5
H12B CC' CB' NO' 280.9 55.5
H12B CC' CB' H11' 38.9 175.5
CB' CC' H12B CE' 133.9 240.0
CB' CC' H12B H12A 247.0 120.0
CE' CC' H12B H12A 113.1 240.0
H12B CC' CE' CF' 45.3 53.9
H12B CC' CE' CG' 172.3 173.9
H12B CC' CE' H14' 289.3 293.9
CF' CE' CC' H12A 154.8 293.9
CF' CE' CC' H12B 45.3 53.9
CC' CE' CF' CG' 127.9 120.0
CC' CE' CF' H14' 245.0 240.1
CG' CE' CF' H14' 117.2 120.1
CF' CE' CG' H16A 308.4 65.6
CF' CE' CG' H16B 73.7 185.7
CF' CE' CG' H16C 183.1 305.6
H15A CF' CE' H15B 234.7 240.1
H15A CF' CE' H15C 125.3 120.2
H15B CF' CE' H15C 250.6 240.1
CG' CE' CC' H12A 281.8 53.8
CG' CE' CC' H12B 172.3 173.9
CC' CE' CG' CF' 231.6 240.0
CC' CE' CG' H14' 115.1 120.0
CF' CE' CG' H14' 243.5 240.0
CG' CE' CF' H15A 52.1 60.1
CG' CE' CF' H15B 177.4 180.0
CG' CE' CF' H15C 286.9 299.9
H16A CG' CE' H16B 234.7 239.9
H16A CG' CE' H16C 125.3 119.9
H16B CG' CE' H16C 250.6 240.0
H14' CE' CC' H12A 38.7 173.9
H14' CE' CC' H12B 289.3 293.9
CC' CE' H14' CF' 120.7 120.0
CC' CE' H14' CG' 239.9 240.0
CF' CE' H14' CG' 119.2 120.0
H14' CE' CF' H15A 294.9 300.0
H14' CE' CF' H15B 60.2 59.9
H14' CE' CF' H15C 169.7 179.9
H14' CE' CG' H16A 64.9 185.6
H14' CE' CG' H16B 190.2 305.7
H14' CE' CG' H16C 299.6 65.7
H15A CF' CE' CG' 52.1 60.1
H15A CF' CE' H14' 294.9 300.0
CE' CF' H15A H15B 125.3 119.9
CE' CF' H15A H15C 234.8 239.9
H15B CF' H15A H15C 109.5 119.9
H15B CF' CE' CG' 177.4 180.0
H15B CF' CE' H14' 60.2 59.9
CE' CF' H15B H15A 233.1 240.0
CE' CF' H15B H15C 116.5 120.0
H15A CF' H15B H15C 243.4 240.0
H15C CF' CE' CG' 286.9 299.9
H15C CF' CE' H14' 169.7 179.9
CE' CF' H15C H15A 126.8 120.1
CE' CF' H15C H15B 243.4 240.0
H15A CF' H15C H15B 116.6 119.9
H16A CG' CE' H14' 64.9 185.6
CE' CG' H16A H16B 125.3 120.1
CE' CG' H16A H16C 234.7 240.1
H16B CG' H16A H16C 109.4 120.0
H16B CG' CE' H14' 190.2 305.7
CE' CG' H16B H16A 233.9 239.9
CE' CG' H16B H16C 117.0 120.0
H16A CG' H16B H16C 243.0 240.0
H16C CG' CE' H14' 299.6 65.7
CE' CG' H16C H16A 126.1 120.0
CE' CG' H16C H16B 243.0 240.0
H16A CG' H16C H16B 117.0 120.1
OI' CH' CB' NO' 333.7 0.0
OI' CH' CB' H11' 215.9 240.0
CB' CH' OI' NJ' 179.1 179.9
OI' CH' NJ' NK' 0.9 359.9
OI' CH' NJ' HN9 180.9 180.0
C21 NK' NJ' CH' 261.5 180.1
NJ' CH' CB' NO' 152.8 179.9
NJ' CH' CB' H11' 35.0 60.0
CB' CH' NJ' OI' 180.9 180.1
NK' NJ' CH' HN9 180.0 179.9
CH' NJ' NK' HN0 81.5 0.1
C21 NK' NJ' HN0 180.0 180.0
CH' NJ' NK' HN9 179.9 180.1
CH' NJ' HN9 NK' 180.1 179.9
HN9 NJ' NK' HN0 261.6 180.0
C21 NK' HN0 NJ' 180.0 180.0
HN0 NK' NJ' HN9 261.6 180.0
C9' NO' HN2 CB' 180.0 180.0
HN2 NO' CB' H11' 171.4 168.0