PDB Chemical Component H64

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 H64

Atom I Atom J Distance (Experimental Model) Distance (Ideal Model)
C97 C95 1.531 1.531
C97 H971 1.100 1.090
C97 H972 1.100 1.090
C97 H973 1.100 1.090
C95 C96 1.530 1.529
C95 N94 1.471 1.469
C95 H95 1.100 1.090
C96 H961 1.100 1.090
C96 H962 1.100 1.091
C96 H963 1.100 1.090
N94 C93 1.471 1.470
N94 H94 1.000 1.009
C93 C92 1.530 1.529
C93 H931 1.100 1.090
C93 H932 1.100 1.090
C92 C91 1.531 1.530
C92 H921 1.101 1.090
C92 H922 1.100 1.091
C91 N9 1.471 1.465
C91 H911 1.099 1.090
C91 H912 1.100 1.090
N9 C4 1.328 1.375
N9 C8 1.330 1.369
C4 N3 1.343 1.328
C4 C5 1.390 1.405
N3 C2 1.322 1.317
C2 N1 1.323 1.321
C2 H2 1.080 1.080
N1 C6 1.342 1.329
C6 N6 1.331 1.385
C6 C5 1.390 1.404
N6 HN61 1.000 0.970
N6 HN62 1.000 0.970
C5 N7 1.332 1.356
N7 C8 1.330 1.310
C8 S 1.751 1.762
S C1' 1.753 1.762
C1' C6' 1.392 1.389
C1' C2' 1.393 1.389
C6' C5' 1.393 1.384
C6' H6' 1.080 1.080
C5' O3' 1.359 1.365
C5' C4' 1.393 1.393
O3' C'2 1.434 1.440
C'2 O1' 1.434 1.440
C'2 H'21 1.100 1.089
C'2 H'22 1.100 1.090
O1' C4' 1.362 1.366
C4' C3' 1.391 1.386
C3' C2' 1.393 1.382
C3' H3' 1.080 1.081
C2' BR 1.893 1.891

Bond Angles for H64

Atom I Atom J Atom K Angle (Experimental Model) Angle (Ideal Model)
C95 C97 H971 109.4 109.4
C95 C97 H972 109.4 109.5
C95 C97 H973 109.5 109.5
C97 C95 C96 111.1 109.5
C97 C95 N94 110.2 109.4
C97 C95 H95 107.8 109.4
H971 C97 H972 109.5 109.5
H971 C97 H973 109.5 109.5
H972 C97 H973 109.5 109.5
C96 C95 N94 109.3 109.5
C96 C95 H95 108.7 109.5
C95 C96 H961 109.5 109.5
C95 C96 H962 109.5 109.5
C95 C96 H963 109.5 109.5
N94 C95 H95 109.6 109.5
C95 N94 C93 109.8 106.7
C95 N94 H94 109.4 106.7
H961 C96 H962 109.4 109.4
H961 C96 H963 109.5 109.5
H962 C96 H963 109.5 109.4
C93 N94 H94 109.4 106.7
N94 C93 C92 110.1 109.5
N94 C93 H931 109.1 109.4
N94 C93 H932 109.2 109.5
C92 C93 H931 109.1 109.5
C92 C93 H932 109.3 109.5
C93 C92 C91 109.8 109.5
C93 C92 H921 109.3 109.5
C93 C92 H922 109.4 109.5
H931 C93 H932 110.0 109.5
C91 C92 H921 109.3 109.5
C91 C92 H922 109.4 109.5
C92 C91 N9 110.7 109.5
C92 C91 H911 108.8 109.4
C92 C91 H912 109.0 109.5
H921 C92 H922 109.7 109.4
N9 C91 H911 108.8 109.5
N9 C91 H912 109.1 109.5
C91 N9 C4 125.1 126.3
C91 N9 C8 126.2 126.3
H911 C91 H912 110.5 109.5
C4 N9 C8 108.6 107.4
N9 C4 N3 133.7 134.8
N9 C4 C5 106.2 106.2
N9 C8 N7 109.9 109.7
N9 C8 S 125.1 125.1
N3 C4 C5 120.1 119.1
C4 N3 C2 120.6 120.7
C4 C5 C6 117.6 118.2
C4 C5 N7 108.3 107.3
N3 C2 N1 121.1 122.4
N3 C2 H2 119.5 118.8
N1 C2 H2 119.5 118.7
C2 N1 C6 121.5 121.1
N1 C6 N6 120.2 120.7
N1 C6 C5 119.2 118.5
N6 C6 C5 120.6 120.8
C6 N6 HN61 109.5 120.0
C6 N6 HN62 109.5 120.0
C6 C5 N7 134.2 134.5
HN61 N6 HN62 109.4 120.0
C5 N7 C8 107.1 109.4
N7 C8 S 125.1 125.2
C8 S C1' 101.8 100.0
S C1' C6' 120.4 120.0
S C1' C2' 120.0 120.0
C6' C1' C2' 119.7 120.0
C1' C6' C5' 120.4 120.0
C1' C6' H6' 119.8 120.0
C1' C2' C3' 120.0 120.0
C1' C2' BR 120.5 119.9
C5' C6' H6' 119.8 120.0
C6' C5' O3' 132.5 131.5
C6' C5' C4' 119.8 119.9
O3' C5' C4' 107.7 108.6
C5' O3' C'2 102.2 105.5
C5' C4' O1' 107.5 108.6
C5' C4' C3' 120.0 119.9
O3' C'2 O1' 101.2 103.7
O3' C'2 H'21 114.0 110.6
O3' C'2 H'22 112.3 110.6
O1' C'2 H'21 114.0 110.6
O1' C'2 H'22 112.3 110.5
C'2 O1' C4' 102.3 105.5
H'21 C'2 H'22 103.3 110.6
O1' C4' C3' 132.5 131.4
C4' C3' C2' 120.2 120.2
C4' C3' H3' 119.9 119.9
C2' C3' H3' 119.9 119.9
C3' C2' BR 119.5 120.0

Torsion Angles for H64

Atom I Atom J Atom K Atom L Angle (Experimental Model) Angle (Ideal Model)
H971 C97 C95 H972 120.0 240.0
H971 C97 C95 H973 240.0 120.0
H972 C97 C95 H973 120.0 240.0
C96 C95 C97 N94 121.3 240.0
C96 C95 C97 H95 241.0 120.0
C97 C95 C96 H961 227.1 60.0
C97 C95 C96 H962 107.1 180.0
C97 C95 C96 H963 347.1 300.0
N94 C95 C97 H95 119.6 240.0
C97 C95 N94 C93 279.0 85.0
C97 C95 N94 H94 39.0 198.8
C95 C97 H971 H972 240.0 120.0
C95 C97 H971 H973 120.0 240.0
H971 C97 C95 C96 54.2 300.0
H971 C97 C95 N94 292.8 60.0
H971 C97 C95 H95 173.2 180.0
H972 C97 H971 H973 240.0 120.0
C95 C97 H972 H971 120.0 240.0
C95 C97 H972 H973 240.0 120.0
H972 C97 C95 C96 294.2 60.0
H972 C97 C95 N94 172.9 180.0
H972 C97 C95 H95 53.2 300.0
H971 C97 H972 H973 120.0 240.0
C95 C97 H973 H971 240.0 120.0
C95 C97 H973 H972 120.0 240.0
H973 C97 C95 C96 174.1 180.0
H973 C97 C95 N94 52.8 300.0
H973 C97 C95 H95 293.2 60.0
H971 C97 H973 H972 240.0 120.0
C96 C95 C97 H971 54.2 300.0
C96 C95 C97 H972 294.2 60.0
C96 C95 C97 H973 174.1 180.0
C97 C95 C96 N94 238.2 120.0
C97 C95 C96 H95 118.5 240.0
N94 C95 C96 H95 240.3 120.1
C96 C95 N94 C93 156.6 205.0
C96 C95 N94 H94 276.6 318.8
H961 C96 C95 H962 120.0 240.0
H961 C96 C95 H963 240.0 120.0
H962 C96 C95 H963 120.0 240.0
N94 C95 C97 H971 292.8 60.0
N94 C95 C97 H972 172.9 180.0
N94 C95 C97 H973 52.8 300.0
C97 C95 N94 C96 122.4 240.0
C97 C95 N94 H95 241.5 119.9
C96 C95 N94 H95 119.1 239.9
N94 C95 C96 H961 348.9 300.1
N94 C95 C96 H962 228.9 60.0
N94 C95 C96 H963 108.9 180.0
C93 N94 C95 H94 240.0 246.2
C95 N94 C93 C92 193.8 180.0
C95 N94 C93 H931 74.0 300.0
C95 N94 C93 H932 313.8 60.0
H95 C95 C97 H971 173.2 180.0
H95 C95 C97 H972 53.2 300.0
H95 C95 C97 H973 293.2 60.0
C97 C95 H95 C96 239.5 120.0
C97 C95 H95 N94 120.0 240.1
C96 C95 H95 N94 240.5 120.1
H95 C95 C96 H961 108.6 180.0
H95 C95 C96 H962 348.6 300.0
H95 C95 C96 H963 228.6 60.0
H95 C95 N94 C93 37.5 325.1
H95 C95 N94 H94 157.5 78.8
H961 C96 C95 N94 348.9 300.1
H961 C96 C95 H95 108.6 180.0
C95 C96 H961 H962 240.0 120.0
C95 C96 H961 H963 120.0 239.9
H962 C96 H961 H963 240.0 119.9
H962 C96 C95 N94 228.9 60.0
H962 C96 C95 H95 348.6 300.0
C95 C96 H962 H961 120.0 240.0
C95 C96 H962 H963 240.0 120.0
H961 C96 H962 H963 120.0 240.1
H963 C96 C95 N94 108.9 180.0
H963 C96 C95 H95 228.6 60.0
C95 C96 H963 H961 240.0 120.1
C95 C96 H963 H962 120.0 240.0
H961 C96 H963 H962 240.0 119.9
C93 N94 C95 H95 37.5 325.1
C95 N94 C93 H94 120.0 113.8
C92 C93 N94 H931 119.7 240.0
C92 C93 N94 H932 240.0 120.0
N94 C93 C92 C91 172.0 180.0
N94 C93 C92 H921 52.2 300.0
N94 C93 C92 H922 292.0 60.0
H931 C93 N94 H932 120.3 240.0
H94 N94 C95 H95 157.5 78.8
C95 N94 H94 C93 239.7 246.2
H94 N94 C93 C92 73.8 66.2
H94 N94 C93 H931 314.0 186.2
H94 N94 C93 H932 193.8 306.2
C92 C93 N94 H94 73.8 66.2
N94 C93 C92 H931 240.3 120.0
N94 C93 C92 H932 120.0 240.0
H931 C93 C92 H932 239.7 120.1
C91 C92 C93 H921 119.9 240.0
C91 C92 C93 H922 240.0 120.0
C93 C92 C91 N9 187.2 180.0
C93 C92 C91 H911 67.8 300.0
C93 C92 C91 H912 307.2 60.0
H921 C92 C93 H922 120.1 240.1
H931 C93 N94 H94 314.0 186.2
N94 C93 H931 C92 120.3 240.0
N94 C93 H931 H932 240.2 120.0
C92 C93 H931 H932 119.9 240.0
H931 C93 C92 C91 291.7 60.0
H931 C93 C92 H921 171.9 180.1
H931 C93 C92 H922 51.8 300.0
H932 C93 N94 H94 193.8 306.2
N94 C93 H932 C92 239.5 120.0
N94 C93 H932 H931 119.7 240.0
C92 C93 H932 H931 240.2 120.0
H932 C93 C92 C91 52.1 300.0
H932 C93 C92 H921 292.2 60.0
H932 C93 C92 H922 172.1 180.0
C91 C92 C93 H931 291.7 60.0
C91 C92 C93 H932 52.1 300.0
C93 C92 C91 H921 240.1 120.0
C93 C92 C91 H922 120.0 240.0
H921 C92 C91 H922 239.9 120.0
N9 C91 C92 H911 119.5 240.0
N9 C91 C92 H912 240.0 120.0
C92 C91 N9 C4 88.0 269.7
C92 C91 N9 C8 265.8 90.0
H911 C91 C92 H912 120.5 240.0
H921 C92 C93 H931 171.9 180.1
H921 C92 C93 H932 292.2 60.0
C93 C92 H921 C91 120.2 240.0
C93 C92 H921 H922 240.1 120.0
C91 C92 H921 H922 119.9 240.0
H921 C92 C91 N9 307.1 60.0
H921 C92 C91 H911 187.6 180.0
H921 C92 C91 H912 67.1 300.0
H922 C92 C93 H931 51.8 300.0
H922 C92 C93 H932 172.1 180.0
C93 C92 H922 C91 239.7 120.0
C93 C92 H922 H921 119.8 240.0
C91 C92 H922 H921 240.1 120.0
H922 C92 C91 N9 67.2 300.0
H922 C92 C91 H911 307.8 60.0
H922 C92 C91 H912 187.2 180.0
N9 C91 C92 H921 307.1 60.0
N9 C91 C92 H922 67.2 300.0
C92 C91 N9 H911 240.5 120.0
C92 C91 N9 H912 120.0 240.0
H911 C91 N9 H912 239.5 120.1
C4 N9 C91 C8 182.2 179.7
C91 N9 C4 N3 358.3 0.7
C91 N9 C4 C5 178.0 179.9
C91 N9 C8 N7 181.9 179.9
C91 N9 C8 S 0.1 360.0
H911 C91 C92 H921 187.6 180.0
H911 C91 C92 H922 307.8 60.0
C92 C91 H911 N9 120.7 240.0
C92 C91 H911 H912 240.3 120.0
N9 C91 H911 H912 119.7 240.0
H911 C91 N9 C4 207.5 149.8
H911 C91 N9 C8 25.3 330.0
H912 C91 C92 H921 67.1 300.0
H912 C91 C92 H922 187.2 180.0
C92 C91 H912 N9 239.0 120.0
C92 C91 H912 H911 119.5 240.0
N9 C91 H912 H911 240.5 120.0
H912 C91 N9 C4 328.1 29.7
H912 C91 N9 C8 145.8 210.0
C4 N9 C91 H911 207.5 149.8
C4 N9 C91 H912 328.1 29.7
C91 N9 C4 C8 178.1 180.2
C4 N9 C8 N7 0.0 0.2
C4 N9 C8 S 178.2 180.2
N3 C4 N9 C5 180.3 180.8
N9 C4 N3 C2 179.5 179.6
N9 C4 C5 C6 180.4 180.2
N9 C4 C5 N7 0.1 0.3
C8 N9 C91 H911 25.3 330.0
C8 N9 C91 H912 145.8 210.0
C91 N9 C8 C4 181.9 179.8
C8 N9 C4 N3 180.2 180.5
C8 N9 C4 C5 359.9 359.7
C5 N7 C8 N9 0.1 0.0
N7 C8 N9 S 181.8 180.0
N9 C8 S C1' 291.3 185.1
N3 C4 N9 C8 180.2 180.5
N9 C4 N3 C5 179.7 179.1
N3 C4 C5 C6 0.1 359.5
N3 C4 C5 N7 179.9 179.7
C4 N3 C2 N1 0.1 359.8
C4 N3 C2 H2 180.2 179.7
C5 C4 N9 C8 359.9 359.7
N9 C4 C5 N3 180.2 180.6
C5 C4 N3 C2 359.8 0.5
N1 C6 C5 C4 360.0 0.2
N6 C6 C5 C4 180.4 180.3
C6 C5 C4 N7 180.2 179.8
C4 C5 N7 C8 359.9 359.8
C2 N3 C4 C5 359.8 0.5
N1 C2 N3 H2 180.0 180.1
N3 C2 N1 C6 360.0 360.0
N3 C2 N1 H2 180.0 179.9
C2 N1 C6 N6 179.6 180.0
C2 N1 C6 C5 360.0 0.1
N3 C2 H2 N1 180.0 180.1
H2 C2 N1 C6 180.0 180.0
C4 C5 C6 N1 360.0 0.2
C6 N1 C2 H2 180.0 180.0
N6 C6 N1 C5 179.6 179.9
N1 C6 N6 HN61 67.4 180.0
N1 C6 N6 HN62 307.4 0.1
N1 C6 C5 N7 180.3 180.0
C4 C5 C6 N6 180.4 180.3
N1 C6 N6 C5 180.4 180.1
N6 C6 C5 N7 0.7 0.0
HN61 N6 C6 HN62 120.0 180.0
C4 C5 C6 N7 179.7 180.2
N1 C6 C5 N6 179.6 179.9
C5 C6 N6 HN61 247.0 360.0
C5 C6 N6 HN62 127.0 180.0
C6 C5 N7 C8 179.6 180.0
HN61 N6 C6 C5 247.0 360.0
C6 N6 HN61 HN62 240.0 180.0
HN62 N6 C6 C5 127.0 180.0
C6 N6 HN62 HN61 120.0 180.0
N9 C8 N7 C5 0.1 0.0
C4 C5 N7 C6 180.3 179.8
C5 N7 C8 S 181.9 180.0
N9 C8 N7 S 178.2 180.0
N7 C8 S C1' 109.2 5.2
N9 C8 S N7 182.1 180.0
C8 S C1' C6' 331.1 256.3
C8 S C1' C2' 151.6 76.1
C6' C1' S C2' 179.6 180.2
S C1' C6' C5' 180.2 180.0
S C1' C6' H6' 0.2 360.0
S C1' C2' C3' 179.7 179.8
S C1' C2' BR 0.2 0.2
S C1' C6' C2' 180.4 179.8
C6' C1' C2' C3' 0.1 359.6
C6' C1' C2' BR 180.6 180.0
C5' C6' C1' H6' 180.0 180.0
C1' C6' C5' O3' 179.0 180.0
C1' C6' C5' C4' 0.1 0.1
S C1' C2' C6' 179.6 180.2
C2' C1' C6' C5' 359.8 0.2
C2' C1' C6' H6' 179.8 180.2
C4' C3' C2' C1' 0.0 0.4
C1' C2' C3' H3' 180.0 180.3
C3' C2' C1' BR 179.5 179.6
C5' C6' C1' C2' 359.8 0.2
C1' C6' C5' H6' 180.0 180.0
O3' C5' C6' C4' 178.8 179.9
C6' C5' O3' C'2 207.7 197.3
C6' C5' C4' O1' 178.4 180.0
C6' C5' C4' C3' 360.0 359.9
H6' C6' C1' C2' 179.8 180.2
C1' C6' H6' C5' 180.0 180.0
H6' C6' C5' O3' 359.0 360.0
H6' C6' C5' C4' 180.2 180.0
O3' C5' C6' H6' 359.0 360.0
C6' C5' O3' C4' 181.1 180.1
O3' C5' C4' O1' 359.3 0.0
O3' C5' C4' C3' 180.9 180.0
C5' O3' C'2 O1' 318.6 332.8
C5' O3' C'2 H'21 195.7 91.4
C5' O3' C'2 H'22 78.6 214.3
C4' C5' C6' H6' 180.2 180.0
C6' C5' C4' O3' 179.1 180.0
C4' C5' O3' C'2 26.6 17.3
C'2 O1' C4' C5' 334.5 342.7
O1' C4' C5' C3' 178.4 180.1
C5' C4' C3' C2' 359.9 359.8
C5' C4' C3' H3' 179.9 180.0
C'2 O3' C5' C4' 26.6 17.3
O1' C'2 O3' H'21 122.9 241.4
O1' C'2 O3' H'22 240.0 118.5
O3' C'2 O1' C4' 41.0 27.2
H'21 C'2 O3' H'22 117.1 237.1
C5' C4' O1' C'2 334.5 342.7
O3' C'2 O1' H'21 237.1 118.6
O3' C'2 O1' H'22 120.0 241.4
H'21 C'2 O1' H'22 242.9 122.8
C'2 O1' C4' C3' 152.6 162.7
O3' C'2 H'21 O1' 115.6 245.7
O3' C'2 H'21 H'22 237.8 122.9
O1' C'2 H'21 H'22 122.2 237.2
H'21 C'2 O1' C4' 163.9 268.6
O3' C'2 H'22 O1' 246.7 114.3
O3' C'2 H'22 H'21 123.3 237.1
O1' C'2 H'22 H'21 236.7 122.8
H'22 C'2 O1' C4' 281.0 145.8
C5' C4' O1' C3' 181.9 179.9
C4' O1' C'2 H'21 163.9 268.6
C4' O1' C'2 H'22 281.0 145.8
O1' C4' C3' C2' 182.0 179.8
O1' C4' C3' H3' 2.0 359.9
C1' C2' C3' C4' 0.0 0.4
C5' C4' C3' O1' 177.9 180.1
C2' C3' C4' H3' 180.0 179.9
C4' C3' C2' BR 179.6 180.0
C1' C2' C3' BR 180.5 180.4
C4' C3' C2' H3' 180.0 180.1
C4' C3' H3' C2' 180.0 179.9
H3' C3' C2' BR 359.6 359.8
C1' C2' BR C3' 179.5 179.6
BR C2' C3' H3' 359.6 359.8