| Cytosine Component Index |
 | 2'-deoxycytidine-5'-phosphate |
| Model constructed for 2'-deoxycytidine-5'-phosphate from subcomponents for base, sugar and phosphate. The sugar is deoxyribose in the C2'-endo conformation, and geometries for the gamma torsion angle (synclinal), the chi torsion angle (antiperiplanar), and the C3*-O3* and C5*-O5* bonds are inserted from other models. |
 | 2'-deoxycytidine-5'-phosphate |
| Model constructed for 2'-deoxycytidine-5'-phosphate from subcomponents for base, sugar and phosphate. The sugar is deoxyribose in the C3'-endo conformation, and geometries for the gamma torsion angle (synclinal), the chi torsion angle (antiperiplanar), and the C3*-O3* and C5*-O5* bonds are inserted from other models. |
 | protonated 2'-deoxycytidine-5'-phosphate |
| Model constructed for protonated 2'-deoxycytidine-5'-phosphate from subcomponents for protonated base, sugar and phosphate. The sugar is deoxyribose in the C2'-endo conformation, and geometries for the gamma torsion angle (synclinal), the chi torsion angle (antiperiplanar), and the C3*-O3* and C5*-O5* bonds are inserted from other models. |
 | protonated 2'-deoxycytidine-5'-phosphate |
| Model constructed for protonated 2'-deoxycytidine-5'-phosphate from subcomponents for protonated base, sugar and phosphate. The sugar is deoxyribose in the C3'-endo conformation, and geometries for the gamma torsion angle (synclinal), the chi torsion angle (antiperiplanar), and the C3*-O3* and C5*-O5* bonds are inserted from other models. |
 | 2'-deoxycytidine |
| Model constructed for 2'-deoxycytidine from subcomponents for base and sugar. The sugar is deoxyribose in the C2'-endo conformation, and geometries for the gamma torsion angle (synclinal), the chi torsion angle (antiperiplanar), and the C3*-O3* and C5*-O5* bonds are inserted from other models. |
 | 2'-deoxycytidine |
| Model constructed for 2'-deoxycytidine from subcomponents for base and sugar. The sugar is deoxyribose in the C3'-endo conformation, and geometries for the gamma torsion angle (synclinal), the chi torsion angle (antiperiplanar), and the C3*-O3* and C5*-O5* bonds are inserted from other models. |
 | protonated 2'-deoxycytidine |
| Model constructed for protonated 2'-deoxycytidine from subcomponents for protonated base and sugar. The sugar is deoxyribose in the C2'-endo conformation, and geometries for the gamma torsion angle (synclinal), the chi torsion angle (antiperiplanar), and the C3*-O3* and C5*-O5* bonds are inserted from other models. |
 | protonated 2'-deoxycytidine |
| Model constructed for protonated 2'-deoxycytidine from subcomponents for protonated base and sugar. The sugar is deoxyribose in the C3'-endo conformation, and geometries for the gamma torsion angle (synclinal), the chi torsion angle (antiperiplanar), and the C3*-O3* and C5*-O5* bonds are inserted from other models. |
 | cytidine-5'-phosphate |
| Model constructed for cytidine-5'-phosphate from subcomponents for base, sugar and phosphate. The sugar is ribose in the C2'-endo conformation, and geometries for the gamma torsion angle (synclinal), the chi torsion angle (antiperiplanar), and the C3*-O3* and C5*-O5* bonds are inserted from other models. |
 | cytidine-5'-phosphate |
| Model constructed for cytidine-5'-phosphate from subcomponents for base, sugar and phosphate. The sugar is ribose in the C3'-endo conformation, and geometries for the gamma torsion angle (synclinal), the chi torsion angle (antiperiplanar), and the C3*-O3* and C5*-O5* bonds are inserted from other models. |
 | protonated cytidine-5'-phosphate |
| Model constructed for protonated cytidine-5'-phosphate from subcomponents for protonated base, sugar and phosphate. The sugar is ribose in the C2'-endo conformation, and geometries for the gamma torsion angle (synclinal), the chi torsion angle (antiperiplanar), and the C3*-O3* and C5*-O5* bonds are inserted from other models. |
 | protonated cytidine-5'-phosphate |
| Model constructed for protonated cytidine-5'-phosphate from subcomponents for protonated base, sugar and phosphate. The sugar is ribose in the C3'-endo conformation, and geometries for the gamma torsion angle (synclinal), the chi torsion angle (antiperiplanar), and the C3*-O3* and C5*-O5* bonds are inserted from other models. |
 | cytidine |
| Model constructed for cytidine from subcomponents for base and sugar. The sugar is ribose in the C2'-endo conformation, and geometries for the gamma torsion angle (synclinal), the chi torsion angle (antiperiplanar), and the C3*-O3* and C5*-O5* bonds are inserted from other models. |
 | cytidine |
| Model constructed for cytidine from subcomponents for base and sugar. The sugar is ribose in the C3'-endo conformation, and geometries for the gamma torsion angle (synclinal), the chi torsion angle (antiperiplanar), and the C3*-O3* and C5*-O5* bonds are inserted from other models. |
 | protonated cytidine |
| Model constructed for protonated cytidine from subcomponents for protonated base and sugar. The sugar is ribose in the C2'-endo conformation, and geometries for the gamma torsion angle (synclinal), the chi torsion angle (antiperiplanar), and the C3*-O3* and C5*-O5* bonds are inserted from other models. |
 | protonated cytidine |
| Model constructed for protonated cytidine from subcomponents for protonated base and sugar. The sugar is ribose in the C3'-endo conformation, and geometries for the gamma torsion angle (synclinal), the chi torsion angle (antiperiplanar), and the C3*-O3* and C5*-O5* bonds are inserted from other models. |
 | cytosine |
| Model constructed for cytosine with an N1-glycosidic linkage. |
 | protonated cytosine |
| Model constructed for protonated cytosine with an N1-glycosidic linkage. |
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