| 937 - 937 |
Introduction to RNA/DNA cleavage
Bashkin JK |
| 939 - 960 |
Inorganic mimics of ribonucleases and ribozymes : From random cleavage to sequence-specific chemistry to catalytic antisense drugs
Trawick BN, Daniher AT, Bashkin JK |
| 961 - 990 |
Kinetics and mechanisms for the cleavage and isomerization of the phosphodiester bonds of RNA by Bronsted acids and bases
Oivanen M, Kuusela S, Lonnberg H |
| 991 - 1026 |
The hydrolysis of RNA : From theoretical calculations to the hammerhead ribozyme-mediated cleavage of RNA
Zhou DM, Taira K |
| 1027 - 1044 |
Mechanisms of ribozyme-mediated RNA cleavage
Kuimelis RG, McLaughlin LW |
| 1045 - 1065 |
Ribonuclease A
Raines RT |
| 1067 - 1087 |
Metal activation of enzymes in nucleic acid biochemistry
Cowan JA |
| 1089 - 1107 |
Oxidative strand scission of nucleic acids : Routes initiated by hydrogen abstraction from the sugar moiety
Pogozelski WK, Tullius TD |
| 1109 - 1151 |
Oxidative nucleobase modifications leading to strand scission
Burrows CJ, Muller JG |
| 1153 - 1169 |
Cleavage of nucleic acids by bleomycin
Burger RM |
| 1171 - 1200 |
Photocleavage of nucleic acids
Armitage B |
| 1201 - 1219 |
Photoprocesses of copper complexes that bind to DNA
McMillin DR, McNett KM |
| 1221 - 1261 |
Chemistry of glycosylases and endonucleases involved in base-excision repair
David SS, Wiliams SD |
