[HTML][HTML] Apparent suicide inactivation of human lymphoblast S-adenosylhomocysteine hydrolase by 2'-deoxyadenosine and adenine arabinoside. A basis for direct …
MS Hershfield - Journal of Biological Chemistry, 1979 - Elsevier
MS Hershfield
Journal of Biological Chemistry, 1979•ElsevierAdenosylhomocysteine hydrolase from human lymphoblasts binds 2'-deoxy [3H] adenosine
tightly. Binding is associated with time-dependent, saturable, irreversible inactivation of
catalytic activity which occurs with first order kinetics, suggesting “suicide” inactivation.
Adenine arabinoside produces similar inactivation but is more potent. These results suggest
a basis for a heretofore unrecognized mechanism of action for these and other analogs of
adenosine, in which toxicity results from actions of the nucleosides themselves, rather than …
tightly. Binding is associated with time-dependent, saturable, irreversible inactivation of
catalytic activity which occurs with first order kinetics, suggesting “suicide” inactivation.
Adenine arabinoside produces similar inactivation but is more potent. These results suggest
a basis for a heretofore unrecognized mechanism of action for these and other analogs of
adenosine, in which toxicity results from actions of the nucleosides themselves, rather than …
Adenosylhomocysteine hydrolase from human lymphoblasts binds 2'-deoxy[3H]adenosine tightly. Binding is associated with time-dependent, saturable, irreversible inactivation of catalytic activity which occurs with first order kinetics, suggesting “suicide” inactivation. Adenine arabinoside produces similar inactivation but is more potent. These results suggest a basis for a heretofore unrecognized mechanism of action for these and other analogs of adenosine, in which toxicity results from actions of the nucleosides themselves, rather than from nucleotides to which they may be converted.
Elsevier