O6-Alkylguanines, important DNA adducts formed by alkylating agents, can lead to mutations and to cell death unless repaired. The major pathway of repair involves the transfer of the alkyl group from the DNA to a cysteine acceptor site in the protein O6-alkylguanine-DNA alkyltransferase. The alkyltransferase brings about this transfer without need for cofactors and the DNA is restored completely by the action of a single protein, but the cysteine acceptor site is not regenerated and the number of O6-alkylguanines that can be repaired is equal to the number of active alkyltransferase molecules. The alkylated form of the protein is unstable in mammalian cells and is degraded rapidly. Cloning of the cDNAs for the alkyltransferase proteins from bacteria, yeast, and mammals indicates a significant similarity, particularly in the region surrounding the cysteine acceptor site. There is a major difference in the regulation of the alkyltransferase between mammalian cells and certain bacteria, where it is induced a...