Assembly of high-resolution restriction maps based on multiple complete digests of a redundant set of overlapping clones.

An approach to restriction-site mapping and contig building that uses fragment-size data from multiple complete digests of a set of clones that oversample a genomic region is presented. Maps containing both fragment-length data and clone-end data are maintained for each restriction enzyme. Synchronization between the maps for the different enzymes is achieved by requiring the clone-end maps for all enzymes to be compatible. Basic concepts that underlie multiple-complete-digest mapping--including the match/merge approach to map incorporation, extension vs assimilation, ambiguity, and clone-end compatibility--are presented. An initial application of multiple-complete-digest mapping to real data on a set of cosmid clones suggests that this mapping method has exceptional power to produce accurate maps that are well suited to the needs of large-scale DNA-sequencing projects.