Physical maps of the six smallest chromosomes of Saccharomyces cerevisiae at a resolution of 2.6 kilobase pairs.

Physical maps of the six smallest chromosomes of Saccharomyces cerevisiae are presented. In order of increasing size, they are chromosomes I, VI, III, IX, V and VIII, comprising 2.49 megabase pairs of DNA.

Detection and characterization of chimeric yeast artificial-chromosome clones.

Methods for the construction of yeast artificial-chromosome (YAC) clones have been designed to isolate single, large (100-1000 kb) segments of chromosomal DNA. It is apparent from early experience with this cloning system that the major artifact in YAC clones involves the formation of YACs that contain two or more unrelated pieces of DNA. Such "chimeric" YACs are not easily recognized, particularly in libraries constructed from the total DNA of an organism.

Random-clone strategy for genomic restriction mapping in yeast.

An approach to global restriction mapping is described that is applicable to any complex source DNA. By analyzing a single restriction digest for each member of a redundant set of lambda clones, a data base is constructed that contains fragment-size lists for all the clones. The clones are then grouped into subsets, each member of which is related to at least one other member by a significant overlap.

A new method for purifying lambda DNA from phage lysates.

A new method for preparing small quantities of lambda DNA from phage lysates has been developed. The protocol is based on the concentration and purification of bacteriophage particles from crude lysates using small DEAE-cellulose columns. This chromatographic step gives an absolute separation of the lambda DNA from the cellular nucleic acids and a 20-fold enrichment relative to the major soluble proteins in crude lysates, while effecting a 10-fold concentration of the phage.