Cloning vectors

There is a large variety of potential vectors for cloned genes. The vectors differ in different classes of organisms.

Prokaryotes and lower eukaryotes

Three types of vectors have been used in these organisms: plasmids, bacteriophages, and cosmids. Plasmids are extrachromosomal DNA sequences that are stably inherited. Escherichia coli and its plasmids constitute the most versatile type of host-vector system known for DNA cloning. Several natural plasmids, such as ColE1, have been used as cloning vehicles in E. coli. In addition, a variety of derivatives of natural plasmids have been constructed by combining DNA segments and desirable qualities of older cloning vehicles. The most versatile and widely used of these plasmids is pBR322. Transformation in yeast has been demonstrated using a number of plasmids, including vectors derived from the naturally occurring 2μ plasmid of yeast.

Bacteriophage lambda is a virus of E. coli. Several lambda-derived vectors have been developed for cloning in E. coli, and for the isolation of particular genes from eukaryotic genomes. These lambda derivatives have several advantages over plasmids: (1) Thousands of recombinant phage plaques can easily be screened for a particular DNA sequence on a single petri dish by molecular hybridization. (2) Packaging of recombinant DNA in laboratory cultures provides a very efficient means of DNA uptake by the bacteria. (3) Thousands of independently packaged recombinant phages can be easily replicated and stored in a single solution as a “library” of genomic sequences.
Plasmids have also been constructed that contain the phage cos DNA site, required for packaging into the phage particles, and ColE1 DNA segments, required for plasmid replication. These plasmids have been termed cosmids. The recombinant cosmid DNA is injected into a host and circularizes like phage DNA but replicates as a plasmid. Transformed cells are selected on the basis of a vector drug resistance marker.