Isolation of passenger DNA

Passenger DNA may be isolated in a number of ways; the most common of these involves DNA restriction. Restriction endonucleases make possible the cleavage of high-molecular-weight DNA. Although three different classes of these enzymes have been described, only type II restriction endonucleases have been used extensively in the manipulation of DNA. Type II restriction endonucleases are DNAases that recognize specific short nucleotide sequences (usually 4 to 6 base pairs in length), and then cleave both strands of the DNA duplex, generating discrete DNA fragments of defined length and sequence. A number of restriction enzymes make staggered cuts in the two DNA strands, generating single-stranded termini. See also Restriction enzyme.

The various fragments generated when a specific DNA is cut by a restriction enzyme can be easily resolved as bands of distinct molecular weights by agarose gel electrophoresis. Specific sequences of these bands can be identified by a technique known as Southern blotting. In this technique, DNA restriction fragments resolved on a gel are denatured and blotted onto a nitrocellulose filter. The filter is incubated together with a radioactively labeled DNA or RNA probe specific for the gene under study. The labeled probe hybridizes to its complement in the restricted DNA, and the regions of hybridization are detected autoradiographically. Fragments of interest can then be eluted out of these gels and used for cloning. Purification of particular DNA segments prior to cloning reduces the number of recombinant that must later be screened. See also Electrophoresis.

Another method that has been used to generate small DNA fragments is mechanical shearing. Intense personification of high-molecular-weight DNA with ultrasound, or high-speed stirring in a blender, can both be used to produce DNA fragments of a certain size range. Shearing results in random breakage of DNA, producing termini consisting of short, single-stranded regions. Other sources include DNA complementary to poly(A) RNA, or cDNA, which is synthesized in the test tube, and short oligonucleotides that are synthesized chemically.