Methods in Molecular Biology • 16 Enzymes of Molecular Biology

(Nancy Kaufman) #1
Restriction Enzymes 185

removal of
single
restriction mis-match
site I primer
aa change..


change of
restriction
site 2


  1. Hybridization:
    ss vector DNA +
    ds gap fragment +
    mis-match primer

  2. FiIHn with DNA polymerase
    and ligase

  3. Transformation into a repair
    deficient strain

  4. Cleavage of the plasmid DNA
    with restriction enzyme 1
    (enrichment of mutant plasmid)

  5. Transformation into a normal
    strain

  6. Screening with restriction
    enzyme 2 (identification of
    mutant plasmid)

  7. DNA sequencing


Fig. 3. Use of restriction enzyme catalyzed DNA cleavage to increase the marker
yield of a site-directed mutagenesis experiment and to screen for positive clones.

desired mutant. Identification of positive clones can be done by screen-
ing for a restriction site introduced together with the desired mutation
on the mismatch primer or direct sequencing (Fig. 3).
Note Added in Proof
After completion of this review, many new discoveries regarding
restriction enzymes were made, only a few of which and only those
that are of general importance are considered in this note.
The structure of the EcoRI-DNA recognition complex has been
revised (199): According to the new structure (reviewed in ref. 200),
the recognition interactions comprise 16 protein-base hydrogen bonds
to the purines and pyrimidines, and also van der Waal's contacts to all
of the pyrimidines of the recognition sequence. Furthermore, hydro-
gen bonds and electrostatic contacts to the phosphates within and
outside of the recognition sequence most likely contribute to the speci-
ficity of DNA binding by EcoRI. Direct interactions are buttressed by
indirect ones between amino acid residues involved directly in base-
specific contacts and amino acids nearby. In contrast to the earlier
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