transfected into eukaryotic cells. Any expression of the reporter gene will be driven by
the foreign DNA which must therefore contain promoter sequences (Fig. 6.42). These
plasmids and other reporter genes such as those usinggreen fluorescent protein(GFP)
or the firefly luciferase gene allow quantitation of gene transcription in response to
transcriptional activators.
The binding of a regulatory protein or transcription factor to a specific DNA site results
in a complex that may be analysed by the technique termedgel retardation. Under gel
electrophoresis the migration of a DNA fragment bound to a protein of a relatively large
mass will be retarded in comparison to the DNA fragment alone. For gel retardation to be
useful the region containing the promoter DNA element must be digested or mapped with
a restriction endonuclease before it is complexed with the protein. The location of the
promoter may then be defined by finding the position on the restriction map of the
fragment that binds to the regulatory protein and therefore retards it during electrophor-
esis. One potential problem with gel retardation is the ability to define the precise
nucleotide binding region of the protein, since this depends on the accuracy and detail
of the restriction map and the convenience of the restriction sites. However it is a useful
first step in determining the interaction of a regulatory protein with a DNA binding site.
DNA footprinting relies on the fact that the interaction of a DNA-binding
protein with a regulatory DNA sequence will protect that DNA sequence from degrad-
ation by an enzyme such as DNase I. The DNA regulatory sequence is first labelled
at one end with a radioactive label and then mixed with the DNA-binding proteinPromoter CAT gene
pCATTranscription and translationpCAT
CAT proteinTransfection
of cellsIncubate CAT protein 37°C
[^14 C]chloramphenicol acetyl-CoA Lyse cellsInactive promoter Active promoterAceylated
chloramphenicolChloramphenicolAutoradiographFig. 6.42Assay for promoters using the reporter gene for chloramphenicol acetyl transferase (CAT).245 6.8 Analysing genes and gene expression