product rather than the DNA inserted into the vector. This screening is therefore
undertaken with antibody probes directed against the protein of interest (Section
6.5.4). Other features that make this a useful cloning vector are the ability to produce
RNA transcripts termed cRNA orriboprobes. This is possible because two promoters
for RNA polymerase enzymes exist in the vector, a T7 and a T3 promoter which flank
the MCS (Section 6.4.2).
One of the most useful features oflZapisthatithasbeendesignedtoallow
automatic excisionin vivoof a small 2.9 kb colony-producing vector termed a phage-
mid, pBluescript SK (Section 6.3.3). This technique is sometimes termedsingle-stranded
DNA rescueand occurs as the result of a process termedsuperinfectionwhere helper
phage are added to the cells which are grown for an additional period of approximately
4 h (Fig. 6.19).T IDNA inserted into multiple cloning sitePhagemid
vector siteInfectE.coliAdd helper phage (e.g. M13R408)Excision of phagemid from λZAP vectorf1(+/–) originAmpicillin
resistance
geneCol E1
plasmid originDNA inserted into
Bluescript SK+/–2.96 kb multiple cloning siteCos
Cos
A–J CI857ApR lacZFig. 6.19Single-stranded DNA rescue of phagemid fromlZap. The single-stranded phagemid pBluescript SK may be
excised fromlZap by addition of helper phage. This provides the necessary proteins and factors for transcription
between the I and T sites in the parent phage to produce the phagemid with the DNA cloned into the parent vector.215 6.3 Cloning vectors