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(Received for publication, September 27,
1995; and in revised form, February 21, 1996) During transcription initiation from galP2, one of the
two promoters of the Escherichia coli galactose operon with an
initially transcribed sequence of pppAUUUC, RNA polymerase (RNAP) is
known to engage nonproductive stuttering synthesis, which is sensitive
to the concentration of UTP. This study examines the effect of this
nonproductive synthesis on promoter clearance and determines other
parameters that might affect stuttering synthesis by analyzing a mutant
RNAP, RpoB3449, that has altered its function at this process at galP2. RpoB3449 has dramatically diminished stuttering
synthesis, and consequently, it has increased the rate of productive
initiation due to its enhanced rate of promoter clearance of galP2 compared with wild-type RNAP. Thus, a direct linkage between
promoter clearance and productive transcription is demonstrated. The
mechanism by which the mutant RNAP has altered the switch between
nonproductive stuttering synthesis and productive initiation during
promoter clearance is studied. Apparently, RpoB3449 has increased its
efficiency in incorporating CTP at the +5 position of the galP2 transcript leading to its reduced stuttering synthesis,
indicating that the rate of an RNAP incorporating the CTP after a
stretch of uridine residues is important for promoter clearance at galP2. Because RpoB3449 demonstrates ``wild-type''
stuttering synthesis at the mutant galP2 promoter, which
contains the 6 residue at the +5 position, it indicates that the
mutant RNAP has altered in binding CTP at this context. Further
experiments indicate that it is the +5 position per se of
the galP2 sequence rather than a particular nucleotide at that
position that is critical in determining the switch between the two
alternate pathways during transcription initiation. A checkpoint model
for the switch between nonproductive and productive initiations during
promoter clearance is discussed.
Volume 271,
Number 20,
Issue of May 17, 1996 pp. 11659-11667
©1996 by The American Society for Biochemistry and Molecular Biology, Inc.
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