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Target Concepts:
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Query: EC:2.7.7.6 (
RNA polymerase
)
34,946
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The growth defect of a lambda phage carrying a recA-lacZ fusion was used to select mutations that reduced recA expression. Nine single base changes in the recA promoter were isolated that reduced both induced and basal (repressed) levels of expression. Deletion analysis of the promoter region and mapping of transcripts indicated that there is one main promoter responsible for both basal and induced expression. Some of the mutants displayed a lowered induction ratio, raising the possibility that there is a second, weak promoter that is not regulated by the SOS response. When one of the mutants was examined, it showed normal affinity for
LexA repressor
binding to the operator site. Binding of
RNA polymerase
to this mutant promoter, however, was much reduced. Further binding experiments suggested that LexA does not block
RNA polymerase
binding to the recA promoter, but inhibits a later step in initiation.
...
PMID:The promoter of the recA gene of Escherichia coli. 191 46
In order to follow the fast kinetics of abortive initiation (lag time from 1 ms to 10 s), we have built a stopped-flow apparatus equipped for fluorescence detection. The small volume used for each assay (35 microliters), and the short dead time (approximately 0.5 ms) are the essential advantages of this apparatus. Supercoiling of DNA affects considerably the initiation of transcription from the uvrA promoter. It decreases the lag time due to the isomerisation process 3-fold. Nevertheless, it does not change significantly the product KBk2, which is indicative of promoter strength and shows that uvrA is an 'association-limited' promoter. The presence of the
LexA repressor
increases the lag time considerably. At least for small
RNA polymerase
concentrations this increase is stronger for supercoiled than for linearized DNA.
...
PMID:Fast abortive initiation of uvrA promoter in a supercoiled plasmid studied by stopped-flow techniques. 303 89
A comparative study of the interaction of the
LexA repressor
of Escherichia coli and of its amino-terminal DNA binding domain to the uvrA operator has been undertaken. Most of the binding constants are determined from competition experiments with
RNA polymerase
by measuring the time-course of the abortive initiation transcriptional activity. The presence of repressor increases the lag time, tau, without affecting the final maximum activity. The inhibition of transcription by LexA, at least in the case of the uvrA gene, is thus a transient, time-dependent phenomenon, because once the
RNA polymerase
is engaged in a stable "open" complex, it is quasi-irreversibly trapped in this state. A study of the binding constants as a function of ionic strength suggests the formation of 5.5(+/- 1) salt bridges between the uvrA operator and a LexA dimer. Surprisingly, the binding affinity of the amino-terminal domain was only about one order of magnitude smaller than that of the entire
LexA repressor
. The determination of the binding constant of the
RNA polymerase
to the "closed" uvrA promoter (KB approximately 1 X 10(7) to 2 X 10(7) M-1) allowed us to determine theoretical repression curves for the two repressor species. These calculations show that the binding constant found for LexA is sufficiently high to account for substantial or complete repression, and that of the amino-terminal domain is sufficiently low to account for partial or nearly full induction. Under solvent conditions used by others for the determination of binding constants to other SOS operators by DNAase I footprinting, the uvrA operator turns out to be a rather weak one (K approximately 3 X 10(7) M-1), being comparable with that of the uvrB gene. The uvrA promoter is "association-limited" with a KB X k2 product fitting very nicely the homology score for the promoter of 55.
...
PMID:Promoter properties and negative regulation of the uvrA gene by the LexA repressor and its amino-terminal DNA binding domain. 329 58
Exposure of Escherichia coli to UV irradiation or nalidixic acid, which induce both the SOS and heat shock responses, led to a 3-4-fold increase in the amount of the beta subunit of DNA polymerase III holoenzyme, as assayed by Western blot analysis using anti-beta antibodies. Such an induction was observed also in a delta rpoH mutant lacking the heat shock-specific sigma 32 subunit of
RNA polymerase
, but it was not observed in recA13 or lexA3 mutants, in which the SOS response cannot be induced. Mapping of transcription initiation sites of the dnaN gene, encoding the beta subunit, using the S1 nuclease protection assay showed essentially no induction of transcription upon UV irradiation, indicating that induction is regulated primarily at the post-transcriptional level. Analysis of translational gene fusions of the dnaN gene, encoding the beta subunit, to the lacZ reporter gene showed induction of beta-galactosidase activity upon UV irradiation of cells harboring the fusion plasmids. Elimination of a 5' flanking DNA sequence in which the dnaN promoters P1 and P2 were located, did not affect the UV inducibility of the gene fusions. Thus, element(s) present from P3 downstream were sufficient for the UV induction. The induction of the dnaN-lacZ gene fusions was dependent on the recA and lexA gene products, but not on the rpoH gene product, in agreement with the immunoblot analysis. The dependence of dnaN induction on the SOS regulators was not mediated via classical repression by the
LexA repressor
, since the dnaN promoter does not contain a sequence homologous to the LexA binding site, and dnaN mRNA was not inducible by UV light. This suggests that SOS control may be imposed indirectly, by a post-transcriptional mechanism. The increased amount of the beta subunit is needed, most likely, for increased replication and repair activities in cells which have been exposed to UV radiation.
...
PMID:Beta subunit of DNA polymerase III holoenzyme is induced upon ultraviolet irradiation or nalidixic acid treatment of Escherichia coli. 751 86
Initiation of
RNA polymerase II
-directed transcription is mediated by DNA sequence specific activator proteins interacting with components of the basal transcription machinery. NFI/CTF is a family of such binding proteins which have been shown to stimulate transcription via proline-rich activation domains. In order to identify residues crucial for its activator function, a pool of CTF1 mutants was cloned and fused to the bacterial
repressor LexA
. Transcriptional activation of these constructs was monitored in a Saccharomyces cerevisiae reporter assay. Our studies reveal the existence of a core domain in CTF1 between residues 463 and 508 essential for transcriptional activation functions. It contains the sequence motif SPTSPSYSP, which is strongly related to the heptapeptide repeat YSPTSPS present in the carboxyterminal domain (CTD) of
RNA polymerase II
. Removal of the entire CTD related motif, as well as substitution of key amino acids therein, abolish CTF1 mediated transcriptional activation.
...
PMID:Transcriptional activation of NFI/CTF1 depends on a sequence motif strongly related to the carboxyterminal domain of RNA polymerase II. 804 23
