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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have used a plasmid antitermination test system to examine the response of an Escherichia coli rRNA operon antiterminator to transcription through Rho-dependent and Rho-independent terminator-containing fragments. We also monitored transcription through multiple copies of a terminator to explore the mechanism of rrn antitermination. Four principal observations were made about antitermination and transcriptional terminators. (1) The rrn antiterminator mediated efficient transcription through Rho-dependent terminators. (2) Under the influence of the rrn antiterminator, RNA polymerase transcribed through two and three copies of the Rho-dependent 16 S----terminator with nearly the same efficiency as through one. (3) The antiterminator had less effect on fragments containing Rho-independent terminators; the rpoC t fragment and three fragments derived from the rrnB terminator region stopped antiterminated transcription. Four other Rho-independent terminator fragments were weakly antiterminated in our test system. (4) Surprisingly, the strength of these terminator fragments was not strongly related to properties such as the -delta G or number of trailing uridine residues of their canonical Rho-independent structures, but appears to be related to additional downstream terminators. We have drawn the following conclusions from these experiments. First, that ribosomal antitermination primarily reverses Rho-dependent termination by modifying the RNA polymerase elongation complex. Transcription through a 1700 nucleotide, multiple terminator sequence showed that the antiterminator caused persistent changes in the transcription process. Second, that fragments derived from the Rho-independent rrnB and rpoBC terminator regions can effectively stop antiterminated transcription. Third, that efficient in vivo termination may often involve regions with complex multiple terminators.
J Mol Biol 1990 May 05
PMID:Antitermination of characterized transcriptional terminators by the Escherichia coli rrnG leader region. 218 97

The DNA sequence and transcriptional organization around the Escherichia coli methionyl-tRNA synthetase gene, metG, were resolved. This gene can be transcribed in vivo and in vitro from two distinct promoters separated by 510 nucleotides. The upstream promoter is located within the coding sequence of a divergent gene expressing a protein of Mr 39 kDa of unknown function. Transcription originating from this upstream promoter is attenuated by a Rho-independent terminator before entering the structural gene. This leader RNA contains several potentially stable secondary structures, one of which shows striking similarity to tRNA(Met), but no methionine-rich coding sequence. The regulation of metG expression was investigated by means of fusions to the lacZ gene. Transcription of a metG::lacZ fusion is induced in a metG mutant and, reciprocally, repression is observed in a methionyl-tRNA synthetase overproducing strain. A model of metG expression control is proposed.
Mol Gen Genet 1990 Aug
PMID:Transcription and regulation of expression of the Escherichia coli methionyl-tRNA synthetase gene. 225 34

We present evidence that the transcription termination factor Rho is autogenously regulated in Escherichia coli. The steady-state level of Rho is increased approximately tenfold in rho mutant cells. In the rho+ revertants, the content of Rho is similar to the wild-type level. A rho-/rho+ merodiploid produces equimolar amounts of the mutant and the wild-type Rho polypeptides, both at a reduced level compared to the mutant. The steady-state level of rho messenger RNA is also increased in a rho mutant. A rho-galK transcriptional fusion produces at least tenfold more galactokinase in a rho- strain than in a rho+ strain. In vitro, in a coupled transcription-translation system, the synthesis of Rho protein is specifically inhibited by wild-type Rho but not by Rho15 mutant protein. Anti-Rho antibody specifically stimulates Rho synthesis in the rho+ extract but not in a rho- extract. We suggest that the autogenous regulation of Rho involves premature transcription termination within the rho gene. Regulation of Rho level may provide the cell a mechanism to modulate the expression of genes which are separated from their promoters by Rho-dependent termination signals.
J Mol Biol 1985 Apr 20
PMID:Autogenous regulation of transcription termination factor Rho. 240 90

The complete nucleotide sequence of the xynA gene coding for a xylanase (XYLA) expressed by Pseudomonas fluorescens subspecies cellulosa, has been determined. The structural gene consists of an open reading frame of 1833 bp followed by a TAA stop codon. Confirmation of the nucleotide sequence was obtained by comparing the predicted amino acid sequence with that derived by N-terminal analysis of purified forms of the xylanase. The signal peptide present at the N terminus of mature XYLA closely resembles signal peptides of other secreted proteins. Truncated forms of the xylanase gene, in which the sequence encoding the N-terminal signal peptide had been deleted, still expressed coli. XYLA contains domains which are homologous to an endoglucanase expressed by the same organism. These structures include serine-rich sequences. Bal31 deletions of xynA revealed the extent to which these conserved sequences, in XYLA, were essential for xylanase activity. Downstream of the TAA stop codon is a G + C-rich region of dyad symmetry (delta G = 24 kcal) characteristic of E. coli Rho-independent transcription terminators.
Mol Microbiol 1989 Sep
PMID:Conserved serine-rich sequences in xylanase and cellulase from Pseudomonas fluorescens subspecies cellulosa: internal signal sequence and unusual protein processing. 250 68

We constructed a family of lambda phage and plasmid vectors which facilitate cloning and quantitative analysis of transcriptional regulator in both single and multiple copies. Their expression system was modified from the ara-trp-lac fusion operon of plasmid pMC81 [Casadaban and Cohen, J. Mol. Biol. 138 (1980) 179-207], which is designed to assay both promoters and terminators with a single vehicle. To eliminate transcriptional and translational polar effects liable to occur in the original fusion operon upon insertion of a foreign nucleotide sequence, intracistronic Rho-dependent terminators, that are present within the trpB gene and distal to the cloning site were deleted, and DNA spacers containing stop codons were introduced immediately before and after the cloning site. In analysis of the cloned trp regulatory region, the lambda phage system faithfully reproduced the tight regulation by tryptophan characteristic to the natural trp operon on the E. coli chromosome, whereas the plasmid counterpart exhibited a substantially relaxed response. Comparative studies on the relative strengths of various promoters and terminators have further demonstrated that the lambda phage vector system permits accurate assays of exceptionally strong promoters like Ptrp and lambda pL without disturbing the bacterial growth, while being sensitive enough for detecting low-level transcription under the control of weak promoters or potent terminators. Cloning with the lambda phage vector can be greatly facilitated by transferring the target regulatory site precloned with the plasmid onto the phage genome through in vivo recombination.
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PMID:Construction and characterization of plasmid and lambda phage vector systems for study of transcriptional control in Escherichia coli. 282 83

The plasmid pJSF6, a derivative of pBR327, could be maintained at 30 degrees C in strains of Escherichia coli containing the strong rho mutation, rho-15. Plasmids extracted from rho-15 cells were always less negatively supercoiled than plasmids from rho+ cells. Transduction experiments designed to separate the rho gene from possible extragenic suppressors showed that the rho allele consistently determined the degree of plasmid superhelicity. Comparison of the superhelicity of plasmids extracted from the rho-15 and from a gyrB mutant showed that at 30 degrees C the negative supercoiling was reduced by the amounts delta Wrho = 4.0 +/- 0.3 and delta Wgyr = 6.0 +/- 0.3 turns; the effect of the rho-15 mutation on supercoiling was thus comparable to that of the gyrB mutation. A similar effect of the rho-15 mutation on the superhelicity of pBR329 was observed. The observation that the Rho protein has a role in determining DNA superhelicity (though not necessarily a direct role) provides a new point of view for studying the pleiotropic properties of rho mutants.
Mol Gen Genet 1986 Sep
PMID:Reduced superhelicity of plasmid DNA produced by the rho-15 mutation in Escherichia coli. 302 Mar 79

S1 nuclease mapping was performed on transcripts from the major leftward operon of the bacteriophage lambda in order to locate the 3' ends of stable RNA species produced in vivo. The analysis was carried out on RNA purified from either an induced lambda prophage or bacteria carrying a plasmid containing a large segment of lambda including the intact PL operon through the bet gene. The S1 nuclease mapping was performed on transcripts produced in the presence and the absence of the N antitermination function, and in the presence and the absence of either the RNase III processing enzyme or the Rho factor. The results of this work indicate that the intercistronic region between the N and ral genes of lambda contains three sites at which transcripts end under N-Rho+ conditions (positions on the lambda sequence: 34,826, 34,558 and 34,393). The distal two correspond to the two sites previously described in this region as tL1 (on both sides of the BamHI site). In the region between ral and Ea10, we mapped the 3' ends of three species of RNA. The 3' end of one species was found to be located 90 nucleotides proximal to tL2a, at 34,000 in the lambda sequence. The terminator at this site may be partially N-resistant. In an RNase III deficient host, an additional RNA species is formed. The 3' end of this RNA species is located at tL2a (33,910 on the lambda sequence). In the presence of the antitermination N gene product, the readthrough transcripts are processed to form a 3' end at position 33,980 on the lambda sequence. These results suggest that elongation of transcription of the lambda PL operon is reduced gradually by clusters of termination located between genes and that the expression of the terminated products is further controlled by processing of the mRNA.
J Mol Biol 1986 May 05
PMID:Transcription termination and processing sites in the bacteriophage lambda pL operon. 302 19

The product of the lambda ral gene alleviates restriction and enhances modification by the Escherichia coli K-12 restriction and modification system. An open reading frame (orf) located between genes N and Ea10 has been assigned to the ral gene. We have cloned this orf in a plasmid where its transcription is controlled by a thermolabile lambda repressor. Inactivation of the lambda repressor caused a 1000-fold reduction in K-specific restriction of unmodified lambda phage and a 100-fold increase in modification. In minicells transformed with ral+ plasmids, derepression resulted in the appearance of a polypeptide with a lower mobility than that predicted for a protein encoded by the orf attributed to ral; in a transcription and translation system in vitro DNA from a ral+ plasmid encoded a polypeptide with the same mobility. This polypeptide was absent when the plasmid DNA carried a mutant ral gene. The nucleotide sequence of this mutant gene defined two base changes, one of which inactivates the initiation codon of the orf. The K restriction endonuclease, which is also a K-specific methylase, is encoded by three genes designated hsdR, hsdM and hsdS, although the hsdR polypeptide is not essential for the methylase activity. We show that Ral enhances modification in a host strain lacking the entire hsdR gene, and lambda phages carrying the hsdM and S genes modify their own DNA inefficiently in the absence of Ral, despite the fact that derivatives of these phages provide efficient amplification of the K-specific methylase. Our data support a model in which, as a consequence of the interaction of Ral with either the hsdM or the hsdS polypeptide, the conformation of the enzyme is changed and the efficiency of methylation of unmodified target sites is enhanced. It has been postulated that Ral counteracts Rho, but in our experiments Ral did not relieve transcriptional polarity.
J Mol Biol 1986 Jul 05
PMID:Modification enhancement by the restriction alleviation protein (Ral) of bacteriophage lambda. 302 33

The highly defective rho-15 mutant of Escherichia coli produces plasmid DNA that is 22% less negatively supercoiled than DNA from an isogenic wild-type strain (J. S. Fassler, G. F. Arnold, and I. Tessman, Mol. Gen. Genet. 204:424-429, 1986). We extended our measurements of plasmid superhelicity to additional rho mutants and to strains containing mutations that suppress rho transcription termination defects; the suppressor mutations were in the rpoB and the rho genes. The superhelicity of plasmid DNA was reduced by 11 and 10%, respectively, in the rho-702 and rho-201 mutants, both of which are less defective in Rho-mediated transcription termination than rho-15. Plasmid superhelicity was restored in all the suppressed rho mutants; in one rpoB mutant, plasmid DNA was even more negatively supercoiled than in rpoB+ cells, whether in a rho+ or rho mutant background. Suppression of rho mutants enabled them to maintain plasmids that could not be maintained in the mutants in the absence of the suppressor mutations. The results indicate that in addition to DNA gyrase, topoisomerase I, and Rho, RNA polymerase is also a determinant of DNA superhelicity, and its effect is modified by the Rho protein. We propose that Rho may increase the degree of DNA unwinding by the transcription complex, possibly at transcription termination sites.
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PMID:Regulation of DNA superhelicity by rpoB mutations that suppress defective Rho-mediated transcription termination in Escherichia coli. 304 90

Rifampicin-resistant (Rifr) mutations map in the rpoB gene encoding the beta subunit of Escherichia coli RNA polymerase. We have examined the effect of each of the 17 sequenced Rifr mutations in our collection on transcription termination. The effect of each Rifr mutation was measured at three types of terminators: simple terminators requiring only RNA polymerase to terminate in vitro, and complex terminators requiring either Rho or Tau for in-vitro termination. Almost every Rifr allele examined (14/17) affected readthrough at one or more of these terminators. We found that mutations with similar termination phenotypes were clustered suggesting functional specialization within the region of rpoB defined by the Rifr mutations. The interaction of the Rifr mutations with the defective rho15 allele was also investigated. Only two Rifr mutations suppress the termination defect of rho15 strains. We discuss models to explain how this region of the beta polypeptide might be involved in the process of transcription termination.
J Mol Biol 1988 Jul 20
PMID:Characterization of the termination phenotypes of rifampicin-resistant mutants. 305 Jan 23


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