EC:2.7.7.6 - FACTA Search

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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 nucleotide sequence of maranhar, a senescence-inducing linear mitochondrial plasmid of Neurospora crassa, was determined. The termini of the 7-kb plasmid are 349-bp inverted repeats (TIRs). Each DNA strand contains a long open reading frame (ORF) which begins within the TIR and extends toward the centre of the plasmid. ORF-1 codes for a single-subunit RNA polymerase that is not closely related to that encoded by another Neurospora plasmid, kalilo. The ORF-2 product may be a B-type DNA polymerase resembling those encoded by terminal protein-linked linear genetic elements, including linear mitochondrial plasmids and linear bacteriophages. A separate coding sequence for the terminal protein could not be identified; however, the DNA polymerase of maranhar has an amino-terminal extension with features that are also present in the terminal proteins of linear bacteriophages. The N-terminal extensions of the DNA polymerases of other linear mitochondrial plasmids contain similar features, suggesting that the terminal proteins of linear plasmids may be comprised, at least in part, of these cryptic domains. The terminal protein-DNA bond of maranhar is resistant to mild alkaline hydrolysis, indicating that it might involve a tyrosine or a lysine residue. Although maranhar and the senescence-inducing kalilo plasmid of N. intermedia are structurally similar, and integrate into mitochondrial DNA by a mechanism thus far unique to these two plasmids, they are not closely related to each other and they do not have any nucleotide sequence features, or ORFs, that distinguish them clearly from mitochondrial plasmids which are not associated with senescence and most of which are apparently non-integrative.
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PMID:Genetic organization and structural features of maranhar, a senescence-inducing linear mitochondrial plasmid of Neurospora crassa. 142 26

The spo-87 mutation is one of two sporulation mutations originally used to define the spo0J locus of Bacillus subtilis. We now show that it blocks sporulation after completion of prespore engulfment (stage III). Surprisingly, the operon is expressed vegetatively, probably from a sigma A-dependent promoter, and its expression is shut down at the transcriptional level at about the onset of sporulation. DNA sequencing reveals that the locus defined by spo-87, which we now designate spoIIIJ, consists of a bicistronic operon. However, only the first gene is essential for sporulation; the function of the second cistron is cryptic. The predicted SpoIIIJ product has an M(r) of 29,409. It probably forms a lipoprotein and is rich in basic and hydrophobic amino acids. Mutations in spoIIIJ abolish the transcription of prespore-specific genes transcribed by the sigma G form of RNA polymerase but not transcription of the spoIIIG gene encoding sigma G. The SpoIIIJ product could be involved in a signal transduction pathway coupling gene expression in the prespore to events in the mother cell, or it could be necessary for essential metabolic interactions between the two cells.
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PMID:Structure and function of the spoIIIJ gene of Bacillus subtilis: a vegetatively expressed gene that is essential for sigma G activity at an intermediate stage of sporulation. 148 28

Plasmid pCI305 is an 8.7-kb, narrow-host-range, cryptic plasmid originating from Lactococcus lactis subsp. lactis UC317. The nucleotide sequence of the pCI305 replication region was determined. A single open reading frame of 1158 bp was identified in the trans-active domain repB. The size of the predicted repB protein (46 kDa) is in close agreement with the size of the repB product visualized in vivo in Escherichia coli when repB was placed under control of the inducible phi T7 RNA polymerase promoter. In vivo substitution of the native repB promoter sequence with a Tn5-derived promoter sequence was demonstrated. repA, a 344-bp cis-acting region which is the probable pCI305 replication origin region, was noncoding, was AT-rich, and possessed a unique set of inverted and direct repeat sequences. No significant homology between repA or repB and other gram-positive replication regions was evident. Combined with the absence of a detectable single-stranded DNA intermediate during replication, these results indicate that the pCI305 replication region differs markedly from most gram-positive replicons examined to date. The presence on other lactococcal plasmids of replication regions related to that of pCI305 was demonstrated.
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PMID:Molecular organization of the minimal replicon of novel, narrow-host-range, lactococcal plasmid pCI305. 185 14

A new type of termination signal for RNA polymerase III transcription has been identified. A cloned DNA from salmon highly repetitive sequences, designated as Sm2, serves as a template for an RNA with about 140 nucleotides, but the clone does not have four or more consecutive T residues in the presumed termination site. S1 nuclease mapping analysis clearly demonstrated that termination occurred at the beginning of the AT-rich sequence in the 3' region of Sm2. Studies with a series of 3'-deletion mutants strongly suggested that an AT sequence of more than nine nucleotides functioned as a terminator. Furthermore, results with another series of 3'-deletion mutants showed that a sequence of only nine nucleotides (ATATATATT) in the noncoding strand in fact functioned as a terminator (designated as the 9AT terminator), although with relatively low efficiency compared to a tract of TTTT introduced downstream, and that new cryptic termination sites were introduced in the upstream slight AT-rich region by approach of the 9AT terminator. An AT-rich region downstream from the actual termination site of Sm2 DNA may enhance the efficiency of termination by facilitating detachment of RNA polymerase from the template DNA. Since the nucleotide sequence around the termination site appears to be conserved in the salmon repetitive sequences, this new terminator may be responsible for the generation of a discrete-sized RNA transcribed from salmon total genomic DNA in vitro.
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PMID:Characterization of a new termination signal for RNA polymerase III responsible for generation of a discrete-sized RNA transcribed from salmon total genomic DNA in a HeLa cell extract. 246 46

The polyadenylation signal of a pea gene for the small subunit of ribulose-1,5-bisphosphate carboxylase/oxygenase (rbcS) has been analyzed by deletion mutagenesis and Ti plasmid-mediated gene transfer. Sequences between 6 and 137 bases upstream from the normal polyadenylation sites in this gene (bases -6 to -137) are required for functioning of these sites. In addition, bases -111 to -235 can affect 3' end formation by altering the pattern of 3' termini seen in various transcription units. Sequences between 37 and 95 bases upstream from a cryptic polyadenylation site in this gene [A. G. Hunt, DNA 7: 329-336 (1988)] are necessary for mRNA 3' end formation at this site. At least two different parts of the 3' region of this rbcS gene can serve as a downstream element for polyadenylation at the normal poly(A) addition sites in this gene. Our studies indicate that: 1. the upstream sequences required for polyadenylation in plants are different from those defined in mammalian RNA polymerase II transcription units; 2. sequences 100 or more bases upstream and downstream from poly(A) addition sites in this gene can affect poly(A) addition site choice; and 3. there are apparently redundant downstream elements for polyadenylation in this gene.
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PMID:Deletion analysis of the polyadenylation signal of a pea ribulose-1,5-bisphosphate carboxylase small-subunit gene. 257 6

The N protein of bacteriophage lambda (N lambda) modifies Escherichia coli RNA polymerase in such a way that it transcribes through termination signals, a process called antitermination. N antitermination normally occurs only if the template contains a specific utilization or nut site upstream of the terminators and only in the presence of host-encoded Nus proteins. The lambda-related phages 21 and P22 produce N analogs, N21 and N22, but these require different nut sites and show a different pattern of functional interaction with one of the Nus factors, NusA, according to whether this protein is of E. coli or Salmonella origin (NusAEc or NusASal). We report the overproduction of N lambda, N21, or N22, each of which was induced by isopropyl-beta-D-thiogalactopyranoside at 37 degrees C from its cloned position downstream from ptac on a high-expression plasmid, each in a host that provided NusAEc or NusASal. Overproduction of each of these N proteins resulted in relaxed specificity for nut, which was shown by the ability to complement N mutants of heterologous phages; NusA specificity was determined by the N type that was present in these complementation tests. We also observed that excess N was able to suppress transcriptional polarity in the particular case of cloned 'trpA, the last gene of the tryptophan operon, although there was no effect on polarity within chromosomal trpE. Such polarity is attributed to the presence of cryptic intragenic terminators that become exposed in the absence of translation. Because there is no known nut site cis to 'trpA, we suggest that the 'trpA segment itself fortuitously contains a nut sequence that is able to function with excess N of any of the types tested and with either NusAEc or NusASal. We also found that excess N of any specificity, or even inactive N with missense mutation, could cause an increase in the level of NusAEc or NusASal, possibly because interaction between N and NusA, but independent of nut, whether functional or not, interferes with the autoregulation of NusA synthesis. These observations highlight the importance of protein concentration for the specificity of interactions both with other proteins and with nucleic acids. They also indicate that the interaction between N and NusA requires nut participation both for specificity and functionality.
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PMID:Overexpression of N antitermination proteins of bacteriophages lambda, 21, and P22: loss of N protein specificity. 265 5

Functional recognition sites for several regulatory factors, including RNA polymerase, cyclic adenosine monophosphate receptor protein and ribosomes, do not always have strong consensus nucleotide sequence homology, yet they are capable of biological activity. Using the computer, other nucleotide sequences can be found that have equal or significantly greater consensus homology, but whose biological function has not been characterized. This analysis shows that no arbitrary 'cutoff score' can successfully distinguish active recognition sites from uncharacterized homologies, due to the great natural diversity in the strength and conservation of functional sites. It also predicts that the strong 'cryptic' homologies presented here are of two types: some might already have a biological function which has so far not been detected, whereas certain single-point mutations might be able to confer activity upon the others by correcting a key structural defect.
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PMID:Nucleotide sequence homologies in control regions of prokaryotic genomes. 282 99

An assessment was made of the relative contributions of a spontaneous mutation to rifampin resistance and a cryptic plasmid, pTA2, to competitive nodulation of Medicago sativa by a strain of Rhizobium meliloti. This was facilitated by use of rifampin-resistant derivatives of this strain in which pTA2 was originally present, cured, or reintroduced. Both curing of pTA2 and spontaneous mutation to rifampin resistance significantly influenced nodulating competitiveness, but the effect of rifampin resistance was greater and such that the contribution of pTA2 was evident only in cases in which paired competitors had the common rifampin resistance background. The data suggest that rifampin-resistant derivatives contain an altered RNA polymerase insensitive to the action of rifampin. All R. meliloti derivatives had symbiotic characteristics and phage susceptibility patterns similar to those of the wild type. Plasmid pTA2 transfer or other genetic interchange was not detected in nodules of M. sativa inoculated with paired competitors.
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PMID:Cryptic plasmid and rifampin resistance in Rhizobium meliloti influencing nodulation competitiveness. 299 16

The nucleotide sequence of the portion of a Bacillus subtilis (strain PAP115) 3 kb Pst I fragment which contains an endo-beta-1, 4-glucanase gene has been determined. This gene encodes a protein of 499 amino acid residues (Mr = 55,234) with a typical B. subtilis signal peptide. Escherichia coli which has been transformed with this gene produces an extracellular endoglucanase with an amino-terminus corresponding to the thirtieth encoded amino acid residue. The gene is preceded by a cryptic reading frame with a rho-independent terminator structure, and itself has such a structure in the immediate 3'-flanking region. We have also identified, in the 5'-flanking region, nucleotide sequences which resemble promoter elements recognized by Bacillus RNA polymerase E sigma 43. Comparison of the encoded amino acid sequence to other known beta-glucanases reveals a small region of similarity to the encoded protein of the Clostridium thermocellum celB gene. These similar regions may contain substrate-binding and/or catalytic sites.
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PMID:Structure of a Bacillus subtilis endo-beta-1,4-glucanase gene. 302 30

We began an analysis of rpoF, the gene encoding the cryptic, 37,000-dalton minor sigma factor (sigma-37) of Bacillus subtilis RNA polymerase. Using antibody raised against sigma-37 holoenzyme to probe a lambda gt11 expression vector library, we isolated a 901-base-pair EcoRI fragment that expressed the COOH-terminal half of sigma-37 fused to lacZ. We used this fragment as a hybridization probe to isolate the entire rpoF gene and additional flanking sequences. Identity of the cloned gene was confirmed by the size and immunological reaction of its product expressed in Escherichia coli and, after DNA sequencing, by the homology of its predicted product (264 residues; 30,143 daltons) with other sigma factors. The DNA sequence also suggested that rpoF may lie in a gene cluster. Upstream of rpoF was an open reading frame that would encode a protein of 17,992 daltons; this frame overlapped the rpoF-coding sequence by 41 base pairs. Immediately following rpoF was a reading frame that would encode a protein of at least 20,000 daltons; expression of this region may be translationally coupled to that of rpoF. By plasmid integration and PBS1 transduction, we found the chromosomal locus of rpoF linked to ddl and dal at 40 degrees on the B. subtilis map and near no known lesions affecting growth regulation or development. Further, an rpoF null mutation resulting from gene disruption had no effect on cell growth or sporulation in rich medium, suggesting that sigma-37 may partly control a regulon not directly involved in the sporulation process.
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PMID:Gene encoding the 37,000-dalton minor sigma factor of Bacillus subtilis RNA polymerase: isolation, nucleotide sequence, chromosomal locus, and cryptic function. 302 48

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