Transcriptional Control Signals Research Articles

SigmoID: a user-friendly tool for improving bacterial genome annotation through analysis of transcription control signals.

The majority of bacterial genome annotations are currently automated and based on a ‘gene by gene’ approach. Regulatory signals and operon structures are rarely taken into account which often results in incomplete and even incorrect gene function assignments. Here we present SigmoID, a cross-platform (OS X, Linux and Windows) open-source application aiming at simplifying the identification of transcription regulatory sites (promoters, transcription factor binding sites and terminators) in bacterial genomes and providing assistance in correcting annotations in accordance with regulatory information. SigmoID combines a user-friendly graphical interface to well known command line tools with a genome browser for visualising regulatory elements in genomic context. Integrated access to online databases with regulatory information (RegPrecise and RegulonDB) and web-based search engines speeds up genome analysis and simplifies correction of genome annotation. We demonstrate some features of SigmoID by constructing a series of regulatory protein binding site profiles for two groups of bacteria: Soft Rot Enterobacteriaceae (Pectobacterium and Dickeya spp.) and Pseudomonas spp. Furthermore, we inferred over 900 transcription factor binding sites and alternative sigma factor promoters in the annotated genome of Pectobacterium atrosepticum. These regulatory signals control putative transcription units covering about 40% of the P. atrosepticum chromosome. Reviewing the annotation in cases where it didn’t fit with regulatory information allowed us to correct product and gene names for over 300 loci.

Re-engineering cellular physiology by rewiring high-level global regulatory genes.

Knowledge of global regulatory networks has been exploited to rewire the gene control programmes of the model bacterium Salmonella enterica serovar Typhimurium. The product is an organism with competitive fitness that is superior to that of the wild type but tuneable under specific growth conditions. The paralogous hns and stpA global regulatory genes are located in distinct regions of the chromosome and control hundreds of target genes, many of which contribute to stress resistance. The locations of the hns and stpA open reading frames were exchanged reciprocally, each acquiring the transcription control signals of the other. The new strain had none of the compensatory mutations normally associated with alterations to hns expression in Salmonella; instead it displayed rescheduled expression of the stress and stationary phase sigma factor RpoS and its regulon. Thus the expression patterns of global regulators can be adjusted artificially to manipulate microbial physiology, creating a new and resilient organism.

An N-terminally truncated RpoS (sigma(S)) protein in Escherichia coli is active in vivo and exhibits normal environmental regulation even in the absence of rpoS transcriptional and translational control signals.

RpoS (sigma(S)) in Escherichia coli is a stationary-phase-specific primary sigma factor of RNA polymerase which is 330 amino acids long and belongs to the eubacterial sigma(70) family of proteins. Conserved domain 1.1 at the N-terminal end of sigma(70) has been shown to be essential for RNA polymerase function, and its deletion has been shown to result in a dominant-lethal phenotype. We now report that a sigma(S) variant with a deletion of its N-terminal 50 amino acids (sigma(S)Delta1-50), when expressed in vivo either from a chromosomal rpoS::IS10 allele (in rho mutant strains) or from a plasmid-borne arabinose-inducible promoter, is as proficient as the wild type in directing transcription from the proU P1 promoter; at three other sigma(S)-dependent promoters that were tested (osmY, katE, and csiD), the truncated protein exhibited a three- to sevenfold reduced range of activities. Catabolite repression at the csiD promoter (which requires both sigma(S) and cyclic AMP [cAMP]-cAMP receptor protein for its activity) was also preserved in the strain expressing sigma(S)Delta1-50. The intracellular content of sigma(S)Delta1-50 was regulated by culture variables such as growth phase, osmolarity, and temperature in the same manner as that described earlier for sigma(S), even when the truncated protein was expressed from a template that possessed neither the transcriptional nor the translational control elements of wild-type rpoS. Our results indicate that, unlike that in sigma(70), the N-terminal domain in sigma(S) may not be essential for the protein to function as a sigma factor in vivo. Furthermore, our results suggest that the induction of sigma(S)-specific promoters in stationary phase and during growth under conditions of high osmolarity or low temperature is mediated primarily through the regulation of sigma(S) protein degradation.

11] A general method to identify bacterial genes regulated by cell-to-cell signaling

Publisher Summary This chapter discusses the importance of cell-to-cell signaling in the formation of Pseudomonas aeruginosa biofilms, which has led to an interest in discussing the general role of intercellular signaling in bacterial biofilm formation. Several studies have demonstrated that quorum sensing signals are produced in aquatic biofilms and on catheterassociated biofilms from patients. Quorum sensing signals have been shown to promote recovery from starvation in Nitrosomonas europaea. These data raise the possibility that cell-to-cell signaling is an important requirement for biofilm development in many types of bacteria. The close association of cells in a biofilm community creates an ideal environment for effective communication among cells. To study the relationship between cell-to-cell signaling and biofilm development, a fundamental understanding of the signals and the response pathways is required. The first step to this understanding is the identifcation of genes regulated by cell-to-cell signaling. The analysis of bacterial transcriptional and translational control signals has been greatly simplified by the use of reporter gene fusions.

Expression of human lymphotoxin α in Aspergillus niger.

A gene-fusion expression strategy was applied for heterologous expression of human lymphotoxin alpha (LTα) in the Aspergillus niger AB1.13 protease-deficient strain. The LTα gene was fused with the A. niger glucoamylase GII-form as a carrier-gene, behind its transcription control and secretion signals. Special attention was paid to the influence of different codon usage on secretion of protein. In the case of human tumor necrosis factor alpha (TNFα) a dramatic change of secretion has been observed when human cDNA sequence was used instead of synthetic E. coli biased codons. In the case of LTα such a change of codon usage brought improvement at the RNA level, however, no increase in the quantity of secreted protein was observed, due to the proteolitic activity of the host organism. The estimated yield of secretion of LTα from A. niger into the soya medium was 50 pg l-1 of culture.

Characterization of the Acinetobacter Plasmid, pRAY, and the Identification of Regulatory Sequences Upstream of an aadB Gene Cassette on This Plasmid

Primer extension analyses carried out to identify the transcription start site of an aadB gene, which is part of a gene cassette recombined at a secondary site on an Acinetobacter plasmid, pRAY, suggest that transcription control signals in Acinetobacter are similar but not identical to their counterparts in Escherichia coli. pRAY was sequenced. An AT-rich region, containing eight copies of the consensus sequence, AAAAAATAT, previously shown to be present in the origins of replication of other Acinetobacter plasmids, was predicted to be the origin of pRAY. The translation product of one of the 10 open reading frames identified on pRAY shows homology to the mobilization protein, MbeA.

The 131-amino-acid repeat region of the essential 39-kilodalton core protein of fowlpox virus FP9, equivalent to vaccinia virus A4L protein, is nonessential and highly immunogenic.

The immunodominant, 39,000-molecular weight core protein (39K protein) of fowlpox virus (FP9 strain), equivalent to the vaccinia virus A4L gene product, contains highly charged domains at each end of the protein and multiple copies of a 12-amino-acid serine-rich repeat sequence in the middle of the protein. Similar repeats were also detected in other fowlpox virus strains, suggesting that they might confer a selective advantage to the virus. The molloscum contagiosum virus homolog (MC107L) also contains repeats, unlike the vaccinia virus protein. The number of repeats in the fowlpox virus protein does not seem to be crucial, since some strains have a different number of repeats, as shown by the difference in the size of the protein in these strains. The repeat region could be deleted, indicating that it is not essential for replication in vitro. It was not possible to delete the entire 39K protein, indicating that it was essential (transcriptional control signals for the flanking genes were left intact). The repeat region is partly responsible for the immunodominance of the protein, but the C-terminal part of the protein also contains highly antigenic linear epitopes. A role for the 39K protein in immune system modulation is discussed.

Molecular and Pathogenic Characterization of the RFB Osteoma Virus: Lack of Oncogene and Induction of Osteoma, Osteopetrosis, and Lymphoma

RFB virus is an ecotropic C-type retrovirus isolated from CF-1 mice, in which it is associated with induction of osteomas. Sequence analysis of the RFB provirus revealed no evidence for presence of an oncogene or a recombinedenvgene. RFB virus is a member of the murine leukemia virus (MuLV) group (RFB MuLV), sharing 97% nucleotide identity with the endogenous ecotropic provirus of AKR mice (Akv). Like Akv, expression of RFB MuLV mRNAs is inducible by dexamethasone treatment, indicating that RFB MuLV also shares transcriptional control signals with Akv. We assessed the pathogenic potential of RFB MuLV in NMRI mice, which, in contrast to CF-1 mice, do not contain endogenous ecotropic retroviruses. RFB MuLV induced osteomas, osteopetrosis, and lymphomas in newborn NMRI mice. Another CF-1 mouse-derived leukemia virus, FBJ MuLV, the helper virus of the FBJ osteosarcoma virus stock, as well as Akv, also induced osteomas, osteopetrosis, and lymphomas in NMRI mice similar to RFB MuLV. These findings indicate that endogenous retroviruses carry a pathogenic potential in hematopoietic tissues and in the skeleton.

The variable 3' ends of a human cytomegalovirus oriLyt transcript (SRT) overlap an essential, conserved replicator element.

The genetically defined human cytomegalovirus (HCMV) lytic-phase replicator, oriLyt, comprises more than 2 kb in a structurally complex region that spans a variety of potential transcription control signals. Several transcripts originate within or cross oriLyt, and we are studying these oriLyt transcription units to determine whether they participate in initiating or regulating lytic-phase DNA synthesis. Results presented here establish the temporal accumulation and structure of the smallest replicator transcript, which we call SRT, and identify a single-sequence element essential to replicator function. SRT was detected as early as 2 h after HCMV infection of human fibroblast cells; transcript levels increased by 24 h and continued to increase thereafter. Consistent with its early appearance, treatment of HCMV-infected cells with the viral DNA polymerase inhibitor phosphonoformic acid had no effect on SRT accumulation; however, no SRT was detected in RNA preparations from cycloheximide-treated infected cells. Additional Northern (RNA) analysis localized the 0.2- to 0.25-kb SRT to an apparently noncoding segment near the center of the oriLyt core region. Reverse transcriptase PCR (rapid amplification of cDNA 5' ends [5'-RACE]) identified a single 5' end. In transient-transfection assays, the sequence immediately upstream of SRT functioned as a promoter responsive to HCMV infection when placed upstream of a reporter gene, suggesting that SRT is the product of a discrete transcription unit. RNA ligase-mediated 3'-RACE showed that SRT is not polyadenylated and has heterogeneous 3' ends within a roughly 45-nucleotide window overlapping an oligopyrimidine sequence having counterparts in the lytic-phase replicators of several herpesviruses. Mutation of the oligopyrimidine element showed that it is essential to oriLyt replicator function; it is the only essential single-sequence HCMV oriLyt replicator element described to date. Collectively, the location of SRT near the center of the oriLyt core region, its early expression, its overlapping relationship with a sequence element essential to replicator function, and its similarities to replicator transcripts in other systems suggest the possibility that SRT plays a role in initiating or regulating HCMV lytic-phase DNA synthesis.

The arsenical resistance operon of IncN plasmid R46

The arsenical resistance operon of the IncN plasmid R46 consists of 4696 bp and starts with predicted transcriptional control and initiation signals, followed by five genes, arsD, arsA, and arsC. The corresponding Escherichia coli chromosomal ars operon and two staphylococcal ars operons lack arsA and arsD genes. The R46 system contains only the second known versions of arsA and arsD, after those of plasmid R773. Western blot analysis identified the R46 proteins using antibodies against R773 ArsA, ArsD and ArsR.

The arsenical resistance operon of IncN plasmid R46

The arsenical resistance operon of the IncN plasmid R46 consists of 4696 bp and starts with predicted transcriptional control and initiation signals, followed by five genes, arsR, arsD, arsA, arsB and arsC. The corresponding Escherichia coli chromosomal ars operon and two staphylococcal ars operons lack arsA and arsD genes. The R46 system contains only the second known versions of arsA and arsD, after those of plasmid R773. Western blot analysis identified the R46 proteins using antibodies against R773 ArsA, ArsC, ArsD and ArsR.

Analysis of transcription control signals using artificial neural networks.

The role of the upstream region in controlling the transcription efficiency of a gene is well established. However, the question of predicting the extent of gene expressed given the upstream region has so far remained unresolved. Using an artificial neural network (ANN) to capture the internal representation associated with the transcription control signal, the present work predicts the rate of mRNA synthesis based on the pattern contained in the upstream region. Further, the model has been used to predict the transcription efficiency for all possible single base mutations associated with the beta-globin promoter. The simulation results reveal that apart from the experimental observation that alpha-79G-A and -78G-A mutation increases the efficiency of transcription, mutation in these regions by C or T also causes an increase in transcription. Furthermore the simulation results verify that mutations in the conserved region, in general, decrease the transcriptional efficiency. However, the results also show that certain sequence elements, when mutated, either cause a marginal increase in the level of transcription or have no effect on transcription levels. The simulation results can be used as a guide in designing mutation experiments since an a priori estimate of the possible outcome of a mutation can be obtained.

Genetic modification of an entomopoxvirus: deletion of the spheroidin gene does not affect virus replication in vitro.

In the late stages of an entomopoxvirus infection, virions become embedded within a crystalline occlusion body or spheroid. Spheroids are composed primarily of a single polypeptide, spheroidin. We describe the construction of a genetically modified Amsacta moorei entomopoxvirus (AmEPV) in which the spheroidin gene coding sequences are deleted and replaced with those of a heterologous reporter gene encoding chloramphenicol acetyltransferase (CAT). A transfer vector, pAmCP1, was prepared containing a unique BamHI site in lieu of the spheroidin gene coding region, together with 1 kbp of upstream and downstream DNA sequence that flanks the spheroidin gene. The flanking sequences provide the transcriptional control signals and also guide homologous recombination so that the spheroidin gene coding region can be replaced with that of the foreign gene. The transfer vector was designed so that the translational start codon of the introduced foreign gene would be utilized. A recombinant virus, AmEPV.CAT, was produced by transfecting AmEPV-infected cells with the transfer vector encoding the CAT gene. The recombinant virus was isolated from wild-type virus by identifying plaques with a spheroidin-negative phenotype. Light microscopy and SDS-PAGE analysis demonstrated that no spheroids or spheroidin protein were produced in the recombinant virus-infected cells. The recombinant virus was able to replicate to high titres (10(7) p.f.u./ml) in insect cells indicating that the spheroidin gene is non-essential for AmEPV replication in vitro. Moderate levels of CAT were synthesized in recombinant virus-infected cells and temporal analyses indicated that CAT synthesis followed the pattern of spheroidin production suggesting that the spheroidin gene promoter was functioning under normal regulatory control in the genetically modified virus.

Enrichment of oligonucleotide sets with transcription control signals. III: DNA from non-mammalian vertebrates.

We studied the frequency distribution of 1,048,576 oligonucleotides 10 bp long in a sample of 1.072 x 10(6) bases of genes from non-mammalian vertebrates, made of 322 sequences extracted from EMBL(R) 29.0, with the aim of detecting transcription control signals. Among all decamers, 2097 (0.2%) had a frequency 10 times higher than the mean and were subjected to further statistical analysis. For each of the 2097 decamers (parents), we counted the individual frequencies of the 30 decamers differing from the parent by one base mutation (progeny) and we calculated two variance/mean chi squares for the progeny, with and without the parent decamer. By studying the distribution of the ratio between the two chi squares we observed that out of 2097 decamers that occurred > 10 times more frequently than average, 1017 had a chi square ratio of between 1 and 1.5; in this final set, which corresponds to < 0.097% of all possible decamers, 75 decamers were found to contain 100 transcription control elements, like CCAAT and others. The final set contains a high excess of signals when compared to 100 random sets of 1017 decamers. Some of the decamers selected with the procedure are members of consensus sequences rather than unique sequences.

Gene expression in Leishmania: analysis of essential 5' DNA sequences.

A major unanswered question in Kinetoplastida parasites is the mechanism of regulating gene expression. Using a transfection system, we have previously shown that the intergenic region of the alpha-tubulin gene of Leishmania enriettii contained sequences required for gene expression. The goal of the work reported here was to determine whether the Leishmania-derived sequences were providing transcriptional control signals or functioning at a post-transcriptional level, most likely in trans-splicing. The chloramphenicol acetyltransferase (cat) gene was used as the reporter gene and was stably introduced into L. enriettii as part of an extrachromosomal element by transfection. We show here that the production of cat mRNA was dramatically dependent on the presence of the intergenic region 5' to the cat gene. The intergenic region could be substituted by a smaller fragment (222 base pairs) that contained the trans-splice acceptor site and an adjacent polypyrimidine tract. This native fragment could be replaced by a synthetic polypyrimidine tract containing an AG site. The native and the synthetic fragments had unidirectional activity. No effect on transcription of the cat gene by the wild-type fragment or the synthetic polypyrimidine was detected. The results indicate that both regions contain signals that affect RNA stability, probably sequences involved in trans-splicing.

Enrichment of oligonucteotide sets with transcription control signals II: mammalian DNA

We studied the frequency distribution of oligonucleotides 10 bp long in a sample of 1.6 Mb of mammalian genes, containing 579 sequences from GenBank(R) 55.0, with the aim of detecting transcription control signals. 2216 decamers had a frequency higher than 10 times the mean and were subjected to further statistical analysis. For each of the 2216 decamers (parents), we counted the individual frequencies of the 30 decamers differing from the parent by one base mutation (progeny) and then calculated two variance/mean chi squares for the progeny, with and without the parent. We then studied the distribution of the ratio between the two chi squares. Out of 2216 decamers, 346 had a chi square ratio of 1.9 or larger. In this final set, which corresponds to less than 0.033 per cent of all possible decamers, 18 were found to contain 23 eukaryotic transcription control elements 5-10 bp of length, such as Sp1 and others. Furthermore, when compared to 210 random sets containing 346 decamers, this set contains a highly significant excess of the longer signals.

A set of viral DNA decamers enriched in transcription control signals

We studied the frequency distribution of oligonucleotides 10 bp long in a sample of 620 Kb of viral genomes, containing 102 sequences from GenBank, with the aim of detecting transcription control signals. Two thousand three hundred decamers had a frequency 10 times higher than the mean and were subjected to further statistical analysis. For each of the 2300 decamers (parents), we counted the individual frequencies of the 30 decamers differing from the parent by one base mutation (progeny) and then calculated two variance/mean chi squares for the progeny, with and without the parent. We then studied the distribution of the ratio between the two chi squares. Out of 2300 decamers, 10 times more frequent than average, 479 decamers had a chi square ratio of 1.9 or larger. In this final set, which corresponds to less than 0.05% of all possible decamers, 58 decamers were found to contain viral and eukaryotic transcription control elements, like NF-kB, Sp1 and others. Furthermore, this set contains an excess of signals of length 5, 6, 7, 8, 9 and 10, when compared to 150 random sets, bootstrapped from the same viral genomes.

Sequence analysis of the inverted terminal repetition in the genome of the parapoxvirus, orf virus

Two BamHI fragments from the right-hand terminal region of the orf virus genome have been sequenced. The bulk of the inverted terminal repetition (ITR) sequence is contained within these fragments and makes up 3388 by of the 4425-bp sequence reported. The overall base composition of the larger sequence is 59.4% G + C and of the ITR, 60.2% G + C. An extremely G/C-rich (83.2%) block of sequence was found spanning the ITR/unique sequence junction. The bulk of the ITR could be divided into three blocks of directly repeated sequences. One block begins about 250 nucleotides from the terminus and is a direct repeat 15 by long, repeated 14 times. The other blocks contain seven sequence sets ranging from 16 to 36 nucleotides which are repeated 2 to 4 times, interspersed with one another, interrelated in sequence, and sometimes separated by unique sequence. Eight open reading frames (ORFs), each with the potential to code for polypeptides of 50 residues or more, were identified. Three were found within the ITR, four spanned the ITR/unique sequence junction and one was found outside the ITR. A search for putative poxvirus transcriptional control signals indicated that three of the eight ORFs are likely to be transcribed early, all in the same direction toward the right end of the genome. Sequences of the type T(A) 3–5T were found only twice in the sequence and only one preceded an ORF.

Comparison and cross‐species expression of the acetyl‐CoA synthetase genes of the ascomycete fungi, Aspergillus nidulans and Neurospora crassa

The genes encoding the acetate-inducible enzyme acetyl-coenzyme A synthetase from Neurospora crassa and Aspergillus nidulans (acu-5 and facA, respectively) have been cloned and their sequences compared. The predicted amino acid sequence of the Aspergillus enzyme has 670 amino acid residues and that of the Neurospora enzyme either 626 or 606 residues, depending upon which of the two possible initiation codons is used. The amino acid sequences following the second alternative AUG show 86% homology between the two species; the extended N-terminal sequences show no homology. The Neurospora protein is characterized by the appearance of the S(T)PXX sequence motif where the amino acid homologies break down. The codon usage is biased in both genes, with a marked deficiency, especially in Neurospora, of codons with A in the third position. The facA transcribed sequence contains six introns: one in the long leader sequence, one in the 5' coding sequence not homologous with acu-5, and four within the sequence that is largely similar to that of acu-5. Only one intron, corresponding in size and position to the furthest downstream of the facA introns, is found in acu-5. The evolution of introns during the divergence of these two Ascomycete fungi is discussed. Each of the two genes has been transferred by transformation into the other species. Each species is evidently able to splice out the other's introns. Most transformants have normal acetate-induction of acetyl-CoA synthetase, implying that the two genes respond to transcriptional control signals common to both species, in spite of the striking divergence of their 5' ends.

Gene Structure, Organization, And Expression In Archaebacteria

Major advances have recently been made in understanding the molecular biology of the archaebacteria. In this review, we compare the structure of protein and stable RNA-encoding genes cloned and sequenced from each of the major classes of archaebacteria: the methanogens, extreme halophiles, and acid thermophiles. Protein-encoding genes, including some encoding proteins directly involved in methanogenesis and photoautotrophy, are analyzed on the basis of gene organization and structure, transcriptional control signals, codon usage, and evolutionary conservation. Stable RNA-encoding genes are compared for gene organization and structure, transcriptional signals, and processing events involved in RNA maturation, including intron removal. Comparisons of archaebacterial structures and regulatory systems are made with their eubacterial and eukaryotic homologs.