DEVELOPMENT OF CURLING BRUSH FOR MEASURING FORCE EXERTED DURING SWEEPING

The purpose of this study was to examine the validity of the forces exerted on the curling brush devised with strain gauges and angular velocity sensors. Force data obtained from the devised brush were compared with data obtained from the force plates. Mean values of the vertical forces during the sweeping were 185 N for the brush and 187 N for the force plates, respectively, and there were no significant differences between them. The horizontal forces were 38 N for the brush and 37 N for the force plate, respectively, and there were no differences between them. There were significant correlations (

High-resolution mapping of plasmid transcriptomes in different host bacteria

<p>Abstract</p> <p>Background</p> <p>Plasmids are extrachromosomal elements that replicate autonomously, and many can be transmitted between bacterial cells through conjugation. Although the transcription pattern of genes on a plasmid can be altered by a change in host background, the expression range of plasmid genes that will result in phenotypic variation has not been quantitatively investigated.</p> <p>Results</p> <p>Using a microarray with evenly tiled probes at a density of 9 bp, we mapped and quantified the transcripts of the carbazole catabolic plasmid pCAR1 in its original host <it>Pseudomonas resinovorans </it>CA10 and the transconjugant <it>P</it>. <it>putida </it>KT2440(pCAR1) during growth on either carbazole or succinate as the sole carbon source. We identified the operons in pCAR1, which consisted of nearly identical transcription units despite the difference in host background during growth on the same carbon source. In accordance with previous studies, the catabolic operons for carbazole degradation were upregulated during growth on carbazole in both hosts. However, our tiling array results also showed that several operons flanking the transfer gene cluster were transcribed at significantly higher levels in the transconjugant than in the original host. The number of transcripts and the positions of the transcription start sites agreed with our quantitative RT-PCR and primer extension results.</p> <p>Conclusion</p> <p>Our tiling array results indicate that the levels of transcription for the operons on a plasmid can vary by host background. High-resolution mapping using an unbiased tiling array is a valuable tool for the simultaneous identification and quantification of prokaryotic transcriptomes including polycistronic operons and non-coding RNAs.</p

Functional expansion of a TCA cycle operon mRNA by a 3′ end-derived small RNA

Global RNA profiling studies in bacteria have predicted the existence of many of small noncoding RNAs (sRNAs) that are processed off mRNA 3′ ends to regulate other mRNAs via the RNA chaperones Hfq and ProQ. Here, we present targets of SdhX (RybD), an Hfq-dependent sRNA that is generated by RNase E mediated 3′ processing of the ∼10 000-nt mRNA of the TCA cycle operon sdhCDAB-sucABCD in enteric bacteria. An in silico search predicted ackA mRNA, which encodes acetate kinase, as a conserved primary target of SdhX. Through base pairing, SdhX represses AckA synthesis during growth of Salmonella on acetate. Repression can be achieved by a naturally occurring 38-nucleotide SdhX variant, revealing the shortest functional Hfq-associated sRNA yet. Salmonella SdhX also targets the mRNAs of fumB (anaerobic fumarase) and yfbV, a gene of unknown function adjacent to ackA. Instead, through a slightly different seed sequence, SdhX can repress other targets in Escherichia coli, namely katG (catalase) and fdoG (aerobic formate dehydrogenase). This study illustrates how a key operon from central metabolism is functionally connected to other metabolic pathways through a 3′ appended sRNA, and supports the notion that mRNA 3′UTRs are a playground for the evolution of regulatory RNA networks in bacteria

What Happens in the Staphylococcal Nucleoid under Oxidative Stress?

The evolutionary success of Staphylococcus aureus as an opportunistic human pathogen is largely attributed to its prominent abilities to cope with a variety of stresses and host bactericidal factors. Reactive oxygen species are important weapons in the host arsenal that inactivate phagocytosed pathogens, but S. aureus can survive in phagosomes and escape from phagocytic cells to establish infections. Molecular genetic analyses combined with atomic force microscopy have revealed that the MrgA protein (part of the Dps family of proteins) is induced specifically in response to oxidative stress and converts the nucleoid from the fibrous to the clogged state. This review collates a series of evidences on the staphylococcal nucleoid dynamics under oxidative stress, which is functionally and physically distinct from compacted Escherichia coli nucleoid under stationary phase. In addition, potential new roles of nucleoid clogging in the staphylococcal life cycle will be proposed

Transcriptome Analysis of Pseudomonas putida KT2440 Harboring the Completely Sequenced IncP-7 Plasmid pCAR1▿ †

The IncP-7 plasmid pCAR1 of Pseudomonas resinovorans CA10 confers the ability to degrade carbazole upon transfer to the recipient strain P. putida KT2440. We designed a customized whole-genome oligonucleotide microarray to study the coordinated expression of pCAR1 and the chromosome in the transconjugant strain KT2440(pCAR1). First, the transcriptome of KT2440(pCAR1) during growth with carbazole as the sole carbon source was compared to that during growth with succinate. The carbazole catabolic car and ant operons were induced, along with the chromosomal cat and pca genes involved in the catechol branch of the β-ketoadipate pathway. Additionally, the regulatory gene antR encoding the AraC/XylS family transcriptional activator specific for car and ant operons was upregulated. The characterization of the antR promoter revealed that antR is transcribed from an RpoN-dependent promoter, suggesting that the successful expression of the carbazole catabolic operons depends on whether the chromosome contains the specific RpoN-dependent activator. Next, to analyze whether the horizontal transfer of a plasmid alters the transcription network of its host chromosome, we compared the chromosomal transcriptomes of KT2440(pCAR1) and KT2440 under the same growth conditions. Only subtle changes were caused by the transfer of pCAR1, except for the significant induction of the hypothetical gene PP3700, designated parI, which encodes a putative ParA-like ATPase with an N-terminal Xre-type DNA-binding motif. Further transcriptional analyses showed that the parI promoter was positively regulated by ParI itself and the pCAR1-encoded protein ParA

Transcriptional Regulation of the ant Operon, Encoding Two-Component Anthranilate 1,2-Dioxygenase, on the Carbazole-Degradative Plasmid pCAR1 of Pseudomonas resinovorans Strain CA10

The carbazole-degradative plasmid pCAR1 of Pseudomonas resinovorans strain CA10 has two gene clusters, carAaAaBaBbCAcAdDFE and antABC, which are involved in the conversions of carbazole to anthranilate and anthranilate to catechol, respectively. We proved that the antABC gene cluster, encoding two-component anthranilate 1,2-dioxygenase, constitutes a single transcriptional unit through Northern hybridization and reverse transcription-PCR (RT-PCR) analyses. The transcription start point of antA was mapped at 53 bp upstream point of its translation start point, and the −10 and −35 boxes were homologous to conserved σ(70) recognition sequence. Hence the promoter of the ant operon was designated P(ant). 5′ Deletion analyses using luciferase as a reporter showed that the region up to at least 70 bp from the transcription start point of antA was necessary for the activation of P(ant). Luciferase expression from P(ant) was induced by anthranilate itself, but not by catechol. Two probable AraC/XylS-type regulatory genes found on pCAR1, open reading frame 22 (ORF22) and ORF23, are tandemly located 3.2 kb upstream of the antA gene. We revealed that the product of ORF23, designated AntR, is indispensable for the stimulation of P(ant) in Pseudomonas putida cells. Northern hybridization and RT-PCR analyses revealed that another copy of P(ant), which is thought to be translocated about 2.1 kb upstream of the carAa gene as a consequence of the transposition of ISPre1, actually drives transcription of the carAa gene in the presence of anthranilate, indicating that both ant and car operons are simultaneously regulated by AntR