Yukiho Imai scite author profile

In Escherichia coli, the DnaA protein level appears to play a pivotal role in determining the timing of replication initiation. To examine the effects on replication initiation in B. subtilis, we constructed a strain in which a copy of the dnaA gene was integrated at the purA locus on the chromosome under the control of an isopropyl-␤-D-thiogalactopyranoside (IPTG)-inducible promoter. However, increasing the DnaA level resulted in cell elongation and inhibition of cell growth by induction of the SOS response. Transcription of the native dnaA-dnaN operon was greatly reduced at high DnaA levels, but it was increased in a dnaA-null mutant, indicating autoregulation of the operon by DnaA. When a copy of the dnaN gene was added downstream of the additional dnaA gene at purA, the cells grew at high DnaA levels, suggesting that depletion of DnaN (␤ subunit of DNA polymerase III) within the cell by repression of the native dnaA-dnaN operon at high DnaA levels was the cause of the SOS induction. Flow cytometry of the cells revealed that the cell mass at initiation of replication increased at a lower DnaA level and decreased at DnaA levels higher than those of the wild type. Proper timing of replication initiation was observed at DnaA levels nearly comparable to the wild-type level. These results suggest that if the DnaA level increases with progression of the replication cycle, it could act as a rate-limiting factor of replication initiation in B. subtilis.

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Subcellular localization of Dna‐initiation proteins of Bacillus subtilis: evidence that chromosome replication begins at either edge of the nucleoids

Imai¹,

Ogasawara

Ishigo-oka

et al. 2000

Molecular Microbiology

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SummaryWe examined the intracellular distribution of Bacillus subtilis Dna-initiation proteins by immunofluorescence microscopy to visualize the initiation complex of replication in vivo. DnaA was distributed throughout the cytoplasm, but both DnaB and DnaI were always detected as foci during the cell-division cycle. Interaction of DnaI with the DnaC helicase by the yeast two-hybrid assay suggests that DnaI acts as a helicase loader. The number of DnaB and DnaI foci within the cell exceeded that of oriC. Although the foci were not always co-localized with oriC, they seemed to be localized near the outer or inner edges of the nucleoids at initiation of replication. When the replication cycle was synchronized in cells using a temperature-sensitive dnaA mutant, duplication of the oriC region was observed predominantly near an edge of the nucleoid. Before initiation occurred, each one of the DnaB and DnaI foci was frequently observed near there. Furthermore, DnaX±GFP (DnaX is a component of DNA polymerase III) foci were detected near either of the edges of the nucleoids at the onset of replication. These results suggest that the replisome is recruited into oriC near either edge of the nucleoids to initiate chromosome replication in B. subtilis.

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Regulation of Initiation ofBacillus subtilisChromosome Replication

Moriya

Imai

Hassan

et al. 1999

Plasmid

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Identification of Highly Expressed Genes in Peripheral Blood T Cells from Patients with Atopic Dermatitis

Matsumoto

Oshida

Obayashi

et al. 2002

Int Arch Allergy Immunol

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Background: Analysis of genes that are differentially expressed in patients with atopic dermatitis (AD) and normal individuals will provide important information on the underlying molecular pathogenetic mechanisms of AD. Methods: Transcript of freshly isolated peripheral blood T cells from 59 individuals were analyzed with a fluorescent differential display (FDD) method. Ninety-two differentially expressed genes were identified in this manner. Additionally, real-time quantitative RT-PCR was employed to investigate the expression of the FDD-selected genes and also genes related to T cell function. Results: A number of genes, including CC chemokine receptor 4, T cell-specific tyrosine kinase (Emt/Itk), integrin β1, integrin α6, IQGAP1 and MAR/SAR DNA-binding protein (SATB1), were shown to be more highly expressed in patients with moderate and/or severe AD than in controls or patients with mild AD. Because the products of these upregulated genes influence chemotaxis, adhesion, migration and Th2 polarization, it is suggested that in more severe AD, circulating T cells may function differently in this regard. Several other genes, the role of which in T cell function is currently unknown, were also found to be differentially expressed in AD. These included the heat shock protein 40 and vasopressin-activated calcium-mobilizing receptor 1. Conclusion: The upregulated genes identified in this work may serve as useful markers for moderate to severe AD as opposed to normal or mild AD and also as markers indicating progression to more severe AD. Further functional characterization will provide a better understanding of the pathophysiology of circulating T cells in AD.

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Yukiho Imai

Characterization and Mutational Analysis of the RecQ Core of the Bloom Syndrome Protein

Autoregulation of the dnaA-dnaN Operon and Effects of DnaA Protein Levels on Replication Initiation in Bacillus subtilis

Subcellular localization of Dna‐initiation proteins of Bacillus subtilis: evidence that chromosome replication begins at either edge of the nucleoids

Regulation of Initiation ofBacillus subtilisChromosome Replication

Identification of Highly Expressed Genes in Peripheral Blood T Cells from Patients with Atopic Dermatitis

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