Kristin Hasselt scite author profile

The effect of nitrogen regulation on the level of transcriptional control has been investigated in a variety of bacteria, such as Bacillus subtilis, Corynebacterium glutamicum, Escherichia coli, and Streptomyces coelicolor; however, until now there have been no data for mycobacteria. In this study, we found that the OmpR-type regulator protein GlnR controls nitrogen-dependent transcription regulation in Mycobacterium smegmatis. Based on RNA hybridization experiments with a wild-type strain and a corresponding mutant strain, real-time reverse transcription-PCR analyses, and DNA binding studies using cell extract and purified protein, the glnA (msmeg_4290) gene, which codes for glutamine synthetase, and the amtB (msmeg_2425) and amt1 (msmeg_6259) genes, which encode ammonium permeases, are controlled by GlnR. Furthermore, since glnK (msmeg_2426), encoding a PII-type signal transduction protein, and glnD (msmeg_2427), coding for a putative uridylyltransferase, are in an operon together with amtB, these genes are part of the GlnR regulon as well. The GlnR protein binds specifically to the corresponding promoter sequences and functions as an activator of transcription when cells are subjected to nitrogen starvation.

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DNA binding by Corynebacterium glutamicum TetR-type transcription regulator AmtR

Muhl

Jeßberger

Hasselt

et al. 2009

BMC Molecular Biol

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Background: The TetR family member AmtR is the central regulator of nitrogen starvation response in Corynebacterium glutamicum. While the AmtR regulon was physiologically characterized in great detail up to now, mechanistic questions of AmtR binding were not addressed. This study presents a characterization of functionally important amino acids in the DNA binding domain of AmtR and of crucial nucleotides in the AmtR recognition motif.

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Adaptation of AmtR-controlled gene expression by modulation of AmtR binding activity in Corynebacterium glutamicum

Hasselt

Simone

Worsch

et al. 2011

Journal of Biotechnology

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Induction of the NFκ-B signal transduction pathway in response to Corynebacterium diphtheriae infection

Ott

Scholz

Höller

et al. 2013

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Corynebacterium diphtheriae, the causative agent of diphtheria, has been thoroughly studied with respect to toxin production and pili formation, while knowledge on host responses to C. diphtheriae infection is limited. In this study, we studied adhesion to and invasion of epithelial cells by different C. diphtheriae isolates. When NFk-B reporter cell lines were used to monitor the effect of C. diphtheriae infection on human cells, strain-specific differences were observed. While adhesion to host cells had no effect, a correlation of invasion rate with NFk-B induction was found, which indicates that internalization of bacteria is crucial for NFk-B induction.Immunofluorescence microscopy experiments used to support the reporter assays showed that translocation of p65, as a hallmark of NFk-B induction, was only observed in association with cell invasion by C. diphtheriae. Our data indicate that the response of epithelial cells to C. diphtheriae infection is determined by internalization of bacteria and that invasion of these cells is an active process; tetracycline-treated C. diphtheriae was still able to attach to host cells, but lost its ability to invade the cytoplasm. Recognition of pathogen-associated molecular patterns such as pili subunits by membrane-bound receptors facing the outside of the cell is not sufficient for NFk-B induction.

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Colonization of human epithelial cell lines by Corynebacterium ulcerans from human and animal sources

Hacker

Ott

Hasselt

et al. 2015

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Corynebacterium ulcerans is an emerging pathogen transmitted by a zoonotic pathway to humans. Despite rising numbers of infections and potentially fatal outcomes, data on the colonization of the human host are lacking up to now. In this study, adhesion of two C. ulcerans isolates to human epithelial cells, invasion of host cells and the function of two putative virulence factors with respect to these processes were investigated. C. ulcerans strains BR-AD22 and 809 were able to adhere to Detroit562 and HeLa cells, and invade these epithelial cell lines with a rate comparable to other pathogens as shown by scanning electron microscopy, fluorescence microscopy and replication assays. Infection led to detrimental effects on the cells as deduced from measurements of transepithelial resistance. Mutant strains of putative virulence factors phospholipase D and DIP0733 homologue CULC22_00609 generated in this study showed no influence on colonization under the experimental conditions tested. The data presented here indicate a high infectious potential of this emerging pathogen.

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Kristin Hasselt

Nitrogen Control in Mycobacterium smegmatis : Nitrogen-Dependent Expression of Ammonium Transport and Assimilation Proteins Depends on the OmpR-Type Regulator GlnR

DNA binding by Corynebacterium glutamicum TetR-type transcription regulator AmtR

Adaptation of AmtR-controlled gene expression by modulation of AmtR binding activity in Corynebacterium glutamicum

Induction of the NFκ-B signal transduction pathway in response to Corynebacterium diphtheriae infection

Colonization of human epithelial cell lines by Corynebacterium ulcerans from human and animal sources

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