The role of UhpA in regulating the virulence gene expression in Edwardsiella piscicida

2020 ◽  
Author(s):  
Tingqi Ye ◽  
Cuimin Mu ◽  
Jiakang Chen ◽  
Guangchen Pan ◽  
Xuepeng Wang
Keyword(s):  
Gene Expression ◽  
Virulence Gene ◽  
Virulence Gene Expression ◽  
Edwardsiella Piscicida

scholarly journals Listeria monocytogenes σB Modulates PrfA-Mediated Virulence Factor Expression

2009 ◽  
Vol 77 (5) ◽  
pp. 2113-2124 ◽  
Author(s):  
Juliane Ollinger ◽  
Barbara Bowen ◽  
Martin Wiedmann ◽  
Kathryn J. Boor ◽  
Teresa M. Bergholz
Keyword(s):  
Gene Expression ◽  
Listeria Monocytogenes ◽  
Transcriptional Activation ◽  
Virulence Gene ◽  
Transcript Profiling ◽  
Virulence Gene Expression ◽  
Qrt Pcr ◽  
Genome Wide

ABSTRACT Listeria monocytogenes σB and positive regulatory factor A (PrfA) are pleiotropic transcriptional regulators that coregulate a subset of virulence genes. A positive regulatory role for σB in prfA transcription has been well established; therefore, observations of increased virulence gene expression and hemolytic activity in a ΔsigB strain initially appeared paradoxical. To test the hypothesis that L. monocytogenes σB contributes to a regulatory network critical for appropriate repression as well as induction of virulence gene expression, genome-wide transcript profiling and follow-up quantitative reverse transcriptase PCR (qRT-PCR), reporter fusion, and phenotypic experiments were conducted using L. monocytogenes prfA*, prfA* ΔsigB, ΔprfA, and ΔprfA ΔsigB strains. Genome-wide transcript profiling and qRT-PCR showed that in the presence of active PrfA (PrfA*), σB is responsible for reduced expression of the PrfA regulon. σB-dependent modulation of PrfA regulon expression reduced the cytotoxic effects of a PrfA* strain in HepG2 cells, highlighting the functional importance of regulatory interactions between PrfA and σB. The emerging model of the role of σB in regulating overall PrfA activity includes a switch from transcriptional activation at the P2 prfA promoter (e.g., in extracellular bacteria when PrfA activity is low) to posttranscriptional downregulation of PrfA regulon expression (e.g., in intracellular bacteria when PrfA activity is high).

scholarly journals Role of the Histone-Like Nucleoid Structuring Protein in Colonization, Motility, and Bile-Dependent Repression of Virulence Gene Expression in Vibrio cholerae

2006 ◽  
Vol 74 (5) ◽  
pp. 3060-3064 ◽  
Author(s):  
Amalendu Ghosh ◽  
Kalidas Paul ◽  
Rukhsana Chowdhury
Keyword(s):  
Gene Expression ◽  
Vibrio Cholerae ◽  
Virulence Factors ◽  
Virulence Gene ◽  
Virulence Gene Expression

ABSTRACT Bile-mediated repression of virulence gene expression is relieved in a Vibrio cholerae hns mutant. The mutant also exhibited reduced motility due to lower flrA expression, higher in vivo production of the virulence factors, and lower colonization efficiency. The colonization defect of the mutant was due to low FlrA production.

The role of RNAs in the regulation of virulence-gene expression

2006 ◽  
Vol 9 (2) ◽  
pp. 229-236 ◽  
Author(s):  
Pascale Romby ◽  
François Vandenesch ◽  
E Gerhart H Wagner
Keyword(s):  
Gene Expression ◽  
Virulence Gene ◽  
Virulence Gene Expression

scholarly journals Role of Staphylococcus aureus Global Regulators sae and σB in Virulence Gene Expression during Device-Related Infection

2005 ◽  
Vol 73 (6) ◽  
pp. 3415-3421 ◽  
Author(s):  
Christiane Goerke ◽  
Ursula Fluckiger ◽  
Andrea Steinhuber ◽  
Vittoria Bisanzio ◽  
Martina Ulrich ◽  
...  
Keyword(s):  
Gene Expression ◽  
Staphylococcus Aureus ◽  
Virulence Gene ◽  
Northern Analysis ◽  
Virulence Gene Expression ◽  
Global Regulators ◽  
Reverse Transcription Pcr ◽  
Direct Cross

ABSTRACT The ability of Staphylococcus aureus to adapt to different environments is due to a regulatory network comprising several loci. Here we present a detailed study of the interaction between the two global regulators sae and σB of S. aureus and their influence on virulence gene expression in vitro, as well as during device-related infection. The expression of sae, asp23, hla, clfA, coa, and fnbA was determined in strain Newman and its isogenic saeS/R and sigB mutants by Northern analysis and LightCycler reverse transcription-PCR. There was no indication of direct cross talk between the two regulators. sae had a dominant effect on target gene expression during device-related infection. σB seemed to be less active throughout the infection than under induced conditions in vitro.

scholarly journals RNA Arbitrarily Primed PCR Survey of Genes Regulated by ToxR in the Deep-Sea Bacterium Photobacterium profundum Strain SS9

2001 ◽  
Vol 183 (5) ◽  
pp. 1688-1693 ◽  
Author(s):  
Kelly A. Bidle ◽  
Douglas H. Bartlett
Keyword(s):  
Gene Expression ◽  
Virulence Gene ◽  
Environmental Signals ◽  
Virulence Gene Expression ◽  
New Genes ◽  
Protein Encoding ◽  
Arbitrarily Primed Pcr ◽  
Photobacterium Profundum ◽  
Encoding Genes

ABSTRACT We are currently investigating the role of ToxR-mediated gene regulation in Photobacterium profundum strain SS9. SS9 is a moderately piezophilic (“pressure loving”) psychrotolerant marine bacterium belonging to the family Vibrionaceae. InVibrio cholerae, ToxR is a transmembrane DNA binding protein involved in mediating virulence gene expression in response to various environmental signals. A homolog to V. choleraeToxR that is necessary for pressure-responsive gene expression of two outer membrane protein-encoding genes was previously found in SS9. To search for additional genes regulated by ToxR in SS9, we have used RNA arbitrarily primed PCR (RAP-PCR) with wild-type and toxRmutant strains of SS9. Seven ToxR-activated transcripts and one ToxR-repressed transcript were identified in this analysis. The cDNAs corresponding to these partial transcripts were cloned and sequenced, and ToxR regulation of their genes was verified. The products of these genes are all predicted to fall into one or both of two functional categories, those whose products alter membrane structure and/or those that are part of a starvation response. The transcript levels of all eight newly identified genes were also characterized as a function of hydrostatic pressure. Various patterns of pressure regulation were observed, indicating that ToxR activation or repression cannot be used to predict the influence of pressure on gene expression in SS9. These results provide further information on the nature of the ToxR regulon in SS9 and indicate that RAP-PCR is a useful approach for the discovery of new genes under the control of global regulatory transcription factors.

Vibrio harveyi virulence gene expression in vitro and in vivo during infection in black tiger shrimp Penaeus monodon

2020 ◽  
Vol 139 ◽  
pp. 153-160
Author(s):  
S Peeralil ◽  
TC Joseph ◽  
V Murugadas ◽  
PG Akhilnath ◽  
VN Sreejith ◽  
...  
Keyword(s):  
Gene Expression ◽  
Virulence Genes ◽  
Vibrio Harveyi ◽  
Penaeus Monodon ◽  
Challenge Test ◽  
Virulence Gene ◽  
Economic Losses ◽  
Virulence Gene Expression

Luminescent Vibrio harveyi is common in sea and estuarine waters. It produces several virulence factors and negatively affects larval penaeid shrimp in hatcheries, resulting in severe economic losses to shrimp aquaculture. Although V. harveyi is an important pathogen of shrimp, its pathogenicity mechanisms have yet to be completely elucidated. In the present study, isolates of V. harveyi were isolated and characterized from diseased Penaeus monodon postlarvae from hatcheries in Kerala, India, from September to December 2016. All 23 tested isolates were positive for lipase, phospholipase, caseinase, gelatinase and chitinase activity, and 3 of the isolates (MFB32, MFB71 and MFB68) showed potential for significant biofilm formation. Based on the presence of virulence genes, the isolates of V. harveyi were grouped into 6 genotypes, predominated by vhpA+ flaB+ ser+ vhh1- luxR+ vopD- vcrD+ vscN-. One isolate from each genotype was randomly selected for in vivo virulence experiments, and the LD50 ranged from 1.7 ± 0.5 × 103 to 4.1 ± 0.1 × 105 CFU ml-1. The expression of genes during the infection in postlarvae was high in 2 of the isolates (MFB12 and MFB32), consistent with the result of the challenge test. However, in MFB19, even though all genes tested were present, their expression level was very low and likely contributed to its lack of virulence. Because of the significant variation in gene expression, the presence of virulence genes alone cannot be used as a marker for pathogenicity of V. harveyi.

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