Emily Starr scite author profile

Sigma B (B ) is an alternative sigma factor that controls the transcriptional response to stress in Listeria monocytogenes and is also known to play a role in the virulence of this human pathogen. In the present study we investigated the impact of a sigB deletion on the proteome of L. monocytogenes grown in a chemically defined medium both in the presence and in the absence of osmotic stress (0.5 M NaCl). Two new phenotypes associated with the sigB deletion were identified using this medium. (i) Unexpectedly, the strain with the ⌬sigB deletion was found to grow faster than the parent strain in the growth medium, but only when 0.5 M NaCl was present. This phenomenon was independent of the carbon source provided in the medium. (ii) The ⌬sigB mutant was found to have unusual Gram staining properties compared to the parent, suggesting that B contributes to the maintenance of an intact cell wall. A proteomic analysis was performed by two-dimensional gel electrophoresis, using cells growing in the exponential and stationary phases. Overall, 11 proteins were found to be differentially expressed in the wild type and the ⌬sigB mutant; 10 of these proteins were expressed at lower levels in the mutant, and 1 was overexpressed in the mutant. All 11 proteins were identified by tandem mass spectrometry, and putative functions were assigned based on homology to proteins from other bacteria. Five proteins had putative functions related to carbon utilization (Lmo0539, Lmo0783, Lmo0913, Lmo1830, and Lmo2696), while three proteins were similar to proteins whose functions are unknown but that are known to be stress inducible (Lmo0796, Lmo2391, and Lmo2748). To gain further insight into the role of B in L. monocytogenes, we deleted the genes encoding four of the proteins, lmo0796, lmo0913, lmo2391, and lmo2748. Phenotypic characterization of the mutants revealed that Lmo2748 plays a role in osmotolerance, while Lmo0796, Lmo0913, and Lmo2391 were all implicated in acid stress tolerance to various degrees. Invasion assays performed with Caco-2 cells indicated that none of the four genes was required for mammalian cell invasion. Microscopic analysis suggested that loss of Lmo2748 might contribute to the cell wall defect observed in the ⌬sigB mutant. Overall, this study highlighted two new phenotypes associated with the loss of B . It also demonstrated clear roles for B in both osmotic and low-pH stress tolerance and identified specific components of the B regulon that contribute to the responses observed.

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Rapid, Transient, and Proportional Activation of σ ^B in Response to Osmotic Stress in Listeria monocytogenes

Utratna

Shaw

Starr

et al. 2011

Appl Environ Microbiol

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Development of a Convenient Competitive ELISA for the Detection of the Free and Protein-Bound Nonhuman Galactosyl-α-(1,3)-Galactose Epitope Based on Highly Specific Chicken Single-Chain Antibody Variable-Region Fragments

et al. 2012

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The presence of the nonhuman galactosyl-α-(1,3)-galactose (Gal-α-(1,3)-Gal) carbohydrate epitope on a number of recombinant therapeutic proteins has recently been reported, renewing interest in this immunogenic carbohydrate epitope. It is well-known that this motif is the primary contributing factor in hyperacute rejection of porcine organ xenograft, due to the existence of natural antibodies against this epitope in human serum. Though the number of epitopes on recombinant glycoproteins may be low when compared directly to whole tissue, circulating anti-Gal-α-R immunoglobulins can still induce anaphylaxis. Therefore, there is a need for rapid and convenient methods for detection and monitoring of this epitope in biopharmaceuticals produced in recombinant mammalian systems. To this end, we have generated immune-challenged chicken single-chain antibody variable-region fragment (scFv) libraries targeting the Gal-α-(1,3)-Gal motif and have selected a panel of scFv's that bind the target. We have used one of these antibodies to develop a competitive ELISA for both free and protein-bound Gal-α-(1,3)-Gal and have demonstrated that the ELISA is specific for the target and can be used to determine the loading of the target on glycoproteins. This competitive ELISA will provide a convenient method of detecting and quantifying Gal-α-(1,3)-Gal on therapeutic glycoproteins.

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Emily Starr

Identification of Components of the Sigma B Regulon in Listeria monocytogenes That Contribute to Acid and Salt Tolerance

Rapid, Transient, and Proportional Activation of σ ^B in Response to Osmotic Stress in Listeria monocytogenes

Development of a Convenient Competitive ELISA for the Detection of the Free and Protein-Bound Nonhuman Galactosyl-α-(1,3)-Galactose Epitope Based on Highly Specific Chicken Single-Chain Antibody Variable-Region Fragments

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Emily Starr

Identification of Components of the Sigma B Regulon in Listeria monocytogenes That Contribute to Acid and Salt Tolerance

Rapid, Transient, and Proportional Activation of σ B in Response to Osmotic Stress in Listeria monocytogenes

Development of a Convenient Competitive ELISA for the Detection of the Free and Protein-Bound Nonhuman Galactosyl-α-(1,3)-Galactose Epitope Based on Highly Specific Chicken Single-Chain Antibody Variable-Region Fragments

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Rapid, Transient, and Proportional Activation of σ ^B in Response to Osmotic Stress in Listeria monocytogenes