Ariel Gaathon scite author profile

mazEF is a toxin-antitoxin module located on many bacterial chromosomes, including those of pathogens. Here, we report that Escherichia coli mazEF-mediated cell death is a population phenomenon requiring a quorum-sensing molecule that we call the extracellular death factor (EDF). Structural analysis revealed that EDF is a linear pentapeptide, Asn-Asn-Trp-Asn-Asn. Each of the five amino acids of EDF is important for its activity.

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A cyanobacterial AbrB‐like protein affects the apparent photosynthetic affinity for CO₂ by modulating low‐CO₂‐induced gene expression

Lieman-Hurwitz

Haimovich

Shalev-Malul

et al. 2009

Environmental Microbiology

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In Synechocystis sp. strain PCC 6803, over 450 genes are upregulated following transfer of the cells from a high (1-5% CO(2) in air, HC) to a low level of CO(2) (as in air or lower, LC). This includes sbtA, ndhF3 and cmpA involved in inorganic carbon (Ci) uptake. Earlier studies implicated NdhR in the regulation of LC-induced genes but there are indications that additional components are involved. Following extraction of proteins from cells grown under HC and (NH4)(2)SO(4) fractionation, we have identified LexA and two AbrB-like proteins, Sll0359 and Sll0822, which bind to a fragment of the sbtA promoter. Using extracts prepared from LC-grown cells, Sll0822 did not bind to the sbtA promoter despite its presence in the cells, suggesting that it may serve as a repressor of LC-induced genes. This is supported by the fact that sbtA, ndhF3 and cmpA normally expressed only under LC in the wild-type are transcribed under both HC and LC in a Deltasll0822 mutant. When grown under HC this mutant exhibits an elevated apparent photosynthetic affinity to Ci, typically observed in the wild-type only under LC. Clearly, expression of genes essential for Ci uptake was sufficient to raise the apparent photosynthetic affinity for external Ci.

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Hydralysins, a New Category of β-Pore-forming Toxins in Cnidaria

Sher¹,

Fishman²,

Zhang³

et al. 2005

Journal of Biological Chemistry

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Cnidaria are venomous animals that produce diverse protein and polypeptide toxins, stored and delivered into the prey through the stinging cells, the nematocytes. These include pore-forming cytolytic toxins such as well studied actinoporins. In this work, we have shown that the non-nematocystic paralytic toxins, hydralysins, from the green hydra Chlorohydra viridissima comprise a highly diverse group of ␤-pore-forming proteins, distinct from other cnidarian toxins but similar in activity and structure to bacterial and fungal toxins. Functional characterization of hydralysins reveals that as soluble monomers they are rich in ␤-structure, as revealed by far UV circular dichroism and computational analysis. Hydralysins bind erythrocyte membranes and form discrete pores with an internal diameter of ϳ1.2 nm. The cytolytic effect of hydralysin is cell type-selective, suggesting a specific receptor that is not a phospholipid or carbohydrate. Multiple sequence alignment reveals that hydralysins share a set of conserved sequence motifs with known pore-forming toxins such as aerolysin, ⑀-toxin, ␣-toxin, and LSL and that these sequence motifs are found in and around the poreforming domains of the toxins. The importance of these sequence motifs is revealed by the cloning, expression, and mutagenesis of three hydralysin isoforms that strongly differ in their hemolytic and paralytic activities. The correlation between the paralytic and cytolytic activities of hydralysin suggests that both are a consequence of receptor-mediated pore formation. Hydralysins and their homologues exemplify the wide distribution of ␤-pore formers in biology and provide a useful model for the study of their molecular mode of action.

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An AbrB‐like protein might be involved in the regulation of cylindrospermopsin production by Aphanizomenon ovalisporum

Shalev-Malul

Lieman-Hurwitz

Viner-Mozzini

et al. 2008

Environmental Microbiology

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Certain filamentous cyanobacteria, including Aphanizomenon ovalisporum, are potentially toxic owing to the formation of the hepatotoxin cylindrospermopsin. We previously identified a gene cluster in A. ovalisporum likely to be involved in cylindrospermopsin biosynthesis, including amidinotransferase (aoaA) and polyketide-synthase (aoaC), transcribed on the reverse strands. Analysis of the genomic region between aoaA and aoaC identified two transcription start points for each of these genes, differentially expressed under nitrogen and light stress conditions. The transcript abundances of these genes and the cylindrospermopsin level were both affected by nitrogen availability and light intensity. Gel shift assays and DNA affinity columns isolated a protein that specifically binds to a 150 bp DNA fragment from the region between aoaA and aoaC, and MS/MS analyses identified similarity to AbrB in other cyanobacteria and in Bacillus sp. Comparison of the native AbrB isolated from A. ovalisporum with that obtained after cloning and overexpression of abrB in Escherichia coli identified specific post-translational modifications in the native cyanobacterial protein. These modifications, which are missing in the protein expressed in E. coli, include N-acetylation and methylation of specific residues. We discuss the possible role of these modifications in the regulation of cylindrospermopsin production in Aphanizomenon.

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Ariel Gaathon

A Linear Pentapeptide Is a Quorum-Sensing Factor Required for mazEF -Mediated Cell Death in Escherichia coli

A cyanobacterial AbrB‐like protein affects the apparent photosynthetic affinity for CO₂ by modulating low‐CO₂‐induced gene expression

Hydralysins, a New Category of β-Pore-forming Toxins in Cnidaria

An AbrB‐like protein might be involved in the regulation of cylindrospermopsin production by Aphanizomenon ovalisporum

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Ariel Gaathon

A Linear Pentapeptide Is a Quorum-Sensing Factor Required for mazEF -Mediated Cell Death in Escherichia coli

A cyanobacterial AbrB‐like protein affects the apparent photosynthetic affinity for CO2 by modulating low‐CO2‐induced gene expression

Hydralysins, a New Category of β-Pore-forming Toxins in Cnidaria

An AbrB‐like protein might be involved in the regulation of cylindrospermopsin production by Aphanizomenon ovalisporum

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A cyanobacterial AbrB‐like protein affects the apparent photosynthetic affinity for CO₂ by modulating low‐CO₂‐induced gene expression