Anaísa B. Moreno scite author profile

Changes in gene expression are an important mode of evolution; however, the proximate mechanism of these changes is poorly understood. In particular, little is known about the effects of mutations within cis binding sites for transcription factors, or the nature of epistatic interactions between these mutations. Here, we tested the effects of single and double mutants in two cis binding sites involved in the transcriptional regulation of the Escherichia coli araBAD operon, a component of arabinose metabolism, using a synthetic system. This system decouples transcriptional control from any posttranslational effects on fitness, allowing a precise estimate of the effect of single and double mutations, and hence epistasis, on gene expression. We found that epistatic interactions between mutations in the araBAD cis-regulatory element are common, and that the predominant form of epistasis is negative. The magnitude of the interactions depended on whether the mutations are located in the same or in different operator sites. Importantly, these epistatic interactions were dependent on the presence of arabinose, a native inducer of the araBAD operon in vivo, with some interactions changing in sign (e.g., from negative to positive) in its presence. This study thus reveals that mutations in even relatively simple cis-regulatory elements interact in complex ways such that selection on the level of gene expression in one environment might perturb regulation in the other environment in an unpredictable and uncorrelated manner.

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Rapid adaptations of Legionella pneumophila to the human host

Leenheer

Moreno

Paranjape

et al. 2023

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Legionella pneumophila are host-adapted bacteria that infect and reproduce primarily in amoeboid protists. Using similar infection mechanisms, they infect human macrophages, and cause Legionnaires’ disease, an atypical pneumonia, and the milder Pontiac fever. We hypothesized that, despite the similarities in infection mechanisms, the hosts are different enough that there exist high-selective value mutations that would dramatically increase the fitness of Legionella inside the human host. By comparing a large number of isolates from independent infections, we identified two genes, mutated in three unrelated patients, despite the short duration of the incubation period (2–14 days). One is a gene coding for an outer membrane protein (OMP) belonging to the OmpP1/FadL family. The other is a gene coding for an EAL-domain-containing protein involved in cyclic-di-GMP regulation, which in turn modulates flagellar activity. The clinical strain, carrying the mutated EAL-domain-containing homologue, grows faster in macrophages than the wild-type strain, and thus appears to be better adapted to the human host. As human-to-human transmission is very rare, fixation of these mutations into the population and spread into the environment is unlikely. Therefore, parallel evolution – here mutations in the same genes observed in independent human infections – could point to adaptations to the accidental human host. These results suggest that despite the ability of L. pneumophila to infect, replicate in and exit from macrophages, its human-specific adaptations are unlikely to be fixed in the population.

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High-efficiency transfection ofAcanthamoeba castellaniiusing a cationic polymer

Moreno

Eriksson

et al. 2022

Preprint

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The free-living amoebaAcanthamoeba castellaniiis an ecologically, clinically, and evolutionarily important microorganisms.A. castellaniiamoebae are directly pathogenic to humans, and serve as reservoirs for bacterial pathogens (e.g.,Legionella pneumophila), but also regulate the proliferation of other microorganisms in the soil. Despite their importance, no reliable genetic system has been developed, hampering the use ofA. castellaniiand related species as model organisms. TransfectingA. castellaniiwith plasmids is possible with commercial kits, but is expensive, inefficient, and vulnerable to product discontinuation. In this contribution, we present a method for efficient transfection ofA. castellaniiwith readily available and inexpensive polyethylenimines. We systematically explore the parameters of the method, obtaining up to 100-fold higher efficiency than currently used reagents. The method presented here provides a robust step towards a full genetic toolbox forA. castellanii, hence expanding its use as a model organism.

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Anaísa B. Moreno

Epistatic Interactions in the ArabinoseCis-Regulatory Element

Rapid adaptations of Legionella pneumophila to the human host

High-efficiency transfection ofAcanthamoeba castellaniiusing a cationic polymer

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