Emilia Krypotou scite author profile

Summary NCS1 proteins are H + /Na+ symporters specific for the uptake of purines, pyrimidines and related metabolites. In this article, we study the origin, diversification and substrate specificity of fungal NCS1 transporters. We show that the two fungal NCS1 sub-families, Fur and Fcy, and plant homologues originate through independent horizontal transfers from prokaryotes and that expansion by gene duplication led to the functional diversification of fungal NCS1. We characterised all Fur proteins of the model fungus Aspergillus nidulans and discovered novel functions and specificities. Homology modelling, substrate docking, molecular dynamics and systematic mutational analysis in three Fur transporters with distinct specificities identified residues critical for function and specificity, located within a major substrate binding site, in transmembrane segments TMS1, TMS3, TMS6 and TMS8. Most importantly, we predict and confirm that residues determining substrate specificity are located not only in the major substrate binding site, but also in a putative outward-facing selective gate. Our evolutionary and structure-function analysis contributes in the understanding of the molecular mechanisms underlying the functional diversification of eukaryotic NCS1 transporters, and in particular, forward the concept that selective channel-like gates might contribute to substrate specificity.

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Control of Bacterial Virulence through the Peptide Signature of the Habitat

Krypotou

Scortti

Grundström

et al. 2019

Cell Reports

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Summary To optimize fitness, pathogens selectively activate their virulence program upon host entry. Here, we report that the facultative intracellular bacterium Listeria monocytogenes exploits exogenous oligopeptides, a ubiquitous organic N source, to sense the environment and control the activity of its virulence transcriptional activator, PrfA. Using a genetic screen in adsorbent-treated (PrfA-inducing) medium, we found that PrfA is functionally regulated by the balance between activating and inhibitory nutritional peptides scavenged via the Opp transport system. Activating peptides provide essential cysteine precursor for the PrfA-inducing cofactor glutathione (GSH). Non-cysteine-containing peptides cause promiscuous PrfA inhibition. Biophysical and co-crystallization studies reveal that peptides inhibit PrfA through steric blockade of the GSH binding site, a regulation mechanism directly linking bacterial virulence and metabolism. L. monocytogenes mutant analysis in macrophages and our functional data support a model in which changes in the balance of antagonistic Opp-imported oligopeptides promote PrfA induction intracellularly and PrfA repression outside the host.

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Modeling, Substrate Docking, and Mutational Analysis Identify Residues Essential for the Function and Specificity of a Eukaryotic Purine-Cytosine NCS1 Transporter

Krypotou

Kosti

Amillis

et al. 2012

Journal of Biological Chemistry

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Background:The purine-cytosine FcyB transporter is a prototype member of the NCS1 family. Results: Using homology modeling, substrate docking, and rational mutational analysis, we identify residues critical for function and specificity. Conclusion: Important aspects concerning the molecular mechanism and evolution of transporter specificity are revealed. Significance: The first systematic approach on structure-function-specificity relationships in a eukaryotic NCS1 member is shown.

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Transport assays in filamentous fungi: Kinetic characterization of the UapC purine transporter of Aspergillus nidulans

Krypotou

Diallinas

2014

Fungal Genetics and Biology

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Emilia Krypotou

Origin, diversification and substrate specificity in the family of NCS1/FUR transporters

Control of Bacterial Virulence through the Peptide Signature of the Habitat

Modeling, Substrate Docking, and Mutational Analysis Identify Residues Essential for the Function and Specificity of a Eukaryotic Purine-Cytosine NCS1 Transporter

Transport assays in filamentous fungi: Kinetic characterization of the UapC purine transporter of Aspergillus nidulans

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