Development and optimization of large-scale approaches to identify iron-related genes in Aspergillus fumigatus
Clara Baldin, Ulrike Binder, Jakob Scheler, Ernst R. Werner, Fabio Gsaller, Michael J. Bromley, Hubertus Haas

TL;DR
The paper introduces two efficient screening methods to identify genes related to iron metabolism in the fungus Aspergillus fumigatus, which could lead to new antifungal therapies.
Contribution
The study introduces two novel large-scale screening methods for identifying iron metabolism-related genes in fungal pathogens.
Findings
The screening methods successfully identified both known and novel mutants with altered iron metabolism.
The identified genes could serve as new targets for developing antifungal therapies.
Abstract
Recent advancements in genetic engineering have enabled the creation of extensive mutant libraries across various species, driving the need for efficient screening methods to identify mutants of interest. In this study, we developed and optimized two rapid and straightforward screening techniques to identify genes involved in iron metabolism. Iron is an essential element for almost all organisms, and in pathogens, the ability to acquire iron from the environment and mitigate the toxic effects of intracellular iron often plays a crucial role in virulence. The first screening method exploits the autofluorescence property of porphyrins, while the second one is an optimization of growth assay on solid-agar suitable for large scale analyses. To validate these methods, we applied them to a recently published protein kinase deletion mutant library in Aspergillus fumigatus, a fungal pathogen…
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Taxonomy
TopicsAntifungal resistance and susceptibility · Fungal and yeast genetics research · Fungal Biology and Applications
