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CYP51 Paralogue Structure Is Associated with Intrinsic Azole Resistance in Fungi

Norman van Rhijn, Michael Bromley, Malcolm Richardson, Paul Bowyer

2021mBio24 citationsDOIOpen Access PDF

Abstract

Azole antifungals are the main treatment for fungal disease in humans. Many species are intrinsically resistant to azoles-in other words all members of the species are resistant without prior exposure-and we do not understand why. In this study, we serendipitously discovered that many intrinsically resistant species have alternative or extra copies of the azole target gene, CYP51. Transfer of one of these genes from a resistant species to a sensitive one resulted in drug resistance, showing that the extra copies of CYP51 can confer drug resistance. Understanding how clinically important species are resistant to therapy allows us to predict whether a species could be resistant from genome sequence.

Topics & Concepts

AzoleBiologyDrug resistanceMicrobiologyAspergillusItraconazoleFungicideAspergillus fumigatusComputational biologyAntifungalBotanyAntifungal resistance and susceptibilityFungal Biology and ApplicationsPlant Pathogens and Fungal Diseases
CYP51 Paralogue Structure Is Associated with Intrinsic Azole Resistance in Fungi | Litcius