Litcius/Paper detail

HGT in the human and skin commensal <i>Malassezia</i> : A bacterially derived flavohemoglobin is required for NO resistance and host interaction

Giuseppe Ianiri, Marco A. Coelho, Fiorella Ruchti, Florian Sparber, T. McMahon, Ci Fu, Madison Bolejack, Olivia Donovan, Hayden Smutney, Peter J. Myler, Fred S. Dietrich, David T. Fox, Salomé LeibundGut‐Landmann, Joseph Heitman

2020Proceedings of the National Academy of Sciences43 citationsDOIOpen Access PDF

Abstract

Significance Malassezia species are the main fungal components of the mammalian skin microbiome and are associated with a number of skin disorders. Recently, Malassezia has also been found in association with Crohn’s disease and with pancreatic cancer. The elucidation of the molecular bases of skin adaptation by Malassezia is critical to understand its role as commensal and pathogen. In this study we employed evolutionary, molecular, biochemical, and structural analyses to demonstrate that the bacterially derived flavohemoglobins acquired by Malassezia through horizontal gene transfer resulted in a gain of function critical for nitric oxide detoxification and resistance to nitrosative stress. Our study underscores horizontal gene transfer as an important force modulating Malassezia evolution and niche adaptation.

Topics & Concepts

MalasseziaBiologyAdaptation (eye)MicrobiomeHorizontal gene transferMicrobiologyGeneHost (biology)NicheGeneticsImmunologyGenomeEcologyNeuroscienceNail Diseases and TreatmentsFungal Biology and ApplicationsLaser Applications in Dentistry and Medicine