Proteomics

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Proteomic analysis of the dpp3 knockout mutant, the reconstituted strain and the wild-type strain of Candida lusitaniae

ABSTRACT: Candida lusitaniae is an emerging human opportunistic yeast, which can switch from yeast to pseudohyphae, and one of the rare Candida species capable of sexual reproduction. Its haploid genome and the genetic tools available make it a model of interest to study gene function. This study describes the consequences of DPP3 inactivation on cell morphology and mating, both altered in the dpp3Δ knock-out. Interestingly, reintroducing a wild-type copy of the DPP3 gene in the dpp3Δ mutant failed to restore the wild-type phenotypes. Proteomic analyses showed that about 150 proteins were statistically deregulated in the dpp3Δ mutant, and that most of them did not return to their wild-type level in the reconstituted DPP3 strain. The analysis of the segregation of the dpp3Δ mutation and the phenotypes in the progeny of a cross (between the dpp3Δ knock-out and a wild-type strain) showed that the phenotypes are not linked to dpp3Δ, but to a secondary mutation. Genome sequencing of the dpp3Δ mutant allowed us to identify this secondary mutation.

INSTRUMENT(S): Q Exactive

ORGANISM(S): Clavispora Lusitaniae

SUBMITTER: Dupuy Jean-William  

LAB HEAD: Karine Dementhon

PROVIDER: PXD020220 | Pride | 2023-05-02

REPOSITORIES: Pride

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Publications

Mediator Subunit Med15 Regulates Cell Morphology and Mating in <i>Candida lusitaniae</i>.

Sabra Ayman A   Biteau Nicolas N   Dupuy Jean-William JW   Klopp Christophe C   Noël Thierry T   Dementhon Karine K  

Journal of fungi (Basel, Switzerland) 20230308 3

<i>Candida lusitaniae</i> is an emerging opportunistic pathogenic yeast capable of shifting from yeast to pseudohyphae form, and it is one of the few <i>Candida</i> species with the ability to reproduce sexually. In this study, we showed that a <i>dpp3</i>Δ mutant, inactivated for a putative pyrophosphatase, is impaired in cell separation, pseudohyphal growth and mating. The defective phenotypes were not restored after the reconstruction of a wild-type <i>DPP3</i> locus, reinforcing the hypothes  ...[more]

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