Transcriptome-wide Expression Profiling of Yeast and Mycelial Forms and the Establishment of the Sporothrix Genome DataBase

Overview

Journal Microb Genom

Specialties Genetics
Microbiology

Date 2020 Oct 9

PMID 33034552

Citations 16

Authors

Domenico Giosa

Maria Rosa Felice

Letterio Giuffre

Riccardo Aiese Cigliano

Andreu Paytuvi-Gallart

Carla Lo Passo

Cinzia Barresi

Enrico dAlessandro

Huaiqiu Huang

Giuseppe Criseo

Hector M Mora-Montes

Sybren de Hoog

Orazio Romeo

Affiliations

Soon will be listed here.

Abstract

is a dimorphic fungus existing as mould in the environment and as yeast in the host. The morphological shift between mycelial/yeast phases is crucial for its virulence, but the transcriptional networks implicated in dimorphic transition are still not fully understood. Here, we report the global transcriptomic differences occurring between mould and yeast phases of , including changes in gene expression profiles associated with these distinct cellular phenotypes. Moreover, we also propose a new genome annotation, which reveals a more complex transcriptional architecture than previously assumed. Using RNA-seq, we identified a total of 17 307 genes, of which 11 217 were classified as protein-encoding genes, whereas 6090 were designated as non-coding RNAs (ncRNAs). Approximately ~71 % of all annotated genes were found to overlap and the different-strand overlapping type was the most common. Gene expression analysis revealed that 8795 genes were differentially regulated among yeast and mould forms. Differential gene expression was also observed for antisense ncRNAs overlapping neighbouring protein-encoding genes. The release of transcriptome-wide data and the establishment of the Sporothrix Genome DataBase (http://sporothrixgenomedatabase.unime.it) represent an important milestone for research, because they provide a strong basis for future studies on the molecular pathways involved in numerous biological processes.

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