Revealing the high variability on nonconserved core and mobile elements of Austropuccinia psidii and other rust mitochondrial genomes.

Jaqueline Raquel De Almeida,Livia Maria Franceschini,Carlos Alberto Labate,Claudia Barros Monteiro-Vitorello,Jessica Aparecida Ferrarezi,Diego Mauricio Riaño Pachón,Pedro Avelino Maia De Andrade,Maria Carolina Quecine,Isaneli Batista Dos Santos

doi:10.1371/journal.pone.0248054

Jaqueline Raquel De Almeida, Livia Maria Franceschini + Show 7 more

Open Access

https://doi.org/10.1371/journal.pone.0248054

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Journal: PloS one	Publication Date: Mar 11, 2021
Citations: 5	License type: CC BY 4.0

Affiliation: Universidade de São Paulo

Abstract

Mitochondrial genomes are highly conserved in many fungal groups, and they can help characterize the phylogenetic relationships and evolutionary biology of plant pathogenic fungi. Rust fungi are among the most devastating diseases for economically important crops around the world. Here, we report the complete sequence and annotation of the mitochondrial genome of Austropuccinia psidii (syn. Puccinia psidii), the causal agent of myrtle rust. We performed a phylogenomic analysis including the complete mitochondrial sequences from other rust fungi. The genome composed of 93.299 bp has 73 predicted genes, 33 of which encoded nonconserved proteins (ncORFs), representing almost 45% of all predicted genes. A. psidii mtDNA is one of the largest rust mtDNA sequenced to date, most likely due to the abundance of ncORFs. Among them, 33% were within intronic regions of diverse intron groups. Mobile genetic elements invading intron sequences may have played significant roles in size but not shaping of the rust mitochondrial genome structure. The mtDNAs from rust fungi are highly syntenic. Phylogenetic inferences with 14 concatenated mitochondrial proteins encoded by the core genes placed A. psidii according to phylogenetic analysis based on 18S rDNA. Interestingly, cox1, the gene with the greatest number of introns, provided phylogenies not congruent with the core set. For the first time, we identified the proteins encoded by three A. psidii ncORFs using proteomics analyses. Also, the orf208 encoded a transmembrane protein repressed during in vitro morphogenesis. To the best of our knowledge, we presented the first report of a complete mtDNA sequence of a member of the family Sphaerophragmiacea.

Highlights

Rust fungi, classified as the most devastating diseases worldwide, are widely distributed in nature [1]
Austropuccinia psidii [2,3] is an obligate biotrophic plant pathogen that is the causal agent of myrtle rust
We explored the evolutionary dynamics of the mitochondrial genomes of rust fungi by a comparative mtDNA focused on mobile element analysis

Summary

Introduction

Rust fungi, classified as the most devastating diseases worldwide, are widely distributed in nature [1]. Austropuccinia psidii [2,3] is an obligate biotrophic plant pathogen that is the causal agent of myrtle rust. This pathogen has evolved specialized structures, such as haustoria, formed within the host tissue to efficiently acquire nutrients and suppress host defenses [4,5]. It is becoming significant to Myrtle species in its origin center Australia. A maximum-likelihood phylogenetic analysis using the sequences of the nuclear ribosomal RNA genes suggested that A. psidii does not belong to Puccinia but should be within the new genus Austropuccinia of Pucciniales in the redefined family Sphaerophragmiaceae [3]

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