Cristhian Grabowski Ocampos scite author profile

Accessory genes are variably present among members of a species and are a reservoir of adaptive functions. In bacteria, differences in gene distributions among individuals largely result from mobile elements that acquire and disperse accessory genes as cargo. In contrast, the impact of cargo-carrying elements on eukaryotic evolution remains largely unknown. Here, we show that variation in genome content within multiple fungal species is facilitated by Starships, a newly discovered group of massive mobile elements that are 110 kb long on average, share conserved components, and carry diverse arrays of accessory genes. We identified hundreds of Starship-like regions across every major class of filamentous Ascomycetes, including 28 distinct Starships that range from 27-393 kb and last shared a common ancestor ca. 400 mya. Using new long-read assemblies of the plant pathogen Macrophomina phaseolina, we characterize 4 additional Starships whose activities contribute to standing variation in genome structure and content. One of these elements, Voyager, inserts into 5S rDNA and contains a candidate virulence factor whose increasing copy number has contrasting associations with pathogenic and saprophytic growth, suggesting Voyager’s activity underlies an ecological trade-off. We propose that Starships are eukaryotic analogs of bacterial integrative and conjugative elements based on parallels between their conserved components and may therefore represent the first dedicated agents of active gene transfer in eukaryotes. Our results suggest that Starships have shaped the content and structure of fungal genomes for millions of years and reveal a new concerted route for evolution throughout an entire eukaryotic phylum.

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GiantStarshipelements mobilize accessory genes in fungal genomes

Gluck‐Thaler

Ralston

Konkel

et al. 2021

Preprint

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Accessory genes are variably present among members of a species and are a reservoir of adaptive functions. In bacteria, differences in gene distributions among individuals largely result from mobile elements that acquire and disperse accessory genes as cargo. In contrast, the impact of cargo-carrying elements on eukaryotic evolution remains largely unknown. Here, we show that variation in genome content within multiple fungal species is facilitated by Starships, a novel group of massive mobile elements that are 110 kb long on average, share conserved components, and carry diverse arrays of accessory genes. We identified hundreds of Starship-like regions across every major class of filamentous Ascomycetes, including 28 distinct Starships that range from 27-393 kb and last shared a common ancestor ca. 400 mya. Using new long-read assemblies of the plant pathogen Macrophomina phaseolina, we characterize 4 additional Starships whose past and ongoing activities contribute to standing variation in genome structure and content. One of these elements, Voyager, inserts into 5S rDNA and contains a candidate virulence factor whose increasing copy number has contrasting associations with pathogenic and saprophytic growth, suggesting Voyager activity underlies an ecological trade-off. We propose that Starships are eukaryotic analogs of bacterial integrative and conjugative elements based on parallels between their conserved components and may therefore represent the first known agents of active gene transfer in eukaryotes. Our results suggest that Starships have shaped the content and structure of fungal genomes for millions of years and reveal a new concerted route for evolution throughout an entire eukaryotic phylum.

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First Report of Ralstonia solanacearum Causing Bacterial Wilt of Eucalyptus in Ecuador

et al. 2021

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In January 2018, eucalyptus trees showing wilt symptoms were identified in a commercial plantation located in the Quevedo Cantón, Los Ríos province, Ecuador. Disease incidence reached 40% of the eucalyptus field and affected plants displayed reddening and wilting of the foliage, leaf drop, branch dieback, and reduced growth, resembling bacterial wilting symptoms (Santiago et al., 2014). Transverse sections made on trunks of wilted trees revealed vascular discoloration of the wood and bacterial ooze. Wood pieces taken from discoloured tissues were surface disinfected and macerated in sterilized distilled water. The resulting suspensions were spread on plates containing triphenyltetrazolium chloride medium (TZC) (Kelman, 1954) and incubated at 28°C for 48 h. Three mucoid white colonies with pinkish centers, characteristic of Ralstonia solanacearum, were purified (Figure S1C). The isolates were Gram negative in the KOH test, non-fluorescent on King's B medium, and formed cream colonies on yeat extract-dextrose-calcium carbonate (YDC) medium. Phylotype-specific multiplex PCR (PMX-PCR) (Fegan and Prior, 2005) and phylogenetic analysis based on partial endoglucanase (egl) gene sequences (Poussier et al. 2000) (Figure S2) identified the isolates as R. solanacearum Phylotype IIB sequevar 51. The isolates were preserved in the COAD culture collection of the Universidade Federal de Vicosa, Brazil (codes COAD 2586, 2587 and 2588) and the corresponding egl DNA sequences were deposited in the GenBank (accession numbers MH350031, MH350032 and MH350033). Pathogenicity tests were conducted with all three isolates. Twenty microliters of bacterial suspensions (108 CFU/mL of saline solution) were injected at the base of the stem of eucalyptus (Eucalyptus urograndis), banana (Musa sp. cv. Maçã) and tomato (Solanum lycopersicum cv. Santa Clara) plants kept in a greenhouse (28 ± 2 °C) (Fonseca et al., 2016). Three plants of each host species were inoculated per bacterial isolate and plants injected with distilled water were used as controls. Necrotic symptoms appeared at the inoculation site on eucalyptus plants after 10 days. Wilt symptoms started at the top and progressed towards the base of the plants (Figure S1A). Tomato plants died within one week, and eucalyptus seedlings died after three weeks. The inoculated banana seedlings and all plants from the control treatments remained asymptomatic. Bacterial ooze was observed on freshly-cut transverse sections made on wilted eucalyptus seedlings (Figure S1B) and typical colonies of R. solanacearum were isolated from inoculated plants, fulfilling Koch’s postulates. The correct diagnosis of the pathogen is the first step in the long-term process of developing effective management tools for this disease in Ecuador.

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First Report of the Reniform Nematode (Rotylenchulus reniformis) from Soybean in Paraguay

et al. 2018

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