Bacterial-like nonribosomal peptide synthetases produce cyclopeptides in the zygomycetous fungus<i>Mortierella alpina</i>

Wurlitzer, Jacob M.; Stanišić, Aleksa; Wasmuth, Ina; Jungmann, Sandra; Fischer, Dagmar; Kries, Hajo; Gressler, Markus

doi:10.1101/2020.08.21.262279

Cited by 2 publications

References 77 publications

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The interkingdom horizontal gene transfer in 44 early diverging fungi boosted their metabolic, adaptive and immune capabilities

Ciach

Pawłowska

Muszewska

2021

Preprint

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Numerous studies have been devoted to individual cases of horizontally acquired genes in fungi. It has been shown that such genes expand their metabolic capabilities and contribute to their adaptations as parasites or symbionts. Some studies have provided a more extensive characterization of the horizontal gene transfer (HGT) in Dikarya. However, in the early diverging fungi (EDF), the overall influence of HGT on the ecological adaptation and evolution is largely unknown. In order to fill this gap, we have designed a computational pipeline to obtain a sample of over 600 phylogenetic trees with evidence for recent to moderately old HGT across multiple EDF genomes ranging from Chytridiomycota and Blastocladiomycota to Mucoromycota. Our pipeline is designed to obtain a small sample of reliable HGT events with a possibly minimal number of false detections that distort the overall statistical patterns. We show that transfer rates differ greatly between closely related species and strains, but the ancestrally aquatic fungi are generally more likely to acquire foreign genetic material than terrestrial ones. A close ecological relationship with another organism is a predisposing condition, but does not always result in an extensive gene exchange, with some fungal lineages showing a preference for HGT from loosely associated soil bacteria.ImportanceAlthough it is now recognized that horizontal gene exchange is a factor influencing the adaptation and evolution of eukaryotic organisms, the so far described cases in early diverging fungi (EDF) are fragmentary, and a large-scale comprehensive study is lacking. We have designed a methodology to obtain a reliable, statistical sample of inter-kingdom xenologs across the tree of life of EDF to give a preliminary characterization of their general properties and patterns. We study how different fungal lineages vary in terms of the number of xenologs, what are their ecological associations, and the molecular properties of proteins encoded by the acquired genes. Our results help to better understand to what extent and in what way the incorporation of foreign genetic material shaped the present biodiversity of fungi.

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The interkingdom horizontal gene transfer in 44 early diverging fungi boosted their metabolic, adaptive and immune capabilities

Ciach

Pawłowska

Muszewska

2021

Preprint

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Terpenoid Biosynthesis Dominates among Secondary Metabolite Clusters in Mucoromycotina Genomes

Koczyk

Pawłowska

Muszewska

2021

JoF

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Early-diverging fungi harbour unprecedented diversity in terms of living forms, biological traits and genome architecture. Before the sequencing era, non-Dikarya fungi were considered unable to produce secondary metabolites (SM); however, this perspective is changing. The main classes of secondary metabolites in fungi include polyketides, nonribosomal peptides, terpenoids and siderophores that serve different biological roles, including iron chelation and plant growth promotion. The same classes of SM are reported for representatives of early-diverging fungal lineages. Encouraged by the advancement in the field, we carried out a systematic survey of SM in Mucoromycotina and corroborated the presence of various SM clusters (SMCs) within the phylum. Among the core findings, considerable representation of terpene and nonribosomal peptide synthetase (NRPS)-like candidate SMCs was found. Terpene clusters with diverse domain composition and potentially highly variable products dominated the landscape of candidate SMCs. A uniform low-copy distribution of siderophore clusters was observed among most assemblies. Mortierellomycotina are highlighted as the most potent SMC producers among the Mucoromycota and as a source of novel peptide products. SMC identification is dependent on gene model quality and can be successfully performed on a batch scale with genomes of different quality and completeness.

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Bacterial-like nonribosomal peptide synthetases produce cyclopeptides in the zygomycetous fungusMortierella alpina

Cited by 2 publications

References 77 publications

The interkingdom horizontal gene transfer in 44 early diverging fungi boosted their metabolic, adaptive and immune capabilities

The interkingdom horizontal gene transfer in 44 early diverging fungi boosted their metabolic, adaptive and immune capabilities

Terpenoid Biosynthesis Dominates among Secondary Metabolite Clusters in Mucoromycotina Genomes

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