Kathie T. Hodge scite author profile

The present taxonomic revision deals with Neotropical species of three entomopathogenic genera that were once included in Hypocrella s. l.: Hypocrella s. str. (anamorph Aschersonia), Moelleriella (anamorph aschersonia-like), and Samuelsia gen. nov (anamorph aschersonia-like). Species of Hypocrella, Moelleriella, and Samuelsia are pathogens of scale insects (Coccidae and Lecaniidae, Homoptera) and whiteflies (Aleyrodidae, Homoptera) and are common in tropical regions. Phylogenetic analyses of DNA sequences from nuclear ribosomal large subunit (28S), translation elongation factor 1-α (TEF 1-α), and RNA polymerase II subunit 1 (RPB1) and analyses of multiple morphological characters demonstrate that the three segregated genera can be distinguished by the disarticulation of the ascospores and shape and size of conidia. Moelleriella has filiform multi-septate ascospores that disarticulate at the septa within the ascus and aschersonia-like anamorphs with fusoid conidia. Hypocrella s. str. has filiform to long-fusiform ascospores that do not disarticulate and Aschersonia s. str. anamorphs with fusoid conidia. The new genus proposed here, Samuelsia, has filiform to long-fusiform ascospores that do not disarticulate and aschersonia-like anamorphs with small allantoid conidia. In addition, the present study presents and discusses the evolution of species, morphology, and ecology in Hypocrella, Moelleriella, and Samuelsia based on multigene phylogenetic analyses.

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Polyketide synthase genes in insect- and nematode-associated fungi

Lee

Yun

Hodge

et al. 2001

Applied Microbiology and Biotechnology

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Production of polyketides is accomplished through complex enzymes known as polyketide synthases (PKS); these enzymes have highly conserved domains that might be useful in screens for PKSs in diverse groups of organisms. A degenerate PCR-based approach was used to amplify PKS fragments of the ketosynthase domain from genomic DNA of a group of insect- and nematode-associated fungi. Of 157 isolates (representing 73 genera and 144 species) screened, 92 isolates generated PCR products of predicted size (approximately 300 bp). The ability to detect PKS domains was a function of the number of different primer pairs employed in the screen. Cloning and sequencing revealed that 66 isolates had at least one unique PKS sequence; ten members of this set contained multiple PKS fragments, for a total of 76 unique PKS fragments. Since PKS genes appear to be widespread among fungi, a PCR-based screening system appears to be an efficient, directed means to identify organisms having the potential to produce polyketides.

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Evolutionary relationships among Massospora spp. (Entomophthorales), obligate pathogens of cicadas

et al. 2020

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Fruit infected with Paecilomyces niveus: A source of spoilage inoculum and patulin in apple juice concentrate?

et al. 2019

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Psychoactive plant- and mushroom-associated alkaloids from two behavior modifying cicada pathogens

Boyce

Gluck‐Thaler

Slot

et al. 2018

Preprint

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Entomopathogenic fungi routinely kill their hosts before releasing infectious spores, but select species keep insects alive while sporulating, which enhances dispersal. Transcriptomics and metabolomics studies of entomopathogens with post-mortem dissemination from their parasitized hosts have unraveled infection processes and host responses, yet mechanisms underlying active spore transmission by Entomophthoralean fungi in living insects remain elusive. Here we report the discovery, through metabolomics, of the plant-associated amphetamine, cathinone, in four Massospora cicadina-infected periodical cicada populations, and the mushroom-associated tryptamine, psilocybin, in annual cicadas infected with Massospora platypediae or Massospora levispora, which appear to represent a single fungal species. The absence of some fungal enzymes necessary for cathinone and psilocybin biosynthesis along with the inability to detect intermediate metabolites or gene orthologs are consistent with possibly novel biosynthesis pathways in Massospora. The neurogenic activities of these compounds suggest the extended phenotype of Massospora that modifies cicada behavior to maximize dissemination is chemically-induced.

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A revision of Verticillium sect. Prostrata. II. Phylogenetic analyses of SSU and LSU nuclear rDNA sequences from anamorphs and teleomorphs of the Clavicipitaceae

Sung¹,

Spatafora²,

Zare³

et al. 2001

nova_hedwigia

107

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What's in a name? Aschersonia insperata: a new pleoanamorphic fungus with characteristics of Aschersonia and Hirsutella

Liu¹,

Rombach²,

Humber³

et al. 2005

Mycologia

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A new anamorphic species from a Philippine tropical forest occurs as reddish-orange to orange, tuberculate stromata on unidentified homopteran larvae, and produces both Aschersonia and Hirsutella-like synanamorphs. A molecular phylogenetic analysis was conducted to determine the most appropriate generic placement for this fungus. Based on its phylogenetic relationships, a comparison of the complexity and persistence of each anamorph, and the speculated relevance of each synanamorph to survival, we describe the new fungus as Aschersonia insperata sp. nov.

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Kathie T. Hodge

Preserving Accuracy in GenBank

A monograph of the entomopathogenic genera Hypocrella, Moelleriella, and Samuelsia gen. nov. (Ascomycota, Hypocreales, Clavicipitaceae), and their aschersonia-like anamorphs in the Neotropics

Polyketide synthase genes in insect- and nematode-associated fungi

Evolutionary relationships among Massospora spp. (Entomophthorales), obligate pathogens of cicadas

Fruit infected with Paecilomyces niveus: A source of spoilage inoculum and patulin in apple juice concentrate?

Psychoactive plant- and mushroom-associated alkaloids from two behavior modifying cicada pathogens

A revision of Verticillium sect. Prostrata. II. Phylogenetic analyses of SSU and LSU nuclear rDNA sequences from anamorphs and teleomorphs of the Clavicipitaceae

What's in a name? Aschersonia insperata: a new pleoanamorphic fungus with characteristics of Aschersonia and Hirsutella

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