Can we use environmental DNA as holotypes?

Hongsanan, Sinang; Jeewon, Rajesh; Purahong, Witoon; Liu, Jian‐Kui; Jayawardena, Ruvishika S.; Ekanayaka, Anusha H.; Dissanayake, Asha J.; Raspé, Olivier; Hyde, Kevin D.; Stadler, Marc; Peršoh, Derek

doi:10.1007/s13225-018-0404-x

Cited by 50 publications

(42 citation statements)

References 165 publications

(194 reference statements)

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“…Our results were in agreement with a recent genomic study identifying the biosynthetic gene clusters for verticillins in C. rogersoniana [76]. As the ITS region alone is not informative to identify species in certain orders of the Ascomycota, including Hypocreales [33], future taxonomic and molecular phylogenetic studies will incorporate sequence data from protein-coding regions to more precisely identify species names for verticillin-producing strains [54]. The sequence data were deposited in GenBank (accession numbers: KX845687, KX845688, MH421853, MH421854, MH421855, MH421856, MH421857, MH421858, MH421859, and MH421860).…”

Section: Methodssupporting

confidence: 92%

Media studies to enhance the production of verticillins facilitated by in situ chemical analysis

Amrine

Raja

Darveaux

et al. 2018

Journal of Industrial Microbiology and Biotechnology

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Verticillins are a group of epipolythiodioxopiperazine alkaloids that have displayed potent cytotoxicity. To evaluate their potential further, a larger supply of these compounds was needed for both in vivo studies and analogue development via semisynthesis. To optimize the biosynthesis of these secondary metabolites, their production was analyzed in two different fungal strains (MSX59553 and MSX79542) under a suite of fermentation conditions. These studies were facilitated by the use of the droplet-liquid microjunction-surface sampling probe (droplet probe), which enables chemical analysis in situ directly from the surface of the cultures. These experiments showed that the production of verticillins was greatly affected by growth conditions; a significantly higher quantity of these alkaloids was noted when the fungal strains were grown on an oatmeal-based medium. Using these technologies to select the best among the tested growth conditions, the production of the verticillin analogues was increased while concomitantly decreasing the time required for fermentations from 5 weeks to about 11 days. Importantly, where we could previously supply 5–10 mg every 6 weeks, we are now able to supply 50–150 mg quantities of key analogues per month via laboratory scale fermentation.

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Section: Methodssupporting

confidence: 92%

Media studies to enhance the production of verticillins facilitated by in situ chemical analysis

Amrine

Raja

Darveaux

et al. 2018

Journal of Industrial Microbiology and Biotechnology

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“…An apparently growing problem in GenBank is that one can often not rely on already deposited sequences to name species. Indeed, a relatively high proportion of publicly deposited sequences are associated with the wrong taxon names, an aspect that has repeatedly been discussed (Bidartondo 2008;De Carvalho et al 2007;Herr et al 2015;Hongsanan et al 2018;Kang et al 2010;Lindahl et al 2013;Nilsson et al 2006Nilsson et al , 2014. The proportion of misidentified fungal sequences in public databases was estimated upwards 10 or even 20% (Nilsson et al 2006;Vilgalys 2003).…”

Section: Reliability Of Publicly Deposited Barcode Sequencesmentioning

confidence: 99%

The unbearable lightness of sequenced-based identification

Hofstetter

Buyck

Eyssartier³

et al. 2019

Fungal Diversity

100

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Using the basic GenBank local alignment search tool program (BLAST) to identify fungi collected in a recently protected beech forest at Montricher (Switzerland), the number of ITS sequences associated to the wrong taxon name appears to be around 30%, even higher than previously estimated. Such results rely on the in-depth re-examination of BLAST results for the most interesting species that were collected, viz. first records for Switzerland, rare or patrimonial species and problematic species (when BLAST top scores were equally high for different species), all belonging to Agaricomycotina. This paper dissects for the first time a number of sequence-based identifications, thereby showing in every detail-particularly to the user community of taxonomic information-why sequence-based identification in the context of a fungal inventory can easily go wrong. Our first conclusion is that in-depth examination of BLAST results is too time consuming to be considered as a routine approach for future inventories: we spent two months on verification of approx. 20 identifications. Apart from the fact that poor taxon coverage in public depositories remains the principal impediment for successful species identification, it can be deplored that even very recent fungal sequence deposits in GenBank involve an uncomfortably high number of misidentifications or errors with associated metadata. While checking the original publications associated with top score sequences for the few examples that were here reexamined , a positive consequence is that we uncovered over 80 type sequences that were not annotated as types in GenBank. Advantages and pitfalls of sequence-based identification are discussed, particularly in the light of undertaking fungal inventories. Recommendations are made to avoid or reduce some of the major problems with sequence-based identification. Nevertheless, the prospects for a more reliable sequence-based identification of fungi remain quite dim, unless authors are ready to check and update the metadata associated with previously deposited sequences in their publications.

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“…However, traditional molecular tools are most applicable to cultivatable and fast-growing species isolated from the environment, whose DNA can be extracted from single spore isolates or from fresh specimens. This approach, however, cannot be applied to unculturable fungi (Hongsanan et al 2018). This limitation has now been overcome via cultureindependent techniques, specifically metagenomics (Blackwell 2011).…”

Section: Hurdles In Fungal Taxonomymentioning

confidence: 99%

<p class="ZootaxaTitle">Hurdles in fungal taxonomy: Effectiveness of recent methods in discriminating taxa

Chethana

Jayawardena

Hyde

2020

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The fungal kingdom is estimated to comprise between 2.2 to 3.8 million species with only about 7% named and classified. Novel biochemical, physiological and molecular techniques have been utilized to improve the systematics of fungal taxa and estimates of their diversity. Multidisciplinary approaches should be used for resolving species and higher taxa of the fungi. However, even with all the benefits of the new techniques, they are also providing unclear results and taxonomic instability. Taxonomists should be aware of these issues and should follow pragmatic approaches. In order to overcome these taxonomic challenges, cooperation and communication among mycologists worldwide are crucial for the study of fungal diversity.

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Can we use environmental DNA as holotypes?

Cited by 50 publications

References 165 publications

Media studies to enhance the production of verticillins facilitated by in situ chemical analysis

Media studies to enhance the production of verticillins facilitated by in situ chemical analysis

The unbearable lightness of sequenced-based identification

<p class="ZootaxaTitle">Hurdles in fungal taxonomy: Effectiveness of recent methods in discriminating taxa

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