A PKS gene, pks-1, is involved in chaetoglobosin biosynthesis, pigmentation and sporulation in Chaetomium globosum

Hu, Yang; Hao, Xiaoran; Lou, Jing; Zhang, Ping; Pan, Jiao; Zhu, Xudong

doi:10.1007/s11427-012-4409-5

Cited by 42 publications

(45 citation statements)

References 53 publications

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“…This pattern follows the general paradigm that fungal isolates with greater melanization are less sensitive to fungicides (Butler and Day, 1998;Nosanchuk and Casadevall, 2006;Taborda et al, 2008), with the underlying mechanism thought to be direct binding of melanin to the fungicide (Nosanchuk and Casadevall, 2006). Although the involvement of PKS1 in DHN melanin biosynthesis and the association between melanin and fungicide resistance was already established (Butler and Day, 1998;Hu et al, 2012), we are not aware of previous work finding a direct association between PKS1 and fungicide resistance in a filamentous ascomycete. We postulate that mutations in PKS1 may explain the emergence of azole resistance in other ascomycete fungi.…”

Section: Indication For Pleiotropy On Chromosome 11 In Cross 3d1 â 3d7supporting

confidence: 67%

QTL mapping of fungicide sensitivity reveals novel genes and pleiotropy with melanization in the pathogen Zymoseptoria tritici

Lendenmann

Croll

McDonald

2015

Fungal Genetics and Biology

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Section: Indication For Pleiotropy On Chromosome 11 In Cross 3d1 â 3d7supporting

confidence: 67%

QTL mapping of fungicide sensitivity reveals novel genes and pleiotropy with melanization in the pathogen Zymoseptoria tritici

Lendenmann

Croll

McDonald

2015

Fungal Genetics and Biology

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“…Knock-down of a polyketide (DHN)-melanin PKS gene by RNAi or inhibition of melanin biosynthetic pathway by tricyclazole in Chaetomium globosum led to full defects in both melanin production and conidia formation (Hu et al, 2012). Similar phenotype was also observed in the maize pathogen Cochliobolus heterotrophus, in which melanization and conidiation were both under the negative control of the LaeA and VeA complexes (Wu et al, 2012).…”

Section: Discussionmentioning

confidence: 60%

Melanin is required for the formation of the multi-cellular conidia in the endophytic fungus Pestalotiopsis microspora

Liang

Liu

et al. 2015

Microbiological Research

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Melanin plays an important role in regulating various biological processes in many fungi. However, its biological role in conidiation remains largely elusive. We report here that conidia production, morphogenesis, integrity, germination and their viability in Pestalotiopsis microspora require the polyketide-derived melanin. A polyketide synthase gene, pks1, was identified and demonstrated responsible for melanin biosynthesis in this fungus. A targeted deletion mutant strain Δpks1 displayed a defect in pigmentation of conidia and had an albino colonial phenotype. Interestingly, Δpks1 produced approximately 6-fold as many conidia as the wild type did, suggesting a negative modulation of melanin on conidia production in this fungus. Moreover, the conidia failed to develop into the normal five-cell morphology, rather the three main-body cells separated via constriction at the original septum position to generate three independent mutant conidia. This result suggests a novel role of melanin in the formation of the multi-cellular conidia. Germ tubes could develop from the three different types of mutant conidia and kept elongating, despite a significantly lower germination rate was observed for them. Still more, the unpigmented conidia became permeable to Calcofluor White and DAPI, suggesting the integrity of the conidia was impaired. Deliberate inhibition of melanin biosynthesis by a specific inhibitor, tricyclazole, led to a similar phenotypes. This work demonstrates a new function of fungal melanin in conidial development.

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“…In radiotrophic fungi, some evidence suggests that melanins function to enhance fungal growth via capture of ionizing radiation for energy conversion 59 . Spore pigments can also be critical in the development of normal asexual and sexual spore structures 60,61 . Deletion of sporulation-specific BGC genes can result in absolute loss of sexual development in fungi, as seen in the requirement for a polyketide for fertile structures in Sordaria macrospora 62 or the contribution of numerous SMs to development of sclerotia (sites of sexual sporulation and resistance structures to insect feeding) in Aspergillus flavus 63–65 .…”

Section: Self-protection Encoded In the Bgcmentioning

confidence: 99%

Translating biosynthetic gene clusters into fungal armor and weaponry

2015

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Filamentous fungi are renowned for the production of a diverse array of secondary metabolites (SMs) where the genetic material required for synthesis of a SM is typically arrayed in a biosynthetic gene cluster (BGC). These natural products are valued for their bioactive properties stemming from their functions in fungal biology, key among those protection from abiotic and biotic stress and establishment of a secure niche. The producing fungus must not only avoid self-harm from endogenous SMs but also deliver specific SMs at the right time to the right tissue requiring biochemical aid. This review highlights functions of BGCs beyond the enzymatic assembly of SMs, considering the timing and location of SM production and other proteins in the clusters that control SM activity. Specifically, self-protection is provided by both BGC-encoded mechanisms and non-BGC subcellular containment of toxic SM precursors; delivery and timing is orchestrated through cellular trafficking patterns and stress- and developmental-responsive transcriptional programs.

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A PKS gene, pks-1, is involved in chaetoglobosin biosynthesis, pigmentation and sporulation in Chaetomium globosum

Cited by 42 publications

References 53 publications

QTL mapping of fungicide sensitivity reveals novel genes and pleiotropy with melanization in the pathogen Zymoseptoria tritici

QTL mapping of fungicide sensitivity reveals novel genes and pleiotropy with melanization in the pathogen Zymoseptoria tritici

Melanin is required for the formation of the multi-cellular conidia in the endophytic fungus Pestalotiopsis microspora

Translating biosynthetic gene clusters into fungal armor and weaponry

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