Isolation of two novel purple naphthoquinone pigments concomitant with the bioactive red bikaverin and derivates thereof produced by <i>Fusarium oxysporum</i>

Lebeau, Juliana; Petit, Thomas; Clerc, Patricia; Dufossé, Laurent; Caro, Yanis

doi:10.1002/btpr.2738

Cited by 41 publications

(47 citation statements)

References 52 publications

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“…Studies have reported pigments such as bikaverin, nor-bikaverin, fusarubins, some naphthoquinone(8-O-methybostrycoidin, 8-O-methylfusarubin, 8-O-methylnectriafurone, 8-O-methyl-13-hydroxynorjavanicin, 8-O-methylanhydrofusarubinlactol, and 13-hydroxynorjavanicin), and a novel isoquinoline-type, pigment 2-(4-((3E,5E)-14-aminotetradeca-3,5-dienyloxy)butyl)-1,2,3,4tetrahydroisoquinolin-4-ol (ATDBTHIQN), from Fusarium fujikuroi (formerly known as Fusarium moniliforme) (Figure 2) [25,63,65]. Similarly, differently colored naphthoquinones [bostrycoidin, 9-O-methylfusarubin, 5-O-methyljavanicin, 8-O-methylbostrycoidin, 1,4-naphthalenedione-3,8dihydroxy-5,7-dimethoxy-2-(2-oxopropyl), 5-O-methylsolaniol, and 9-O-methylanhydrofusarubin], two anthraquinones compounds [2-acetyl-3,8-dihydroxy-6-methoxy anthraquinone and 2-(1-hydroxyethyl)-3,8-dihydroxy-6-methoxy anthraquinone], and polyketide pigment (bikaverin) were reported from Fusarium oxysporum(Figure 2)[25,47,64,67]. Another species of Fusarium, Fusarium graminearum, has been found to produce a variety of pigments such as 5-deoxybostrycoidin anthrone, 6-O-dimethyl-5deoxybostrycoidin anthrone, purpurfusarin, 6-O-demethyl-5-deoxybostrycoidin, 5-deoxybostrycoidin, and aurofusarin (Figure 2)[25,64,66,121].…”

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Fungal Pigments and Their Prospects in Different Industries

Dufossé²,

et al. 2019

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The public’s demand for natural, eco-friendly, and safe pigments is significantly increasing in the current era. Natural pigments, especially fungal pigments, are receiving more attention and seem to be in high demand worldwide. The immense advantages of fungal pigments over other natural or synthetic pigments have opened new avenues in the market for a wide range of applications in different industries. In addition to coloring properties, other beneficial attributes of fungal pigments, such as antimicrobial, anticancer, antioxidant, and cytotoxic activity, have expanded their use in different sectors. This review deals with the study of fungal pigments and their applications and sheds light on future prospects and challenges in the field of fungal pigments. Furthermore, the possible application of fungal pigments in the textile industry is also addressed.

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Fungal Pigments and Their Prospects in Different Industries

Dufossé²,

et al. 2019

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“…Red carotenoids from plants are quite frequent. Natural carotenoids exhibit different health benefits confirmed by recent studies: strong antioxidant property, anti‐inflammatory effects, anti‐obesity, anticancer, prevention of cardiovascular diseases, of night blindness, and of liver fibrosis, etc …”

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confidence: 98%

“…These biomolecules which are derived from isoprenoids, represent a diverse class of phenolic compounds . The three main groups of naturally occurring quinones are benzoquinones, naphthoquinone, and anthraquinones . These natural dyes produce yellow, orange, red, or reddish‐brown to purple colors.…”

Section: Introductionmentioning

confidence: 99%

“…Around the world, several other naphthoquinones are used as cosmetics or hair dyes, such as the colorants of henna (e. g., the lawsone, CI Natural orange 6, CI 75480) and of walnut shell extracts (e. g., the naphthoquinone juglone, CI Natural brown 7, CI 75520). Interestingly, some of these naturally‐occurring naphthoquinone dyes from Boraginaceae exhibit similar biological activities to those of natural anthraquinone dyes: the known spectrum of activity of naphthoquinones includes antibiotic, antiviral, anti‐inflammatory, antiproliferative, and antitumoral effects . The induction of cell death by juglone is related to the p53 oxidation, DNA damage by phosphorylation of the histone variant H2AX, and consequent inhibition of transcription and of mRNA .…”

Section: Introductionmentioning

confidence: 99%

“…Other less common groups of natural colorants, include the curcuminoid dyes present in the rhizome of turmeric Curcuma longa , the main one being the yellow‐colored curcumin (E‐100; US.CFR 73.600, 73.615). Other examples are xanthonoid dyes such as mangiferin present in Aphloia theiformis , pyrrole derivatives such as chlorophyll, alkaloid dyes such as berberine present in the roots of Thalictrum flavum , and betalain dyes .…”

Section: Introductionmentioning

confidence: 99%

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Malagasy Dye Plant Species: A Promising Source of Novel Natural Colorants with Potential Applications – A Review

Andriamanantena

Danthu

Cardon

et al. 2019

Chemistry & Biodiversity

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Due to the potentially harmful effects of some synthetic dyes, there is an increasing demand for natural colorants. Recent literature has emphasized the necessity of investigating new sources of dyes. This review discusses the biological sources of dyes derived from the rich plant diversity of Madagascar. As one of the first contributions on the use of these dyestuffs for dyeing textiles, it provides an overview of 128 dye plant species with other potential applications for coloring materials in industry. A detailed description of the botanical and chemical properties of these dyestuffs is given. We believe that the Madagascar plant diversity may be a promising source of novel colorants not yet investigated. We considered it worthwhile to carry out a thorough scientific study of a set of Malagasy plants carefully selected for their coloring properties together with their potential use and valorization in specialized industries where use of natural colorants would be a particular interest.

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Unveiling the Substrate‐Dependent Dynamics of Mycotoxin Production in Fusarium verticillioides Using an OSMAC‐Metabolomics Approach

Groppi,

Haddad,

Cristofoli

et al. 2024

Chemistry & Biodiversity

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Fusarium verticillioides is a prevalent plant pathogenic fungus known to produce harmful mycotoxins, including fumonisins and emerging toxins. This study aimed to investigate the influence of substrate on the temporal patterns of mycotoxin biosynthesis by F. verticillioides, employing a combined OSMAC (One Strain‐Many Compounds) strategy and metabolomics approach. The fungus was cultured under various media conditions, and samples were collected over time. LC–MS/MS analyses and a dereplicative workflow were used to profile the secondary metabolite production, focusing on mycotoxins. The results demonstrated that modifying the culture conditions led to significant variations in fungal growth and the nature and relative concentrations of mycotoxins produced. Corn meal agar (CMA) medium was favorable for fumonisins A1 and B1, while malt extract agar (MEA) favored fumonisins A2 and B2. The study also identified the production of other mycotoxins related compounds as fusarins, bikaverin derivatives and fumonisins analogs, under different growth conditions. This study highlights the potential of combining OSMAC and metabolomics to unravel the substrate‐dependent and time‐dependent variations in mycotoxin biosynthesis by F. verticillioides. The insights gained provide a better understanding of the ecophysiology of this fungus and the occurrence of its mycotoxins, which can inform targeted mitigation strategies to ensure food and feed safety.

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Isolation of two novel purple naphthoquinone pigments concomitant with the bioactive red bikaverin and derivates thereof produced by Fusarium oxysporum

Cited by 41 publications

References 52 publications

Fungal Pigments and Their Prospects in Different Industries

Fungal Pigments and Their Prospects in Different Industries

Malagasy Dye Plant Species: A Promising Source of Novel Natural Colorants with Potential Applications – A Review

Unveiling the Substrate‐Dependent Dynamics of Mycotoxin Production in Fusarium verticillioides Using an OSMAC‐Metabolomics Approach

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