Your search keyword '"DHN melanin"' showing total 25 results

1. Deletion of the polyketide synthase‐encoding gene pks1 prevents melanization in the extremophilic fungus Cryomyces antarcticus.

Author

Catanzaro, Ilaria, Gerrits, Ruben, Feldmann, Ines, Gorbushina, Anna A., Onofri, Silvano, and Schumacher, Julia

Subjects

*MELANINS, *GENOME editing, *IONIZING radiation, *CHIMERIC proteins, *FLUORESCENCE microscopy, *VISIBLE spectra

Abstract

Cryomyces antarcticus, a melanized cryptoendolithic fungus endemic to Antarctica, can tolerate environmental conditions as severe as those in space. Particularly, its ability to withstand ionizing radiation has been attributed to the presence of thick and highly melanized cell walls, which—according to a previous investigation—may contain both 1,8‐dihydroxynaphthalene (DHN) and L‐3,4 dihydroxyphenylalanine (L‐DOPA) melanin. The genes putatively involved in the synthesis of DHN melanin were identified in the genome of C. antarcticus. Most important is capks1 encoding a non‐reducing polyketide synthase (PKS) and being the ortholog of the functionally characterized kppks1 from the rock‐inhabiting fungus Knufia petricola. The co‐expression of CaPKS1 or KpPKS1 with a 4′‐phosphopantetheinyl transferase in Saccharomyces cerevisiae resulted in the formation of a yellowish pigment, suggesting that CaPKS1 is the enzyme providing the precursor for DHN melanin. To dissect the composition and function of the melanin layer in the outer cell wall of C. antarcticus, non‐melanized mutants were generated by CRISPR/Cas9‐mediated genome editing. Notwithstanding its slow growth (up to months), three independent non‐melanized Δcapks1 mutants were obtained. The mutants exhibited growth similar to the wild type and a light pinkish pigmentation, which is presumably due to carotenoids. Interestingly, visible light had an adverse effect on growth of both melanized wild‐type and non‐melanized Δcapks1 strains. Further evidence that light can pass the melanized cell walls derives from a mutant expressing a H2B‐GFP fusion protein, which can be detected by fluorescence microscopy. In conclusion, the study reports on the first genetic manipulation of C. antarcticus, resulting in non‐melanized mutants and demonstrating that the melanin is rather of the DHN type. These mutants will allow to elucidate the relevance of melanization for surviving extreme conditions found in the natural habitat as well as in space. [ABSTRACT FROM AUTHOR]

Published

2024

2. Genetic analysis, purification and docking studies of trihydroxynaphthalene reductase involved in pathogenesis of rice pathogen, Curvularia lunata.

Author

Venkateshbabu, Gopal, Prasannakumar, M.K., Kamalraj, Subban, Narayan, Karthik. S., and Palani, Perumal

Subjects

*MOLECULAR docking, *CURVULARIA, *RICE diseases & pests, *GENE expression, *RICE

Abstract

Curvularia lunata causes black kernel disease in rice (Oryza sativa) kernel and enzyme, trihydroxynaphthalene reductase (3HNR) catalyzes a crucial reaction in melanin biosynthesis which aids in appressorium formation. However, the molecular mechanism of pathogenesis and characterization of 3HNR are poorly understood due to the limited research conducted on this pathosystem. Therefore, the C. lunata (GVBR1) was isolated from the diseased rice kernel and identified using microscopic, SEM and molecular methods. To elucidate the molecular mechanism of 3HNR, the C. lunata was treated with different concentrations of systemic fungicide tricyclazole and the gene expression of C. lunata trihydroxynaphthalene reductase (Cl 3HNR) analyzed with different concentrations of tricyclazole treated, downregulated the Cl 3HNR gene expression as compared to the control. Further, Cl 3HNR was cloned into pGEX expression vector, heterologously expressed in Escherichia coli BL21 cells and the expressed protein corresponds to 28 kDa. The molecular docking and dynamic simulation revealed the interaction points within the active site of Cl 3HNR. This study highlights the importance of the melanin biosynthetic gene involved in the pathogenesis of the rice fungal pathogen, C. lunata , which paves the way in developing the HNR enzyme inhibitor to control the rice disease. [Display omitted] • C. lunata Trihydroxynaphthalene reductase (Cl 3HNR) was studied using fungicide, tricyclazole. • q PCR expression of Cl 3HNR drastically downregulated when treated with tricyclazole. • The Cl 3HNR protein was expressed in pGEX bacterial system. • Cl 3HNR was purified using GST affinity chromatography and corresponds to 28 kDa. • Docking and Dynamics Simulations were analyzed for Cl 3HNR-tricycalzole complex. [ABSTRACT FROM AUTHOR]

Published

2023

3. A Forward Genetic Screen in Sclerotinia sclerotiorum Revealed the Transcriptional Regulation of Its Sclerotial Melanization Pathway

Author

Yan Xu, Kevin Ao, Lei Tian, Yilan Qiu, Xingchuan Huang, Xueru Liu, Ryan Hoy, Yishan Zhang, Khalid Youssef Rashid, Shitou Xia, and Xin Li

Subjects

DHN melanin, forward genetic analysis, next-generation sequencing, Sclerotinia sclerotiorum, sclerotial formation, soilborne phytopathogen, Microbiology, QR1-502, Botany, QK1-989

Abstract

Most plant fungal pathogens that cause worldwide crop losses are understudied, due to various technical challenges. With the increasing availability of sequenced whole genomes of these non-model fungi, effective genetic analysis methods are highly desirable. Here, we describe a newly developed pipeline, which combines forward genetic screening with high-throughput next-generation sequencing to enable quick gene discovery. We applied this pipeline in the notorious soilborne phytopathogen Sclerotinia sclerotiorum and identified 32 mutants with various developmental and growth deficiencies. Detailed molecular studies of three melanization-deficient mutants provide a proof of concept for the effectiveness of our method. A master transcription factor was found to regulate melanization of sclerotia through the DHN (1,8-dihydroxynaphthalene) melanin biosynthesis pathway. In addition, these mutants revealed that sclerotial melanization is important for sclerotia survival under abiotic stresses, sclerotial surface structure, and sexual reproduction. Foreseeably, this pipeline can be applied to facilitate efficient in-depth studies of other non-model fungal species in the future.[Graphic: see text] Copyright © 2022 The Author(s). This is an open access article distributed under the CC BY 4.0 International license.

Published

2022

4. Functional identification of the DHN melanin synthesis gene cluster and its role in UV-C tolerance in citrus postharvest pathogenic fungus Penicillium digitatum.

Author

Yang, Fan, Cheng, Lingtong, Du, Yuling, Xia, Lungang, and Long, Chao-an

Subjects

*PENICILLIUM digitatum, *MELANOGENESIS, *PATHOGENIC fungi, *GENE clusters, *FUNGICIDE resistance, *CITRUS greening disease, *MELANINS

Abstract

The filamentous fungus Penicillium digitatum brings out great losses in citrus fruits by causing citrus green mold disease during the postharvest period. Previously, we obtained a T-DNA insertion mutant N2130 of P. digitatum , which produced albino conidia. To understand the role of green-grey conidial pigment in P. digitatum , we identified the insertion site and deeply explored the 1,8-dihydroxynaphtsalene (DHN)-melanin synthesis gene cluster in this phytopathogen. In this study, we deleted five genes in P. digitatum , PdPksP , PdAbr1 , PdArp1 , PdArp2 , and PdAyg1 , and the experiments were further performed on phenotype analyses, including pigmentation, UV-C tolerance, virulence, growth rate, conidiation, stress (osmotic-, oxidative-, cell wall disturbing-, and high temperature-) tolerance, fungicide resistance, and conidial hydrophobicity. The results showed that the five deletion mutants (Δ PdPksP , Δ PdAbr1 , Δ PdArp1 , Δ PdArp2 and Δ PdAyg1) produced albino, brownish, brown, reddish-brown, and Yellowish green conidia, respectively. In addition, the survival colony forming units (CFUs) of the deletion mutants, under the treatment of UV-C radiation (261.4 mJ/cm2), were 0.3- to 0.6-fold of those surviving in wild-type strain N1. Moreover, after 522.8 mJ/cm2-UV-C-irradiation on conidia, the deletion mutants showed a larger decrease in pathogenicity on Valencia Orange fruits compared with strain N1. However, there were no significant differences among other phenotypes tested in this study. Collectively, our research reported the DHN-melanin synthesis pathway in P. digitatum for the first time, and revealed that DHN-melanin is important for P. digitatum to tolerate UV-C irradiation. [ABSTRACT FROM AUTHOR]

Published

2022

5. Genetic Engineering of the Rock Inhabitant Knufia petricola Provides Insight Into the Biology of Extremotolerant Black Fungi

Author

Eileen A. Erdmann, Sarah Nitsche, Anna A. Gorbushina, and Julia Schumacher

Subjects

Chaetothyriales, microcolonial fungi, DHN melanin, carotenoids, resistance cassettes, cloning vectors, Plant culture, SB1-1110

Abstract

Black microcolonial fungi (Ascomycetes from Arthonio-, Dothideo-, and Eurotiomycetes) are stress-tolerant and persistent dwellers of natural and anthropogenic extreme habitats. They exhibit slow yeast-like or meristematic growth, do not form specialized reproduction structures and accumulate the black pigment 1,8-dihydroxynaphthalene (DHN) melanin in the multilayered cell walls. To understand how black fungi live, survive, colonize mineral substrates, and interact with phototrophs genetic methods are needed to test these functions and interactions. We chose the rock inhabitant Knufia petricola of the Chaetothyriales as a model for developing methods for genetic manipulation. Here, we report on the expansion of the genetic toolkit by more efficient multiplex CRISPR/Cas9 using a plasmid-based system for expression of Cas9 and multiple sgRNAs and the implementation of the three resistance selection markers genR (geneticin/nptII), baR (glufosinate/bar), and suR (chlorimuron ethyl/sur). The targeted integration of expression constructs by replacement of essential genes for pigment synthesis allows for an additional color screening of the transformants. The black-pink screening due to the elimination of pks1 (melanin) was applied for promoter studies using GFP fluorescence as reporter. The black-white screening due to the concurrent elimination of pks1 and phs1 (carotenoids) allows to identify transformants that contain the two expression constructs for co-localization or bimolecular fluorescence complementation (BiFC) studies. The co-localization and interaction of the two K. petricola White Collar orthologs were demonstrated. Two intergenic regions (igr1, igr2) were identified in which expression constructs can be inserted without causing obvious phenotypes. Plasmids of the pNXR-XXX series and new compatible entry plasmids were used for fast and easy generation of expression constructs and are suitable for a broad implementation in other fungi. This variety of genetic tools is opening a completely new perspective for mechanistic and very detailed study of expression, functioning and regulation of the genes/proteins encoded by the genomes of black fungi.

Published

2022

6. NADPH Oxidase ClNOX2 Regulates Melanin-Mediated Development and Virulence in Curvularia lunata

Author

Fen Wang, Weida Gao, Jiaying Sun, Xiuwen Mao, Kexin Liu, Jingru Xu, Dandan Fu, Mingyue Yuan, Hongchuan Wang, Nan Chen, Shuqin Xiao, and Chunsheng Xue

Subjects

appressorium, Curvularia lunata, development and virulence, DHN melanin, NADPH oxidase 2, reactive oxygen species (ROS), Microbiology, QR1-502, Botany, QK1-989

Abstract

The role of NADPH oxidases (NOXs) in pathogenesis and development in the Curvularia leaf spot agent Curvularia lunata remains poorly understood. In this study, we identified C. lunata ClNOX2, which localized to the plasma membrane and was responsible for reactive oxygen species (ROS) generation. Scavenging the ROS production inhibited the conidial germination and appressorial formation. The ClNOX2 and ClBRN1 deletion mutants were defective in 1,8-dihydroxynaphthalene (DHN) melanin accumulation, appressorial formation, and cellulase synthesis and exhibited lower virulence. However, disruption of the ClNOX2 and ClBRN1 genes facilitated hyphal growth, enhanced stress adaptation to cell-wall-disrupting agents, and promoted developmental processes such as conidiation, conidial germination, and pseudothecium and ascus formation. Interestingly, loss of ClM1, the cell wall integrity (CWI) mitogen-activated protein kinase gene in C. lunata, led to morphology and pathogenicity phenotypes similar to ClNOX2 and ClBRN1 deletion mutants such as abnormal conidia, fewer appressoria, less melanin, increased hyphal growth, and enhanced tolerance to Congo red (CR). These results indicated that the ClNOX2 gene plays an important role in C. lunata development and virulence via regulating intracellular DHN melanin biosynthesis. Quantitative reverse-transcription PCR revealed that the ClNOX2-related ROS signaling pathway and ClM1-mediated CWI signaling pathway are cross-linked in regulating DHN melanin biosynthesis. Our findings provide new insights into how ClNOX2 participates in pathogenesis and development in hemibiotrophic plant fungal pathogens.[Graphic: see text] Copyright © 2020 The Author(s). This is an open access article distributed under the CC BY-NC-ND 4.0 International license.

Published

2020

7. Analysis of melanin biosynthesis in the plant pathogenic fungus Colletotrichum gloeosporioides.

Author

Wang, Xiaolian, Lu, Dongxiao, and Tian, Chengming

Subjects

*MELANINS, *PHYTOPATHOGENIC fungi, *PATHOGENIC fungi, *PLANT-fungus relationships, *BIOSYNTHESIS, *FUNGAL colonies, *RICE blast disease, *COLLETOTRICHUM gloeosporioides

Abstract

Melanin is recognized as a dark pigment that can protect fungi from the harm of environmental stresses. To investigate what roles of melanin played in the pathogenicity and development of Colletotrichum gloeosporioides , a causal agent of poplar anthracnose, genes encoding a transcription factor CgCmr1 and a polyketide synthase CgPks1 were isolated as the ortholog of Magnaporthe oryzae Pig1 and Pks1 respectively. Deletion of CgCmr1 or CgPks1 resulted in melanin-deficient fungal colony. The Δ CgPks1 mutant showed no melanin accumulation in appressoria, and lack of CgCmr1 also resulted in the delayed and decreased melanization of appressoria. In addition, the turgor pressure of the appressorium was lower in ΔCg Pks1 and Δ CgCmr1 than in the wild-type (WT). However, DHN melanin was not a vital factor for virulence in C. gloeosporioides. Moreover, deletion of CgCmr1 and CgPks1 resulted in the hypersensitivity to hydrogen peroxide (H 2 O 2) oxidative stress but not to other abiotic stresses. Collectively, these results suggest that CgCmr1 and CgPks1 play an important role in DHN melanin biosynthesis, and melanin was not an essential factor in penetration and pathogenicity in C. gloeosporioides. The data presented in this study will facilitate future evaluations of the melanin biosynthetic pathway and development in filamentous fungi. • Deletion of CgCmr1 or CgPks1 resulted in melanin-deficient fungal colony and appressoria. • Turgor pressure of the appressorium was lower in ΔCg Pks1 and Δ CgCmr1 than in the wild type. • DHN melanin was not a vital factor for virulence in C. gloeosporioides. • Putative genes involved in the biosynthesis of DHN melanin were dependent on CgCmr1. [ABSTRACT FROM AUTHOR]

Published

2021

8. Anisotropic Synthetic Allomelanin Materials via Solid‐State Polymerization of Self‐Assembled 1,8‐Dihydroxynaphthalene Dimers.

Author

Zhou, Xuhao, Gong, Xinyi, Cao, Wei, Forman, Christopher J., Oktawiec, Julia, D'Alba, Liliana, Sun, Hao, Thompson, Matthew P., Hu, Ziying, Kapoor, Utkarsh, McCallum, Naneki C., Malliakas, Christos D., Farha, Omar K., Jayaraman, Arthi, Shawkey, Matthew D., and Gianneschi, Nathan C.

Subjects

*DIMERS, *MELANINS, *ISOMERS, *POLYMERIZATION, *BLOOD platelets, *SPHERES, *MORPHOLOGY

Abstract

Melanosomes in nature have diverse morphologies, including spheres, rods, and platelets. By contrast, shapes of synthetic melanins have been almost entirely limited to spherical nanoparticles with few exceptions produced by complex templated synthetic methods. Here, we report a non‐templated method to access synthetic melanins with a variety of architectures including spheres, sheets, and platelets. Three 1,8‐dihydroxynaphthalene dimers (4‐4′, 2‐4′ and 2‐2′) were used as self‐assembling synthons. These dimers pack to form well‐defined structures of varying morphologies depending on the isomer. Specifically, distinctive ellipsoidal platelets can be obtained using 4‐4′ dimers. Solid‐state polymerization of the preorganized dimers generates polymeric synthetic melanins while maintaining the initial particle morphologies. This work provides a new route to anisotropic synthetic melanins, where the building blocks are preorganized into specific shapes, followed by solid‐state polymerization. [ABSTRACT FROM AUTHOR]

Published

2021

9. Compartmentalization of Melanin Biosynthetic Enzymes Contributes to Self-Defense against Intermediate Compound Scytalone in Botrytis cinerea

Author

Xue Chen, Chuanxi Zhu, Yantao Na, Dandan Ren, Chenghua Zhang, Yifan He, Yiwen Wang, Sheng Xiang, Weiheng Ren, Yina Jiang, Ling Xu, and Pinkuan Zhu

Subjects

Botrytis cinerea, DHN melanin, scytalone, subcellular trafficking, endosome, peroxisome, Microbiology, QR1-502

Abstract

ABSTRACT In filamentous fungi, 1,8-dihydroxynaphthalene (DHN) melanin is a major component of the extracellular matrix, endowing fungi with environmental tolerance and some pathogenic species with pathogenicity. However, the subcellular location of the melanin biosynthesis pathway components remains obscure. Using the gray mold pathogen Botrytis cinerea, the DHN melanin intermediate scytalone was characterized via phenotypic and chemical analysis of mutants, and the key enzymes participating in melanin synthesis were fused with fluorescent proteins to observe their subcellular localizations. The Δbcscd1 mutant accumulated scytalone in the culture filtrate rather than in mycelium. Excessive scytalone appears to be self-inhibitory to the fungus, leading to repressed sclerotial germination and sporulation in the Δbcscd1 mutant. The BcBRN1/2 enzymes responsible for synthesizing scytalone were localized in endosomes and found to be trafficked to the cell surface, accompanied by the accumulation of BcSCD1 proteins in the cell wall. In contrast, the early-stage melanin synthesis enzymes BcPKS12/13 and BcYGH1 were localized in peroxisomes. Taken together, the results of this study revealed the subcellular distribution of melanin biosynthetic enzymes in B. cinerea, indicating that the encapsulation and externalization of the melanin synthetic enzymes need to be delicately orchestrated to ensure enzymatic efficiency and protect itself from the adverse effect of the toxic intermediate metabolite. IMPORTANCE The devastating gray mold pathogen Botrytis cinerea propagates via melanized conidia and sclerotia. This study reveals that the sclerotial germination of B. cinerea is differentially affected by different enzymes in the melanin synthesis pathway. Using gene knockout mutants and chemical analysis, we found that excessive accumulation of the melanin intermediate scytalone is inhibitory to B. cinerea. Subcellular localization analysis of the melanin synthesis enzymes of B. cinerea suggested two-stage partitioning of the melanogenesis pathway: the intracellular stage involves the steps until the intermediate scytalone was translocated to the cell surface, whereas the extracellular stage comprises all the steps occurring in the wall from scytalone to final melanin formation. These strategies make the fungus avert self-poisoning during melanin production. This study opens avenues for better understanding the mechanisms of secondary metabolite production in filamentous fungi.

Published

2021

10. Analytical Pyrolysis of the Fungal Melanins from Ochroconis spp. Isolated from Lascaux Cave, France.

Author

Saiz-Jimenez, Cesareo, Martin-Sanchez, Pedro M., Gonzalez-Perez, Jose A., Hermosin, Bernardo, and Płonka, Przemysław M.

Subjects

MELANINS, PYROLYSIS, CAVES, NUCLEIC acids, PHENOLS, CHEMICAL structure, MICROPHTHALMIA-associated transcription factor

Abstract

Analytical pyrolysis is a tool widely used for investigating the nature of macromolecules. This technique has been applied with success for solving the chemical structure of geo- and biopolymers. However, with complex macromolecules, such as fungal melanins, analytical pyrolysis presents some drawbacks due to the fact that they rarely can be obtained in a pure grade and contains a mixture of polysaccharides, chitin, proteins, nucleic acids, and lipids, among other materials. Analytical pyrolysis permits the characterization of the compounds co-extracted or linked to the melanin. Nevertheless, our data revealed that under the conditions usually employed in the pyrolysis of melanins, the technique presented serious limitations due to the complex structure and diversity of components that suffer extensive thermal degradation through secondary reactions with the production of considerable number of artifacts. To the light of pyrolysis data, the melanin of Ochroconis spp. is not based on 3,4-dihydroxyphenylalanine (DOPA) or 1,8-dihydroxynaphthalene (DHN), and it is suggested that it could be a type of pyomelanin, based on the polymerization of homogentisic acid and other phenolic compounds. [ABSTRACT FROM AUTHOR]

Published

2021

11. Light sensing in plant- and rock-associated black fungi.

Author

Schumacher, Julia and Gorbushina, Anna A.

Subjects

*BOTRYTIS cinerea, *FUNGI, *PHYTOPATHOGENIC microorganisms, *ECOLOGICAL niche, *PLANT surfaces, *PLANT-fungus relationships

Abstract

Fungi that share light-flooded habitats with phototrophs may profit from their excess photosynthetic products. But to cope with sunlight-associated stresses [e.g. high temperatures, UV radiation with associated DNA damage, accumulation of reactive oxygen species (ROS), desiccation and osmotic stresses] it is important for fungi to accurately sense and respond to changes in light. To test the hypothesis that light is an environmental cue that Ascomycota use to coordinate growth, stress responses as well as to establish pathogenic or symbiotic relationships, the photoreceptor (PR) distribution in species from different ecological niches was analysed. The genomes of black [dihydroxynaphthalene (DHN) melanin-containing] fungi from phyllosphere and exposed solid surfaces contain multiple photoreceptors (PRs). The plant pathogen Botrytis cinerea (Leotiomycetes) has a highly sophisticated photosensory and signalling system that helps to avoid light and to locate susceptible hosts. Rock-inhabiting Dothideomycetes and Eurotiomycetes including Knufia petricola possess equal numbers of PRs along with the same set of protective pigments. This similarity between black fungi from plant and rock surfaces suggests that photoperception and -regulation are important for fungi that receive nutrients through cooperation with phototrophs. Genetic tools for manipulating K. petricola exist and will be used to test this idea. • Fungi live in both light-deprived and light-flooded habitats. • Black phototroph-associated Ascomycota possess multiple photoreceptors. • Light affects parasitic and symbiotic fungus-phototroph relationships. • Botrytis cinerea, a plant pathogen, benefits from extended photoregulation. • Photoreceptors of rock-inhabiting Knufia petricola may modulate biofilm development. [ABSTRACT FROM AUTHOR]

Published

2020

12. Compartmentalization of Melanin Biosynthetic Enzymes Contributes to Self-Defense against Intermediate Compound Scytalone in Botrytis cinerea

Author

Ling Xu, Dandan Ren, Weiheng Ren, Chenghua Zhang, Yina Jiang, Xue Chen, Sheng Xiang, Yifan He, Pinkuan Zhu, Yantao Na, Chuanxi Zhu, and Yiwen Wang

Subjects

0106 biological sciences, Mutant, subcellular trafficking, 01 natural sciences, Microbiology, Melanin, Cell wall, Botrytis cinerea, 03 medical and health sciences, Virology, Extracellular, peroxisome, endosome, Mycelium, 030304 developmental biology, chemistry.chemical_classification, 0303 health sciences, biology, fungi, Peroxisome, biology.organism_classification, QR1-502, Enzyme, chemistry, Biochemistry, scytalone, DHN melanin, 010606 plant biology & botany

Abstract

In filamentous fungi, 1,8-dihydroxynaphthalene (DHN) melanin is a major component of the extracellular matrix, endowing fungi with environmental tolerance and some pathogenic species with pathogenicity. However, the subcellular location of the melanin biosynthesis pathway components remains obscure. Using the gray mold pathogen Botrytis cinerea, the DHN melanin intermediate scytalone was characterized via phenotypic and chemical analysis of mutants, and the key enzymes participating in melanin synthesis were fused with fluorescent proteins to observe their subcellular localizations. The Δbcscd1 mutant accumulated scytalone in the culture filtrate rather than in mycelium. Excessive scytalone appears to be self-inhibitory to the fungus, leading to repressed sclerotial germination and sporulation in the Δbcscd1 mutant. The BcBRN1/2 enzymes responsible for synthesizing scytalone were localized in endosomes and found to be trafficked to the cell surface, accompanied by the accumulation of BcSCD1 proteins in the cell wall. In contrast, the early-stage melanin synthesis enzymes BcPKS12/13 and BcYGH1 were localized in peroxisomes. Taken together, the results of this study revealed the subcellular distribution of melanin biosynthetic enzymes in B. cinerea, indicating that the encapsulation and externalization of the melanin synthetic enzymes need to be delicately orchestrated to ensure enzymatic efficiency and protect itself from the adverse effect of the toxic intermediate metabolite. IMPORTANCE The devastating gray mold pathogen Botrytis cinerea propagates via melanized conidia and sclerotia. This study reveals that the sclerotial germination of B. cinerea is differentially affected by different enzymes in the melanin synthesis pathway. Using gene knockout mutants and chemical analysis, we found that excessive accumulation of the melanin intermediate scytalone is inhibitory to B. cinerea. Subcellular localization analysis of the melanin synthesis enzymes of B. cinerea suggested two-stage partitioning of the melanogenesis pathway: the intracellular stage involves the steps until the intermediate scytalone was translocated to the cell surface, whereas the extracellular stage comprises all the steps occurring in the wall from scytalone to final melanin formation. These strategies make the fungus avert self-poisoning during melanin production. This study opens avenues for better understanding the mechanisms of secondary metabolite production in filamentous fungi.

Published

2021

13. Analytical Pyrolysis of the Fungal Melanins from Ochroconis spp. Isolated from Lascaux Cave, France

Author

Pedro Mª Martin-Sanchez, Cesáreo Sáiz-Jiménez, José Antonio González-Pérez, Bernardo Hermosín, Sáiz-Jiménez, Cesáreo, Martin-Sanchez, Pedro Mª, González-Pérez, José Antonio, Hermosín, Bernardo, Sáiz-Jiménez, Cesáreo [0000-0003-0036-670X], Martin-Sanchez, Pedro Mª [0000-0003-2674-8650], González-Pérez, José Antonio [0000-0001-7607-1444], and Hermosín, Bernardo [0000-0002-2147-6636]

Subjects

0301 basic medicine, analytical pyrolysis, DOPA melanin, Chemical structure, 010501 environmental sciences, Polysaccharide, lcsh:Technology, fungal melanins, 01 natural sciences, lcsh:Chemistry, 03 medical and health sciences, chemistry.chemical_compound, Eurotium echinulatum, Chitin, Organic chemistry, General Materials Science, Homogentisic acid, lcsh:QH301-705.5, Instrumentation, 0105 earth and related environmental sciences, Fluid Flow and Transfer Processes, chemistry.chemical_classification, biology, lcsh:T, Process Chemistry and Technology, General Engineering, Lascaux Cave, Ochroconis lascauxensis, biology.organism_classification, lcsh:QC1-999, Computer Science Applications, pyomelanin, 030104 developmental biology, lcsh:Biology (General), lcsh:QD1-999, chemistry, Polymerization, lcsh:TA1-2040, Cryptococcus neoformans, DHN melanin, lcsh:Engineering (General). Civil engineering (General), Pyrolysis, lcsh:Physics, Macromolecule

Abstract

Analytical pyrolysis is a tool widely used for investigating the nature of macromolecules. This technique has been applied with success for solving the chemical structure of geo- and biopolymers. However, with complex macromolecules, such as fungal melanins, analytical pyrolysis presents some drawbacks due to the fact that they rarely can be obtained in a pure grade and contains a mixture of polysaccharides, chitin, proteins, nucleic acids, and lipids, among other materials. Analytical pyrolysis permits the characterization of the compounds co-extracted or linked to the melanin. Nevertheless, our data revealed that under the conditions usually employed in the pyrolysis of melanins, the technique presented serious limitations due to the complex structure and diversity of components that suffer extensive thermal degradation through secondary reactions with the production of considerable number of artifacts. To the light of pyrolysis data, the melanin of Ochroconis spp. is not based on 3,4-dihydroxyphenylalanine (DOPA) or 1,8-dihydroxynaphthalene (DHN), and it is suggested that it could be a type of pyomelanin, based on the polymerization of homogentisic acid and other phenolic compounds.

Published

2021

14. Cladosporium cladosporioides LPSC 1088 Produces the 1,8-Dihydroxynaphthalene-Melanin-Like Compound and Carries a Putative pks Gene.

Author

Llorente, Carla, Bárcena, Alejandra, Vera Bahima, José, Saparrat, Mario, Arambarri, Angélica, Rozas, M., Mirífico, María, and Balatti, Pedro

Abstract

Cladosporium cladosporioides is a dematiaceous fungus with coloured mycelia and conidia due to the presence of dark pigments. The purpose of this study was to characterize the dark pigments synthetized by Cladosporium sp. LPSC no. 1088 and also to identify the putative polyketide synthase ( pks) gene that might be involved in the pigment biosynthesis. Morphological as well as molecular features like the ITS sequence confirmed that LPSC 1088 is Cladosporium cladosporioides. UV-visible, Fourier Transform Infrared (FTIR) and Electron Spin Resonance (ESR) spectroscopy analysis as well as melanin inhibitors suggest that the main dark pigment of the isolate was 1,8 dihydroxynaphthalene (DHN)-melanin-type compound. Two commercial fungicides, Difenoconazole and Chlorothalonil, inhibited fungal growth as well as increased pigmentation of the colonies suggesting that melanin might protect the fungus against chemical stress. The pigment is most probably synthetized by means of a pentaketide pathway since the sequence of a 651 bp fragment, coding for a putative polyketide synthase, is highly homologous to pks sequences from other fungi. [ABSTRACT FROM AUTHOR]

Published

2012

15. Melanin synthesis by Sclerotinia sclerotiorum.

Author

Butler, Michael J., Gardiner, Richard B., and Day, Alan W.

Subjects

*MELANOGENESIS, *SCLEROTINIA sclerotiorum, *SCLEROTIUM (Mycelium), *ENZYMES, *PHANEROCHAETE

Abstract

We confirmed that the melanin produced by Sclerotinia sclerotiorum is a dihydroxynaphthalene (DHN). The specific DHN melanogenesis inhibitor test that uses tricyclazole at low levels (typically 2-5 ppm) to cause a confirmatory appearance of soluble red-brown inhibition products does not work when analyzing melanin synthesis in the sclerotia of S. sclerotiorum. We demonstrated the presence of scytalone dehydratase, an enzyme specific to DHN melanogenesis, in melanized sclerotia and melanized nonsclerotial mycelia and observed formation of mycelial nonsclerotial melanin when the fungus was grown on the surface of sterilized dialysis membrane or in rich organic media. Nonsclerotial melanized hyphae in wild type and mutant strains showed the typical excretion of pigmented inhibition products of the DHN pathway in the presence of tricyclazole, and one of these products, 2-hydroxyjuglone, was identified by thin layer chromatography and spectroscopy. We report basic conditions for sclerotial melanin degradation by the white rot fungus Phanerochaete chrysosporium. [ABSTRACT FROM AUTHOR]

Published

2009

16. USE OF THE BLACK YEAST PHAEOCOCCOMYCES FUNGAL MELANIN MODEL SYSTEM FOR PREPARATION OF 1,3,6,8-TETRAHYDROXYNAPHTHALENE AND THE OTHER COMPONENTS OF THE DHN FUNGAL MELANIN PATHWAY.

Author

Butler, Michael J., Gardiner, Richard B., and Day, Alan W.

Subjects

*YEAST, *MELANINS, *PLANT pigments, *ENZYME inhibitors, *OXIDATION, *ENZYMES

Abstract

Compounds of the dihydroxynaphthalene (DHN) fungal melanin pathway are in short supply worldwide, especially 1,3,6,8-tetrahydroxynaphthalene, the chemically unstable starting point of the pathway, and are not commercially available. This is becoming an impediment to physiological survey work in the DHN pathway. We describe the use of our black yeast Phaeococcomyces DHN melanin model system to produce sufficient amounts of 1,3,6,8-tetrahydroxynaphthalene for physiological studies, using a simple modified culture method that uses an oxygen-scavenging growth medium containing cysteine and thioglycollate, which is also sealed with an oxygen-excluding layer of the black yeast. The medium also contains the DHN pathway reductase enzyme inhibitor tricyclazole, which causes excretion of 1,3,6,8-tetrahydroxynaphthalene and 1,3,8- dihydroxynaphthalene. The presence of oxygen scavengers and the thick yeast growth prevents oxidation of the hydroxynaphthalenes. Most of the other components of the DHN fungal melanin pathway can be produced using the black yeast or using a scytalone dehydratase negative mutant of the black yeast that accumulates scytalone. [ABSTRACT FROM AUTHOR]

Published

2004

17. Genetic Engineering of the Rock Inhabitant Knufia petricola Provides Insight Into the Biology of Extremotolerant Black Fungi.

Author

Erdmann EA, Nitsche S, Gorbushina AA, and Schumacher J

Abstract

Black microcolonial fungi (Ascomycetes from Arthonio-, Dothideo-, and Eurotiomycetes) are stress-tolerant and persistent dwellers of natural and anthropogenic extreme habitats. They exhibit slow yeast-like or meristematic growth, do not form specialized reproduction structures and accumulate the black pigment 1,8-dihydroxynaphthalene (DHN) melanin in the multilayered cell walls. To understand how black fungi live, survive, colonize mineral substrates, and interact with phototrophs genetic methods are needed to test these functions and interactions. We chose the rock inhabitant Knufia petricola of the Chaetothyriales as a model for developing methods for genetic manipulation. Here, we report on the expansion of the genetic toolkit by more efficient multiplex CRISPR/Cas9 using a plasmid-based system for expression of Cas9 and multiple sgRNAs and the implementation of the three resistance selection markers genR (geneticin/ nptII ), baR (glufosinate/ bar ), and suR (chlorimuron ethyl/ sur ). The targeted integration of expression constructs by replacement of essential genes for pigment synthesis allows for an additional color screening of the transformants. The black-pink screening due to the elimination of pks1 (melanin) was applied for promoter studies using GFP fluorescence as reporter. The black-white screening due to the concurrent elimination of pks1 and phs1 (carotenoids) allows to identify transformants that contain the two expression constructs for co-localization or bimolecular fluorescence complementation (BiFC) studies. The co-localization and interaction of the two K. petricola White Collar orthologs were demonstrated. Two intergenic regions ( igr1, igr2 ) were identified in which expression constructs can be inserted without causing obvious phenotypes. Plasmids of the pNXR-XXX series and new compatible entry plasmids were used for fast and easy generation of expression constructs and are suitable for a broad implementation in other fungi. This variety of genetic tools is opening a completely new perspective for mechanistic and very detailed study of expression, functioning and regulation of the genes/proteins encoded by the genomes of black fungi., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Erdmann, Nitsche, Gorbushina and Schumacher.)

Published

2022

18. A Forward Genetic Screen in Sclerotinia sclerotiorum Revealed the Transcriptional Regulation of Its Sclerotial Melanization Pathway.

Author

Xu Y, Ao K, Tian L, Qiu Y, Huang X, Liu X, Hoy R, Zhang Y, Rashid KY, Xia S, and Li X

Subjects

Gene Expression Regulation, Genetic Testing, Ascomycota physiology, Basidiomycota genetics

Abstract

Most plant fungal pathogens that cause worldwide crop losses are understudied, due to various technical challenges. With the increasing availability of sequenced whole genomes of these non-model fungi, effective genetic analysis methods are highly desirable. Here, we describe a newly developed pipeline, which combines forward genetic screening with high-throughput next-generation sequencing to enable quick gene discovery. We applied this pipeline in the notorious soilborne phytopathogen Sclerotinia sclerotiorum and identified 32 mutants with various developmental and growth deficiencies. Detailed molecular studies of three melanization-deficient mutants provide a proof of concept for the effectiveness of our method. A master transcription factor was found to regulate melanization of sclerotia through the DHN (1,8-dihydroxynaphthalene) melanin biosynthesis pathway. In addition, these mutants revealed that sclerotial melanization is important for sclerotia survival under abiotic stresses, sclerotial surface structure, and sexual reproduction. Foreseeably, this pipeline can be applied to facilitate efficient in-depth studies of other non-model fungal species in the future.[Formula: see text] Copyright © 2022 The Author(s). This is an open access article distributed under the CC BY 4.0 International license.

Published

2022

19. Cover Picture: Anisotropic Synthetic Allomelanin Materials via Solid‐State Polymerization of Self‐Assembled 1,8‐Dihydroxynaphthalene Dimers (Angew. Chem. Int. Ed. 32/2021).

Author

Zhou, Xuhao, Gong, Xinyi, Cao, Wei, Forman, Christopher J., Oktawiec, Julia, D'Alba, Liliana, Sun, Hao, Thompson, Matthew P., Hu, Ziying, Kapoor, Utkarsh, McCallum, Naneki C., Malliakas, Christos D., Farha, Omar K., Jayaraman, Arthi, Shawkey, Matthew D., and Gianneschi, Nathan C.

Subjects

*MELANINS, *DIMERS, *POLYMERIZATION

Abstract

Keywords: allomelanin; anisotropy; DHN melanin; melanin; solid-state polymerization EN allomelanin anisotropy DHN melanin melanin solid-state polymerization 17221 17221 1 07/28/21 20210802 NES 210802 B Anisotropic synthetic melanins b have been generated by solid-state polymerization, as reported by Nathan C. Gianneschi et al. in their Research Article on page 17464. Ellipsoidal platelets of melanin, found to date only in biology, were obtained through pre-organizing the 4-4' dihydroxynaphthalene dimer as the building block, followed by solid-state oxidative polymerization to give polymeric melanin materials without changing their overall morphology. Ellipsoidal platelets of melanin, found to date only in biology, were obtained through pre-organizing the 4-4' dihydroxynaphthalene dimer as the building block, followed by solid-state oxidative polymerization to give polymeric melanin materials without changing their overall morphology. [Extracted from the article]

Published

2021

20. Titelbild: Anisotropic Synthetic Allomelanin Materials via Solid‐State Polymerization of Self‐Assembled 1,8‐Dihydroxynaphthalene Dimers (Angew. Chem. 32/2021).

Author

Zhou, Xuhao, Gong, Xinyi, Cao, Wei, Forman, Christopher J., Oktawiec, Julia, D'Alba, Liliana, Sun, Hao, Thompson, Matthew P., Hu, Ziying, Kapoor, Utkarsh, McCallum, Naneki C., Malliakas, Christos D., Farha, Omar K., Jayaraman, Arthi, Shawkey, Matthew D., and Gianneschi, Nathan C.

Subjects

*DIMERS, *POLYMERS, *POLYMERIZATION

Abstract

Allomelanin, anisotropy, DHN melanin, melanin, solid-state polymerization Keywords: allomelanin; anisotropy; DHN melanin; melanin; solid-state polymerization EN allomelanin anisotropy DHN melanin melanin solid-state polymerization 17361 17361 1 07/28/21 20210802 NES 210802 B Anisotrope synthetische Melanine b wurden durch Festkörperpolymerisation hergestellt, wie Nathan C. Gianneschi et al. in ihrem Forschungsartikel auf S. 17605 berichten. Titelbild: Anisotropic Synthetic Allomelanin Materials via Solid-State Polymerization of Self-Assembled 1,8-Dihydroxynaphthalene Dimers (Angew. [Extracted from the article]

Published

2021

21. Agentes da cromoblastomicose : relação da melanina como fator de proteção e identificação das espécies usando espectroscopia no infravermelho com transformada de Fourier

Author

Heidrich, Daiane and Scroferneker, Maria Lucia

Subjects

Cromoblastomicose, Espectroscopia infravermelho transformada de Fourier, FTIR, Rhinocladiella similis, Oxidative stress, Estresse oxidativo, Melanin quantification, Antifungal sensitivity, Melaninas, DHN melanin, ITS, Antifúngicos

Abstract

Introdução: a cromoblastomicose (CBM) é uma micose subcutânea causada por fungos melanizados de vários gêneros. Alternativas para identificação das espécies causadoras de CBM utilizando Espectroscopia no Infravermelho com Transformada de Fourier (FTIR) foi avaliada somente para o gênero Exophiala. Os testes de suscetibilidade aos antifúngicos não foram realizados para algumas espécies de agentes da CBM, sendo importante essa determinação para auxiliar na escolha adequada do tratamento. Embora o conhecimento de que a melanina tenha ação contra radicais livres oxidantes, poucos estudos exploraram o tema e somente o gênero Fonsecaea foi avaliado, utilizando baixo número de isolados. Objetivo: propor identificação dos agentes da CBM por FTIR e avaliar o perfil das diferentes espécies na resposta aos antifúngicos. Além disso, quantificar a melanina e avaliar a influência da mesma na sobrevivência dos isolados após estresse oxidativo e na suscetibilidade aos antifúngicos. Métodos: foram utilizados até 78 isolados clínicos em cada experimento. Para FTIR, a aquisição dos espectros de 4000-650 nm foi realizada a partir de técnica proposta; O teste de suscetibilidade a seis antifúngicos e o ensaio de estresse oxidativo frente ao peróxido de hidrogênio (H2O2) foram realizados com os isolados pareados (com e sem inibidor de melanina - triciclazol); A melanina foi extraída pelo método álcali-ácida e quantificada por gravimetria. Resultados: o modelo proposto de identificação por FTIR teve alto coeficiente de determinação e baixo erro da linha de tendência e validação cruzada obtidas. Terbinafina foi o antifúngico que apresentou menores concentrações inibitórias mínimas (CIMs) contra gêneros Fonsecaea, Phialophora e duas espécies de Rhinocladiella. Já anfotericina B e itraconazol apresentaram as CIMs mais elevadas. Além disso, outras diferenças entre gêneros e espécies foram observadas; gênero Rhinocladiella, quando a melanina não está inibida, mostrou maior sensibilidade ao estresse causado por H2O2 do que Phialophora e Fonsecaea, enquanto que os dois últimos foram os mais resistentes ao estresse oxidativo. Ao passo de que a quantidade de melanina extraída de Rhinocladiella foi significativamente menor do que Phialophora e Fonsecaea. Conclusão: Foi proposto um modelo que apresentou alta capacidade de classificar as 13 espécies de agentes causadores de CBM. A identificação e o teste de suscetibilidade aos antifúngicos nas práticas clínicas são importantes para auxiliar no tratamento. Além disso, os estudos que avaliaram a relação com melanina, tanto quantificação, estresse oxidativo e relação com antifúngicos comprovam, em agentes da CBM, o fator protetor da melanina frente a agressões externas sofridas por determinados gêneros e espécies, agressões estas relacionadas ao ambiente e ao hospedeiro. Background: chromoblastomycosis (CBM) is a subcutaneous mycosis caused by melanized fungi of several genera. Alternative for species identification using Fourier Transform Infrared Spectroscopy (FTIR) was evaluated only for the genus Exophiala. The testing of antifungal susceptibity was not evaluated for some species of CBM agents, and this determination is important to aid in the appropriate choice of treatment. Although the knowledge that melanin has an action against oxidative radicals, few studies have explored the subject and only the genus Fonsecaea has been evaluated, using a low number of isolates. Objective: to propose identification of the CBM agents by FTIR and to evaluate the profile of the different species in the response to antifungals. Furthermore, to quantify the melanin and to evaluate its influence in the survival of the isolates after oxidative stress and the susceptibility to the antifungals. Methods: up to 78 clinical isolates were used in each experiment. For FTIR, the acquisition of the 4000-650 nm spectra was performed using a proposed technique; The susceptibility test using six antifungal agents and the oxidative stress test using hydrogen peroxide (H2O2) were performed with the isolates in paired form (with and without melanin inhibitor - tricyclazole); The melanin was extracted by the alkali-acid method and quantified by gravimetry. Results: the proposed FTIR identification model had a high coefficient of determination and a low error of the trend line and cross-validation obtained. Terbinafine was the antifungal that presented smaller minimum inhibitory concentrations (MICs) against genera Fonsecaea, Phialophora and two species of Rhinocladiella. While amphotericin B and itraconazole had the highest MICs. In addition, other differences between genera and species were observed; Genus Rhinocladiella, when melanin is not inhibited, showed greater sensitivity to stress caused by H2O2 than Phialophora and Fonsecaea, while the last two genera were the most resistant to oxidative stress. Moreover, the amount of melanin extracted from Rhinocladiella was significantly lower than Phialophora and Fonsecaea. Conclusion: a model that presented high capacity to classify the 13 species of CBM agents was proposed. Identification and testing of antifungal susceptibility in clinical settings are important to aid in treatment. Furthermore, the studies that evaluated the relationship with melanin, both quantification, oxidative stress and relation with antifungals demonstrate, in CBM agents, the protective factor of melanin against external aggressions of environmental and host suffered by certain genera and species.

Published

2017

22. Compartmentalization of Melanin Biosynthetic Enzymes Contributes to Self-Defense against Intermediate Compound Scytalone in Botrytis cinerea .

Author

Chen X, Zhu C, Na Y, Ren D, Zhang C, He Y, Wang Y, Xiang S, Ren W, Jiang Y, Xu L, and Zhu P

Subjects

Biosynthetic Pathways physiology, Botrytis enzymology, Botrytis metabolism, Fungal Proteins metabolism, Gene Expression Regulation, Fungal, Mutation, Naphthols analysis, Secondary Metabolism, Biosynthetic Pathways genetics, Botrytis genetics, Melanins biosynthesis, Melanins genetics, Naphthols metabolism

Abstract

In filamentous fungi, 1,8-dihydroxynaphthalene (DHN) melanin is a major component of the extracellular matrix, endowing fungi with environmental tolerance and some pathogenic species with pathogenicity. However, the subcellular location of the melanin biosynthesis pathway components remains obscure. Using the gray mold pathogen Botrytis cinerea , the DHN melanin intermediate scytalone was characterized via phenotypic and chemical analysis of mutants, and the key enzymes participating in melanin synthesis were fused with fluorescent proteins to observe their subcellular localizations. The Δ bcscd1 mutant accumulated scytalone in the culture filtrate rather than in mycelium. Excessive scytalone appears to be self-inhibitory to the fungus, leading to repressed sclerotial germination and sporulation in the Δ bcscd1 mutant. The BcBRN1/2 enzymes responsible for synthesizing scytalone were localized in endosomes and found to be trafficked to the cell surface, accompanied by the accumulation of BcSCD1 proteins in the cell wall. In contrast, the early-stage melanin synthesis enzymes BcPKS12/13 and BcYGH1 were localized in peroxisomes. Taken together, the results of this study revealed the subcellular distribution of melanin biosynthetic enzymes in B. cinerea , indicating that the encapsulation and externalization of the melanin synthetic enzymes need to be delicately orchestrated to ensure enzymatic efficiency and protect itself from the adverse effect of the toxic intermediate metabolite. IMPORTANCE The devastating gray mold pathogen Botrytis cinerea propagates via melanized conidia and sclerotia. This study reveals that the sclerotial germination of B. cinerea is differentially affected by different enzymes in the melanin synthesis pathway. Using gene knockout mutants and chemical analysis, we found that excessive accumulation of the melanin intermediate scytalone is inhibitory to B. cinerea. Subcellular localization analysis of the melanin synthesis enzymes of B. cinerea suggested two-stage partitioning of the melanogenesis pathway: the intracellular stage involves the steps until the intermediate scytalone was translocated to the cell surface, whereas the extracellular stage comprises all the steps occurring in the wall from scytalone to final melanin formation. These strategies make the fungus avert self-poisoning during melanin production. This study opens avenues for better understanding the mechanisms of secondary metabolite production in filamentous fungi., (Copyright © 2021 Chen et al.)

Published

2021

23. NADPH Oxidase ClNOX2 Regulates Melanin-Mediated Development and Virulence in Curvularia lunata .

Author

Wang F, Gao W, Sun J, Mao X, Liu K, Xu J, Fu D, Yuan M, Wang H, Chen N, Xiao S, and Xue C

Subjects

Ascomycota pathogenicity, Fungal Proteins genetics, Reactive Oxygen Species metabolism, Spores, Fungal, Virulence, Ascomycota enzymology, Melanins biosynthesis, NADPH Oxidases genetics, Plant Diseases microbiology

Abstract

The role of NADPH oxidases (NOXs) in pathogenesis and development in the Curvularia leaf spot agent Curvularia lunata remains poorly understood. In this study, we identified C . lunata ClNOX2, which localized to the plasma membrane and was responsible for reactive oxygen species (ROS) generation. Scavenging the ROS production inhibited the conidial germination and appressorial formation. The ClNOX2 and ClBRN1 deletion mutants were defective in 1,8-dihydroxynaphthalene (DHN) melanin accumulation, appressorial formation, and cellulase synthesis and exhibited lower virulence. However, disruption of the ClNOX2 and ClBRN1 genes facilitated hyphal growth, enhanced stress adaptation to cell-wall-disrupting agents, and promoted developmental processes such as conidiation, conidial germination, and pseudothecium and ascus formation. Interestingly, loss of ClM1 , the cell wall integrity (CWI) mitogen-activated protein kinase gene in C . lunata , led to morphology and pathogenicity phenotypes similar to ClNOX2 and ClBRN1 deletion mutants such as abnormal conidia, fewer appressoria, less melanin, increased hyphal growth, and enhanced tolerance to Congo red (CR). These results indicated that the ClNOX2 gene plays an important role in C. lunata development and virulence via regulating intracellular DHN melanin biosynthesis. Quantitative reverse-transcription PCR revealed that the ClNOX2 -related ROS signaling pathway and ClM1 -mediated CWI signaling pathway are cross-linked in regulating DHN melanin biosynthesis. Our findings provide new insights into how ClNOX2 participates in pathogenesis and development in hemibiotrophic plant fungal pathogens.[Formula: see text] Copyright © 2020 The Author(s). This is an open access article distributed under the CC BY-NC-ND 4.0 International license.

Published

2020

24. Artificial Allomelanin Nanoparticles.

Author

Zhou X, McCallum NC, Hu Z, Cao W, Gnanasekaran K, Feng Y, Stoddart JF, Wang Z, and Gianneschi NC

Subjects

Epidermal Cells radiation effects, Free Radical Scavengers metabolism, Fungi radiation effects, Humans, Keratinocytes drug effects, Keratinocytes metabolism, Keratinocytes radiation effects, Melanins chemistry, Naphthols chemistry, Naphthols pharmacology, Nitrogen chemistry, Nuclear Power Plants, Oxidation-Reduction drug effects, Radiation-Protective Agents chemistry, Radiation-Protective Agents pharmacology, Reactive Oxygen Species metabolism, Spacecraft, Ultraviolet Rays adverse effects, Free Radical Scavengers chemistry, Fungi drug effects, Nanoparticles chemistry

Abstract

Allomelanin is a type of nitrogen-free melanin most commonly found in fungi. Its existence enhances resistance of the organisms to environmental damage and helps fungi survive harsh radiation conditions such as those found on spacecraft and inside contaminated nuclear power plants. We report the preparation and characterization of artificial allomelanin nanoparticles (AMNPs) via oxidative oligomerization of 1,8-dihydroxynaphthalene (1,8-DHN). We describe the resulting morphological and size control of AMNPs and demonstrate that they are radical scavengers. Finally, we show that AMNPs are taken up by neonatal human epidermal keratinocytes and packaged into perinuclear caps where they quench reactive oxygen species generated following UV exposure.

Published

2019

25. Cladosporium cladosporioides LPSC 1088 produces the 1,8-dihydroxynaphthalene-melanin-like compound and carries a putative pks gene

Author

Mario Carlos Nazareno Saparrat, Pedro Alberto Balatti, Carla Llorente, José Vera Bahima, María Virginia Mirífico, M. Fernanda Rozas, Angélica Margarita Arambarri, and Alejandra Bárcena

Subjects

Veterinary (miscellaneous), Molecular Sequence Data, Cladosporium cladosporioides, Fungus, Naphthols, Applied Microbiology and Biotechnology, Microbiology, Conidium, Melanin, Ciencias Biológicas, Fungal Proteins, Pigment, Solanum lycopersicum, Polyketide synthase, FUNGICIDES, Gene, Mycelium, Phylogeny, Melanins, biology, CLADOSPORIUM CLADOSPORIOIDES, Electron Spin Resonance Spectroscopy, PKS, biology.organism_classification, DHN MELANIN, POLYKETIDE SYNTHASE, Biochemistry, visual_art, visual_art.visual_art_medium, biology.protein, sense organs, Micología, Agronomy and Crop Science, Cladosporium, Polyketide Synthases, CIENCIAS NATURALES Y EXACTAS

Abstract

Cladosporium cladosporioides is a dematiaceous fungus with coloured mycelia and conidia due to the presence of dark pigments. The purpose of this study was to characterize the dark pigments synthetized by Cladosporium sp. LPSC no. 1088 and also to identify the putative polyketide synthase (pks) gene that might be involved in the pigment biosynthesis. Morphological as well as molecular features like the ITS sequence confirmed that LPSC 1088 is Cladosporium cladosporioides. UV-visible, Fourier Transform Infrared (FTIR) and Electron Spin Resonance (ESR) spectroscopy analysis as well as melanin inhibitors suggest that the main dark pigment of the isolate was 1,8 dihydroxynaphthalene (DHN)-melanin-type compound. Two commercial fungicides, Difenoconazole and Chlorothalonil, inhibited fungal growth as well as increased pigmentation of the colonies suggesting that melanin might protect the fungus against chemical stress. The pigment is most probably synthetized by means of a pentaketide pathway since the sequence of a 651 bp fragment, coding for a putative polyketide synthase, is highly homologous to pks sequences from other fungi. Fil: Llorente, Carla. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - La Plata. Instituto de Fisiología Vegetal. Universidad Nacional de La Plata. Facultad de Ciencias Naturales y Museo. Instituto de Fisiología Vegetal; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina Fil: Bárcena, Alejandra. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - La Plata. Instituto de Fisiología Vegetal. Universidad Nacional de La Plata. Facultad de Ciencias Naturales y Museo. Instituto de Fisiología Vegetal; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina Fil: Vera Bahima, José. Universidad Nacional de La Plata. Facultad de Ciencias Agrarias y Forestales. Departamento de Ciencias Biológicas. Centro de Investigaciones de Fitopatología. Provincia de Buenos Aires. Gobernación. Comisión de Investigaciones Científicas. Centro de Investigaciones de Fitopatología; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina Fil: Saparrat, Mario Carlos Nazareno. Universidad Nacional de La Plata. Facultad de Ciencias Naturales y Museo. Instituto de Botánica Spegazzini; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - La Plata. Instituto de Fisiología Vegetal. Universidad Nacional de La Plata. Facultad de Ciencias Naturales y Museo. Instituto de Fisiología Vegetal; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina Fil: Arambarri, Angélica Margarita. Universidad Nacional de La Plata. Facultad de Ciencias Naturales y Museo. Instituto de Botánica Spegazzini; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina Fil: Rozas, Maria Fernanda. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - La Plata. Instituto de Investigaciones Fisicoquímicas Teóricas y Aplicadas. Universidad Nacional de La Plata. Facultad de Ciencias Exactas. Instituto de Investigaciones Fisicoquímicas Teóricas y Aplicadas; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina Fil: Mirifico, Maria Virginia. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - La Plata. Instituto de Investigaciones Fisicoquímicas Teóricas y Aplicadas. Universidad Nacional de La Plata. Facultad de Ciencias Exactas. Instituto de Investigaciones Fisicoquímicas Teóricas y Aplicadas; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina Fil: Balatti, Pedro Alberto. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - La Plata. Instituto de Fisiología Vegetal. Universidad Nacional de La Plata. Facultad de Ciencias Naturales y Museo. Instituto de Fisiología Vegetal; Argentina. Universidad Nacional de La Plata. Facultad de Ciencias Agrarias y Forestales; Argentina

Published

2012