Your search keyword '"Scytalidium cuboideum"' showing total 40 results

1. Scytalidium cuboideum Inhibits Shiitake Mycelial Growth and Causes Pink Staining in Shiitake Billets (Quercus griffithii) in Bhutan.

Author

Diplock, Naomi D., Galea, Victor J., Dorji, Norbu, Watanabe, Kazuo, and Terashima, Yoshie

Subjects

*SHIITAKE, *PINK, *FISH spawning, *LOW temperatures, *MYCELIUM

Abstract

Pink staining in shiitake (Lentinula edodes (Berk.) Pegler) billets (Quercus griffithii Hook.f. and Thomson ex Miq.) causing the inhibition of shiitake mycelium and a reduction in shiitake production was observed throughout Bhutan in 2017-2018. Completion of Koch's postulates confirmed the causal agent to be Scytalidium cuboideum, a first record of this disease in shiitake billets in Bhutan. In failed billets, it was observed that there was no growth of shiitake mycelium from the spawn. Trials suggest that S. cuboideum is responsible for the occurrences of poor colonisation by shiitake spawn--even when pink staining is not evident. Warm temperatures favour S. cuboideum, with shiitake able to sometimes overcome low rates of infection when incubated at low temperatures. [ABSTRACT FROM AUTHOR]

Published

2023

2. Scytalidium cuboideum Inhibits Shiitake Mycelial Growth and Causes Pink Staining in Shiitake Billets (Quercus griffithii) in Bhutan

Author

Naomi D. Diplock, Victor J. Galea, Dorji, Norbu, Kazuo Watanabe, and Yoshie Terashima

Subjects

Lentinula edodes, shiitake, Scytalidium cuboideum, Quercus griffithii, Koch’s postulates, failed production, Science, Biology (General), QH301-705.5

Abstract

Pink staining in shiitake (Lentinula edodes (Berk.) Pegler) billets (Quercus griffithii Hook.f. and Thomson ex Miq.) causing the inhibition of shiitake mycelium and a reduction in shiitake production was observed throughout Bhutan in 2017–2018. Completion of Koch’s postulates confirmed the causal agent to be Scytalidium cuboideum, a first record of this disease in shiitake billets in Bhutan. In failed billets, it was observed that there was no growth of shiitake mycelium from the spawn. Trials suggest that S. cuboideum is responsible for the occurrences of poor colonisation by shiitake spawn—even when pink staining is not evident. Warm temperatures favour S. cuboideum, with shiitake able to sometimes overcome low rates of infection when incubated at low temperatures.

Published

2023

3. Preliminary Exploration of the Red Pigment from Scytalidium cuboideum as a Cellulosic Pulp Colorant.

Author

Stone, Derek W., Vega Gutierrez, Sarath M., Walsh, Zielle M., and Robinson, Seri C.

Subjects

*WOOD-decaying fungi, *DYE industry, *PIGMENTS industry, *DYES & dyeing, *SOFTWOOD, *PIGMENTS

Abstract

Pollution from the international dye industry continues to be a global problem. Biotechnology offers new options, including a closer look at select wood decay fungi to replace inorganic dyes. The pigments produced by a small group of soft rotting fungi are generally naphthoquinonic and remarkably stable. From this group, the dramada crystals, produced by Scytalidium cuboideum, are of particular interest. To test the application of this pigment as a natural colorant of cellulosic pulps, four different bleached pulps were selected (one hardwood, three softwood), in three different mediums (acetone, ethanol, and DI water). The pigment generated a significant change of color, but there was no significant difference in color intensity based on the solvent carrier. These preliminary results are promising as they open the door for further exploration of applications of fungal pigments in the paper industry. Once these pigments can be reliably grown, they will offer a sustainable organic alternative to polluting inorganic dyestuffs and help reduce the toxic effluent released into the soil and waterways. [ABSTRACT FROM AUTHOR]

Published

2022

4. Stability of the Fungal Pigment from Scytalidium cuboideum Carried in Food-Grade Natural Oils.

Author

Hinsch, Eric, Vega Gutierrez, Sarath M., Van Court, R. C., Chen, Hsiou-Lien, and Robinson, Seri C.

Subjects

*LINSEED oil, *OIL paint, *PIGMENTS, *ORGANIC solvents, *WOOD, *ORGANIC dyes, *CAROTENES

Abstract

Wood-staining fungal pigments have shown potential use as colorants for wood and textiles, with organic solvents as the pigment carrier. Natural oils have been suggested as an environmentally friendly and more available carrier; however, oils promoted color degradation. The current study examined the mechanism of said degradation and tested therapeutic and food-grade oils (instead of finishing oils) for their potential to carry draconin red, the pigment from Scytalidium cuboideum, without color loss over time. FTIR analysis from finishing oils indicated that oxidation was not likely the cause of color loss as the pigment could not be distinguished from the oils in the IR spectra. SEM was employed to determine if crystal degradation was contributing to color loss and indicated, surprisingly, that the crystals of draconin red formed rather than degraded over time. This suggested crystal breakdown was also not likely the cause of color loss. The pigment did not show degradation in hemp oil, flaxseed oil, and cold-pressed linseed oil when treated with β-carotene. Further in-depth chemical studies are needed to determine the mechanism of color loss in pigmented natural oils; however, food-grade oils appear to be a promising alternative to carry draconin red, without degradation of the color. [ABSTRACT FROM AUTHOR]

Published

2022

5. Stimulating Production of Pigment-Type Secondary Metabolites from Soft Rotting Wood Decay Fungi ('Spalting' Fungi)

Author

Van Court, R. C., Robinson, Seri C., Scheper, Thomas, Series Editor, Belkin, Shimshon, Editorial Board Member, Bley, Thomas, Editorial Board Member, Bohlmann, Jörg, Editorial Board Member, Gu, Man Bock, Editorial Board Member, Hu, Wei-Shou, Editorial Board Member, Mattiasson, Bo, Editorial Board Member, Nielsen, Jens, Editorial Board Member, Seitz, Harald, Editorial Board Member, Ulber, Roland, Editorial Board Member, Zeng, An-Ping, Editorial Board Member, Zhong, Jian-Jiang, Editorial Board Member, Zhou, Weichang, Editorial Board Member, Steudler, Susanne, editor, Werner, Anett, editor, and Cheng, Jay J., editor

Published

2019

6. Preliminary Exploration of the Red Pigment from Scytalidium cuboideum as a Cellulosic Pulp Colorant

Author

Derek W. Stone, Sarath M. Vega Gutierrez, Zielle M. Walsh, and Seri C. Robinson

Subjects

pulp, softwood, hardwood, spalting, Scytalidium cuboideum, pigment dye, Technology, Science (General), Q1-390

Abstract

Pollution from the international dye industry continues to be a global problem. Biotechnology offers new options, including a closer look at select wood decay fungi to replace inorganic dyes. The pigments produced by a small group of soft rotting fungi are generally naphthoquinonic and remarkably stable. From this group, the dramada crystals, produced by Scytalidium cuboideum, are of particular interest. To test the application of this pigment as a natural colorant of cellulosic pulps, four different bleached pulps were selected (one hardwood, three softwood), in three different mediums (acetone, ethanol, and DI water). The pigment generated a significant change of color, but there was no significant difference in color intensity based on the solvent carrier. These preliminary results are promising as they open the door for further exploration of applications of fungal pigments in the paper industry. Once these pigments can be reliably grown, they will offer a sustainable organic alternative to polluting inorganic dyestuffs and help reduce the toxic effluent released into the soil and waterways.

Published

2022

7. Stability of the Fungal Pigment from Scytalidium cuboideum Carried in Food-Grade Natural Oils

Author

Eric Hinsch, Sarath M. Vega Gutierrez, R. C. Van Court, Hsiou-Lien Chen, and Seri C. Robinson

Subjects

spalting, fungal pigments, natural colorants, natural oils, Scytalidium cuboideum, FTIR, Biology (General), QH301-705.5

Abstract

Wood-staining fungal pigments have shown potential use as colorants for wood and textiles, with organic solvents as the pigment carrier. Natural oils have been suggested as an environmentally friendly and more available carrier; however, oils promoted color degradation. The current study examined the mechanism of said degradation and tested therapeutic and food-grade oils (instead of finishing oils) for their potential to carry draconin red, the pigment from Scytalidium cuboideum, without color loss over time. FTIR analysis from finishing oils indicated that oxidation was not likely the cause of color loss as the pigment could not be distinguished from the oils in the IR spectra. SEM was employed to determine if crystal degradation was contributing to color loss and indicated, surprisingly, that the crystals of draconin red formed rather than degraded over time. This suggested crystal breakdown was also not likely the cause of color loss. The pigment did not show degradation in hemp oil, flaxseed oil, and cold-pressed linseed oil when treated with β-carotene. Further in-depth chemical studies are needed to determine the mechanism of color loss in pigmented natural oils; however, food-grade oils appear to be a promising alternative to carry draconin red, without degradation of the color.

Published

2022

8. Preliminary Examination of the Toxicity of Spalting Fungal Pigments: A Comparison between Extraction Methods.

Author

Badria H. Almurshidi, R. C. Van Court, Sarath M. Vega Gutierrez, Stacey Harper, Bryan Harper, and Seri C. Robinson

Subjects

*FUNGAL pigments, *CLEAN energy, *DICHLOROMETHANE, *BIOAVAILABILITY, *FUNGAL metabolites

Abstract

Spalting fungal pigments have shown potential in technologies ranging from green energy generation to natural colorants. However, their unknown toxicity has been a barrier to industrial adoption. In order to gain an understanding of the safety of the pigments, zebrafish embryos were exposed to multiple forms of liquid media and solvent-extracted pigments with concentrations of purified pigment ranging from 0 to 50 mM from Chlorociboria aeruginosa, Chlorociboria aeruginascens, and Scytalidium cuboideum. Purified xylindein from Chlorociboria sp. did not show toxicity at any tested concentration, while the red pigment dramada from S. cuboideum was only associated with significant toxicity above 23.2 uM. However, liquid cultures and pigment extracted into dichloromethane (DCM) showed toxicity, suggesting the co-production of bioactive secondary metabolites. Future research on purification and the bioavailability of the red dramada pigment will be important to identify appropriate use; however, purified forms of the blue-green pigment xylindein are likely safe for use across industries. This opens the door to the adoption of green technologies based on these pigments, with potential to replace synthetic colorants and less stable natural pigments. [ABSTRACT FROM AUTHOR]

Published

2021

9. Spalting colorants as dyes for wood stabilizers.

Author

Rui, He, Robinson, S. C., Vega Gutierrez, Patricia, and Stanton, Savannah

Subjects

BIOLOGICAL pigments, WOOD decay, NATURAL dyes & dyeing, PLANT pigments, DYES & dyeing

Abstract

Spalted wood stabilization through various heat-treated resins has become a popular method for dealing with heavily decayed wood that no longer has enough structure to be usable. Among the most popular resins are the solutions of mixed methacrylated esters, which are often tinted with synthetic colorants to add an artificial colored layer to zone line-spalted wood as well as to stabilize the white-rotted areas. This research found that spalting pigments (technically dyes, but referred to as pigments in biological fields)—extracted from spalted wood—could be used in place of the synthetic colorants, thereby adding additional spalting to the wood without any associated decay (and adding additional spalting while stabilizing the wood with the same type of fungi that decayed it in the first place). Of the three fungi tested, the red pigment from Scytalidium cuboideum had the deepest penetration (complete) of the wood and was color stable after the curing process. While the blue–green pigment from Chlorociboria aeruginosa effectively colored the surface of the wood, it did not appear internally. The yellow pigment from S. ganodermophthorum did not show on the wood. None of the fungal colorants affected the properties of the methacrylation. The results of this study offer an intriguing opportunity to replace synthetic colorants with natural ones, which may be particularly attractive to turners of spalted wood who tend to prize natural color over synthetic. [ABSTRACT FROM AUTHOR]

Published

2019

10. Oil-Based Fungal Pigment from Scytalidium cuboideum as a Textile Dye

Author

Mardonio E. Palomino Agurto, Sarath M. Vega Gutierrez, R. C. Van Court, Hsiou-Lien Chen, and Seri C. Robinson

Subjects

fungal pigment, natural dye, spalting, Scytalidium cuboideum, dramada, sustainable clothing, Biology (General), QH301-705.5

Abstract

Identification of effective natural dyes with the potential for low environmental impact has been a recent focus of the textile industry. Pigments derived from spalting fungi have previously shown promise as textile dyes; however, their use has required numerous organic solvents with human health implications. This research explored the possibility of using linseed oil as a carrier for the pigment from Scytalidium cuboideum as a textile dye. Colored linseed oil effectively dyed a range of fabrics, with natural fibers showing better coloration. Scanning electron microscopy (SEM) revealed a pigment film over the fabric surface. While mechanical testing showed no strength loss in treated fabric, colorfastness tests showed significant changes in color in response to laundering and bleach exposure with variable effects across fabric varieties. SEM investigation confirmed differences in pigmented oil layer loss and showed variation in pigment crystal formation between fabric varieties. Heating of the pigmented oil layer was found to result in a bright, shiny fabric surface, which may have potential for naturally weatherproof garments.

Published

2020

11. Fungi and Fungal Metabolites for the Improvement of Human and Animal Nutrition and Health.

Author

Dufossé, Laurent, Caro, Yanis, Dufossé, Laurent, and Fouillaud, Mireille

Subjects

Technology: general issues, AAL-toxin, ATR-FTIR spectroscopy, Alginate, Candida albicans, Candida auris, Candida krusei, Candida lambica, Endophytic fungi, FIP, FTIR spectroscopy, Ganoderma, Hyptis dilatata, LC-ESI-Q-TOF-MS, M. purpureus, MALDI-TOF, Mortierella alpina, Mucor circinelloides, NTCD, Pestalotiopsis mangiferae, Pestalotiopsis microspora, Pleurotus ostreatus, Saccharomyces boulardii, Saccharomyces cerevisiae, Sargassum species, Sclerotinia, Scytalidium cuboideum, Sparassis latifolia, Sporidiobolus ruineniae, Talaromyces albobiverticillius, Thymus vulgare, additives, agave mezcalero bagasse, animal fat by-product, antibacterial activity, anticancer, antifungal, antimicrobial, antioxidant, antitumor, apple bagasse, aqueous two-phases system extraction, arachidonic acid, aromatic alcohols, azaphilones, bioactive compounds, biochemical identification, bioconversion, biodegradable films, biofortification, biofuel, biological activity, biological control, bioremediation, biosynthesis, biotechnological approaches, carotenoid, carotenoids, challenges, cheese, chemical elicitors, chemical structure, cholesterol reduction, co-production, cytokines, dairy, dramada, elevated CO2, elicitation, endophytic fungi, energy, ewes, extraction ability, feed additive, filamentous fungi, food package, fruit, fumonisins, functional foods, fungal pigment, fungal pigments, fungi, gastrointestinal tract, genetics and evolution, growth, growth temperature Ancom Gas Production System, healthy aging, high-throughput screening, human health, immunomodulation, induced apoptosis, ionic liquids, kombucha, lectin, limits, lipids, liquid swine diets, livestock, macro-fungi, marine fungi, medical roles, medicinal mushroom, medicinal mushrooms, melanin, metabolites, metabolomics, metal ions, micro-fungi, mycobiome, mycorrhizae, mycorrhizal fungi, natural colorant, natural colorants, natural dye, non-albicans Candida species, nutraceuticals, oligosaccharides, phosphorus, photosynthesis, plant growth-promoting rhizobacteria (PGPRs), polyketides, polyphenol, polysaccharide, postharvest decay, probiotic, probiotic potential, probiotics, red yeast rice, secondary metabolite, secondary metabolites, selenium, solid-state fermentation, spalting, sphinganine-analog mycotoxins, stirred-tank bioreactor, sustainability, sustainable clothing, tannase, terpenes and terpenoids, textile dyeing, toxicity, toxicity testing, transporters, uncommon secondary metabolites, yeast, yeasts, β-glucan

Abstract

Summary: The purpose of this book was not to provide a comprehensive overview of the vast arena of how fungi and fungal metabolites are able to improve human and animal nutrition and health; rather, we, as Guest Editors, wished to encourage authors working in this field to publish their most recent work in this rapidly growing journal in order for the large readership to appreciate the full potential of wonderful and beneficial fungi. Thus, this Special Issue welcomed scientific contributions on applications of fungi and fungal metabolites, such as bioactive fatty acids, pigments, polysaccharides, alkaloids, terpenoids, etc., with great potential in human and animal nutrition and health.

12. Potential for fungal dyes as colorants in oil and acrylic paints.

Author

Robinson, Seri C., Vega Gutierrez, Sarath Mercedes, Garcia, Rosa Amelia Cespedes, Iroume, Nicole, Vorland, Nikole Renee, Andersen, Claudia, de Oliveira Xaxa, Igor D., Kramer, Olivia E., and Huber, Megan E.

Subjects

DYES & dyeing, ACRYLIC paint, MUSHROOMS, ORGANIC solvents, LINSEED oil

Abstract

Potential applications for colorants derived from the spalting fungi Chlorociboria aeruginascens, Chlorociboria aeruginosa, Scytalidium cuboideum, and Scytalidium ganodermophthorum are of growing interest across a variety of fields, from wood and textile dyes, to solar cells. Previous research found that these dyes could be carried in natural oils, specifically raw linseed oil, instead of organic solvents, thereby eliminating the toxicity issues surrounding such carriers. In this work, dyes from the aforementioned fungi were extracted, carried in raw linseed oil, and mixed with a range of oil and acrylic paints to determine if the oil carrier was appropriate for delivering the dyes into a paint matrix. The oil-based dyes did not mix evenly with the acrylic paints; however, the acrylic paints maintained the color of the dyes. In contrast, the oil-based paints mixed well with the dyes, but the dyes decolorized (completely lost color) due to the presence of refined linseed oil in the paint base. Artists’ paints do not appear to be compatible with fungal dyes when carried in oil; however, there are still many potential applications for the oil-based dyes, such as wood and textile dyeing. [ABSTRACT FROM AUTHOR]

Published

2018

13. Potential for carrying dyes derived from spalting fungi in natural oils.

Author

Robinson, Sara, Gutierrez, Sarath, Garcia, Rosa, Iroume, Nicole, Vorland, Nikole, McClelland, Amy, Huber, Megan, and Stanton, Savannah

Subjects

COLOR of wood, DYES & dyeing, WOOD-decaying fungi, SOLUTION (Chemistry), DICHLOROMETHANE, ORGANIC solvents

Abstract

Wood colored internally by fungi has long been used by woodcrafters and artisans as a substitute for synthetic dyes. Recent advances in the field of spalted wood have led to methods by which the fungal dyes can be extracted from either a fungal solution or colonized wood and then reapplied to clear wood. This takes the 'guess work' out of spalting, as well as the time necessary for fungal colonization; however, it requires organic solvents like dichloromethane, which are toxic and not readily available to consumers. Herein, the authors show that the dyes can be successfully carried and blended together (to increase the range of colors) in a range of natural oils. The blue-green dye of Chlorociboria species, called xylindein, carried best in raw linseed oil, the red dye of Scytalidium cuboideum performed best in Danish oil, although more dye could be carried in raw linseed oil, and the yellow dye of Scytalidium ganodermophthorum performed best in walnut oil. The ability to carry and mix these dyes in easily purchased, nontoxic oils opens up their use to woodworkers who seek to follow the traditions of spalted wood, but do not have the skills or time to work with live fungal cultures or fungal dyes suspended in toxic organic solvents. [ABSTRACT FROM AUTHOR]

Published

2017

14. Relationship between Molarity and Color in the Crystal (‘Dramada’) Produced by Scytalidium cuboideum, in Two Solvents

Author

Sarath M. Vega Gutierrez, R. C. Van Court, Derek W. Stone, Matthew J. Konkler, Emily N. Groth, and Seri C. Robinson

Subjects

Scytalidium cuboideum, Dramada, saturation, molarity, color difference, fungal pigment, Organic chemistry, QD241-441

Abstract

Pigments from wood-decay fungi (specifically spalting fungi) have a long history of use in wood art, and have become relevant in modern science due to their longevity and colorfastness. They are presently under investigation as colorants for wood, bamboo, oils, paints and textiles. Major hurdles to their commercialization have been color repeatability (in that the same strain of the same species of fungus may produce different colors over time), and the binding of the pigments to glass storage containers. This is persistent as they do not naturally exist in a loose form. Due to these issues, the ‘standard’ color for each was historically determined not by the amount of pigment, but by the color in a solution of dichloromethane (DCM), using the CIE L*a*b colorspace. This method of standardization severely limited the use of these pigments in industrial applications, as without a dry form, standard methodologies for repeatable color processing into other materials could not be easily implemented. Recent studies have developed a method to crystalize the red pigment from Scytalidium cuboideum (Sacc. & Ellis) Sigler & Kang, producing a highly pure (99%) solid crystal named ‘Dramada’. Herein a method is detailed to compare the molarity of this crystallized pigment to variations in the color, to determine a color saturation curve (by weight) for the pigment from S. cuboideum in DCM and acetone. The molarities for this experiment ranged from 0.024 mM to 19 mM. Each molarity was color read and assigned a CIEL*a*b* value. The results showed that there was a correlation between the molarity and color difference, with the maximum red color occurring between 0.73 mM and 7.3 mM in DCM and between 0.97 mM to 0.73 mM in acetone. Extremely low molarities of pigment produced strong coloration in the solvent, and changes in molarity significantly affected the color of the solution. Having a saturation and color curve for the crystal ‘Dramada’ from S. cuboideum will allow for the reliable production of distinct colors from a known quantity (by weight) of pigment, erasing the final hurdle towards commercial development of the crystallized pigment from S. cuboideum as an industrial dyestuff.

Published

2018

15. Description of a Naphthoquinonic Crystal Produced by the Fungus Scytalidium cuboideum

Author

Sarath M. Vega Gutierrez, Kenya K. Hazell, John Simonsen, and Seri C. Robinson

Subjects

organic crystal, naphthoquinone, Scytalidium cuboideum, XRD, TEM, NMR, Organic chemistry, QD241-441

Abstract

Intarsia was an art form popular between the 15th–18th centuries that used wood pigmented by spalting fungi to create detailed landscapes, portraits, and other imagery. These fungi are still used today in art but are also finding relevance in material science as elements of solar cells, textile dyes, and paint colorants. Here we show that the spalting fungus Scytalidium cuboideum (Sacc. and Ellis) Sigler and Kang produces a red/pink pigment that forms two distinct colors of crystals (red and orange)—a very rare occurrence. In addition, a second structure of the crystal is proved through nuclear magnetic resonance (NMR). This is only the second instance of a stable, naphthoquinone crystal produced by a fungus. Its discovery is particularly valuable for solar cell development, as crystalline materials have a higher electrical conductivity. Other fungi in this order have shown strong potential as thin films for solar cells.

Published

2018

16. Alternative Carrier Solvents for Pigments Extracted from Spalting Fungi

Author

Lauren Pittis, Diego Rodrigues de Oliveira, Sarath M. Vega Gutierrez, and Seri C. Robinson

Subjects

spalting, fungal pigments, solvents, wood coloration, Chlorociboria aeruginosa, Scytalidium cuboideum, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85

Abstract

The use of both naturally occurring and synthetic pigmented wood has been prevalent in woodcraft for centuries. Modern manifestations generally involve either woodworkers’ aniline dyes, or pigments derived from a special class of fungi known as spalting fungi. While fungal pigments are more renewable than anilines and pose less of an environmental risk, the carrier required for these pigments—dichloromethane (DCM)—is both problematic for humans and tends to only deposit the pigments on the surface of wood instead of evenly within the material. Internal coloration of wood is key to adoption of a pigmenting system by woodworkers. To address this issue, five solvents that had moderate solubility with the pigments extracted from Chlorociboria aeruginosa and Scytalidium cuboideum were identified, in the hopes that a reduction in solubility would result in a greater amount of the pigment deposited inside the wood. Of the tested solvents, acetonitrile was found to produce the highest internal color in ash, Douglas-fir, madrone, mountain hemlock, Port-Orford cedar, Pacific silver fir, red alder and sugar maple. While these carrier solvents are not ideal for extracting the pigments from the fungi, acetonitrile in particular does appear to allow for more pigment to be deposited within wood. The use of acetonitrile over DCM offers new opportunities for possible industrial spalting applications, in which larger pieces of wood could be uniformly pigmented and sold to the end user in larger quantities than are currently available with spalted wood.

Published

2018

17. Spalting colorants as dyes for wood stabilizers

Author

Patricia T. Vega Gutierrez, Savannah Stanton, He Rui, and Sara C. Robinson

Subjects

Materials science, Chlorociboria aeruginosa, technology, industry, and agriculture, 02 engineering and technology, Surfaces and Interfaces, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, Pulp and paper industry, complex mixtures, 01 natural sciences, 0104 chemical sciences, Surfaces, Coatings and Films, Pigment, Colloid and Surface Chemistry, Colored, visual_art, visual_art.visual_art_medium, 0210 nano-technology, Spalting, Scytalidium cuboideum

Abstract

Spalted wood stabilization through various heat-treated resins has become a popular method for dealing with heavily decayed wood that no longer has enough structure to be usable. Among the most popular resins are the solutions of mixed methacrylated esters, which are often tinted with synthetic colorants to add an artificial colored layer to zone line-spalted wood as well as to stabilize the white-rotted areas. This research found that spalting pigments (technically dyes, but referred to as pigments in biological fields)—extracted from spalted wood—could be used in place of the synthetic colorants, thereby adding additional spalting to the wood without any associated decay (and adding additional spalting while stabilizing the wood with the same type of fungi that decayed it in the first place). Of the three fungi tested, the red pigment from Scytalidium cuboideum had the deepest penetration (complete) of the wood and was color stable after the curing process. While the blue–green pigment from Chlorociboria aeruginosa effectively colored the surface of the wood, it did not appear internally. The yellow pigment from S. ganodermophthorum did not show on the wood. None of the fungal colorants affected the properties of the methacrylation. The results of this study offer an intriguing opportunity to replace synthetic colorants with natural ones, which may be particularly attractive to turners of spalted wood who tend to prize natural color over synthetic.

Published

2019

18. Potential Use of the Pigments from Scytalidium cuboideum and Chlorociboria aeruginosa to Prevent ‘Greying’ Decking and Other Outdoor Wood Products

Author

Derek W. Stone, Sarath M. Vega Gutierrez, Seri C. Robinson, Zielle M. Walsh, Patricia T. Vega Gutierrez, and Rui He

Subjects

Materials science, Textile, UV resistant, Raw linseed oil, UV-light, coatings, engineering.material, Pigment, Coating, Chlorociboria aeruginosa, Materials Chemistry, Spalting, Scytalidium cuboideum, accelerated weathering, business.industry, Woodworking, Surfaces and Interfaces, Pulp and paper industry, Engineering (General). Civil engineering (General), QUV, Surfaces, Coatings and Films, wood weathering, visual_art, oil coatings, engineering, visual_art.visual_art_medium, sense organs, TA1-2040, business, fungal pigments

Abstract

UV-light degradation of wood is one of the top reasons for consumer replacement of outdoor wooden structures. This type of degradation is seldom mechanical, and is instead often motivated by loss of aesthetics (graying). There are numerous commercial products available on the market that deal with this loss of color, many of which contain added pigments to ‘rejuvenate’ or ‘revitalize’ greyed wood. These pigments are almost uniformly synthetic. In contrast, pigments from wood decay fungi (spalting), which have been used in woodworking since the 1400s (intarsia), have remarkable optical (UV-light resistance) properties due to their naphthoquinonic configuration. In recent years the pigments made from these fungi have been extracted and tested across numerous substrates, from solar cells to textile dyes. In this work, researchers extracted pigments from Scytalidium cuboideum (red pigmentation) and Chlorociboria aeruginosa (blue-green pigmentation), solubilized the pigments in raw linseed oil, and tested the resulting solution on samples of Douglas-fir (Pseudotsuga menziesii) and western white pine (Pinus monticola). These mixtures were compared against a ‘stain and coat’ treatment (utilizing an aniline stain and coated with raw linseed oil), raw linseed oil, and untreated wood. The wood samples were then placed in an accelerated weathering machine (Q-UV) following the ASTM G154 standard, for 500 and 1000 h. The results showed that while no visible color change occurred to the wood when the pigmented oil was applied, the red pigment oil significantly lowered the coating degradation for both wood types at an exposure of 500 h. The results show the potential applications for fungal pigments in the wood coating industry, as it offers an increased coating service life. As there is a shift to renewable products, the pigments from wood decay fungi show potential as additives for wood coatings.

Published

2021

19. Spiroscytalin, a new tetramic acid and other metabolites of mixed biogenesis from Scytalidium cuboideum.

Author

Sy-Cordero, Arlene A., Figueroa, Mario, Raja, Huzefa A., Meza Aviña, Maria Elena, Croatt, Mitchell P., Adcock, Audrey F., Kroll, David J., Wani, Mansukh C., Pearce, Cedric J., and Oberlies, Nicholas H.

Subjects

*TETRAMIC acids, *METABOLITE analysis, *SCYTALIDIUM, *POLYKETIDES, *RING formation (Chemistry)

Abstract

Spiroscytalin ( 1 ), a new tetramic acid that possesses an uncommon spiro-ring fusion between a polyketide-derived octalin ring system and a 2,4-pyrrolidinedione, along with two known compounds, leporin B ( 2 ) and purpactin A ( 3 ), were isolated from a solid phase culture of the fungus Scytalidium cuboideum (MSX 68345). The molecular connectivity of 1 – 3 was determined using NMR spectroscopy and mass spectrometry. The relative configurations of 1 and 2 were determined by NOESY experiments. The absolute configuration of 1 was determined by electronic circular dichroism (ECD) via a combination of experimental measurements and computational calculations. While leporin B was known, it displayed activities that had not been reported previously, including cytotoxicity against three human tumour cell lines and antibacterial activity against Candida albicans and Staphylococcus aureus . [ABSTRACT FROM AUTHOR]

Published

2015

20. Preliminary Examination of the Toxicity of Spalting Fungal Pigments: A Comparison between Extraction Methods

Author

Seri C. Robinson, Stacey L. Harper, R. C. Van Court, Sarath M. Vega Gutierrez, Badria H Almurshidi, and Bryan J. Harper

Subjects

Microbiology (medical), fungal pigment, natural pigment, 02 engineering and technology, Plant Science, Article, 03 medical and health sciences, chemistry.chemical_compound, Pigment, Chlorociboria aeruginascens Scytalidium cuboideum, Chlorociboria aeruginascens, Chlorociboria aeruginosa, Food science, Spalting, natural colorant, lcsh:QH301-705.5, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Scytalidium cuboideum, 0303 health sciences, biology, dramada, 021001 nanoscience & nanotechnology, biology.organism_classification, xylindein, Bioavailability, chemistry, lcsh:Biology (General), visual_art, Toxicity, visual_art.visual_art_medium, sense organs, 0210 nano-technology, Xylindein, spalting

Abstract

Spalting fungal pigments have shown potential in technologies ranging from green energy generation to natural colorants. However, their unknown toxicity has been a barrier to industrial adoption. In order to gain an understanding of the safety of the pigments, zebrafish embryos were exposed to multiple forms of liquid media and solvent-extracted pigments with concentrations of purified pigment ranging from 0 to 50 mM from Chlorociboria aeruginosa, Chlorociboria aeruginascens, and Scytalidium cuboideum. Purified xylindein from Chlorociboria sp. did not show toxicity at any tested concentration, while the red pigment dramada from S. cuboideum was only associated with significant toxicity above 23.2 uM. However, liquid cultures and pigment extracted into dichloromethane (DCM) showed toxicity, suggesting the co-production of bioactive secondary metabolites. Future research on purification and the bioavailability of the red dramada pigment will be important to identify appropriate use, however, purified forms of the blue-green pigment xylindein are likely safe for use across industries. This opens the door to the adoption of green technologies based on these pigments, with potential to replace synthetic colorants and less stable natural pigments.

Published

2020

21. Oil-Based Fungal Pigment from Scytalidium cuboideum as a Textile Dye

Author

R. C. Van Court, Mardonio E. Palomino Agurto, Hsiou-Lien Chen, Sarath M. Vega Gutierrez, and Seri C. Robinson

Subjects

Microbiology (medical), fungal pigment, 010407 polymers, Textile industry, food.ingredient, Textile, Bleach, Scanning electron microscope, 02 engineering and technology, Plant Science, 01 natural sciences, Article, sustainable clothing, Pigment, food, Linseed oil, parasitic diseases, natural dye, lcsh:QH301-705.5, Spalting, Ecology, Evolution, Behavior and Systematics, Scytalidium cuboideum, business.industry, Chemistry, technology, industry, and agriculture, dramada, 021001 nanoscience & nanotechnology, Pulp and paper industry, 0104 chemical sciences, lcsh:Biology (General), visual_art, visual_art.visual_art_medium, sense organs, 0210 nano-technology, business, Natural dye, spalting

Abstract

Identification of effective natural dyes with the potential for low environmental impact has been a recent focus of the textile industry. Pigments derived from spalting fungi have previously shown promise as textile dyes, however, their use has required numerous organic solvents with human health implications. This research explored the possibility of using linseed oil as a carrier for the pigment from Scytalidium cuboideum as a textile dye. Colored linseed oil effectively dyed a range of fabrics, with natural fibers showing better coloration. Scanning electron microscopy (SEM) revealed a pigment film over the fabric surface. While mechanical testing showed no strength loss in treated fabric, colorfastness tests showed significant changes in color in response to laundering and bleach exposure with variable effects across fabric varieties. SEM investigation confirmed differences in pigmented oil layer loss and showed variation in pigment crystal formation between fabric varieties. Heating of the pigmented oil layer was found to result in a bright, shiny fabric surface, which may have potential for naturally weatherproof garments.

Published

2020

22. Rare Arthroconidial Fungi in Clinical Samples: Scytalidium cuboideum and Arthropsis hispanica.

Author

Giraldo, Alejandra, Sutton, Deanna, Gené, Josepa, Fothergill, Annette, Cano, Josep, and Guarro, Josep

Abstract

We report the presence of the two arthroconidial anamorphic fungi, Scytalidium cuboideum and Arthropsis hispanica, in clinical samples from the USA. Both fungi were morphologically and molecularly identified. The antifungal susceptibility of four isolates of A. hispanica and five of S. cuboideum to eight antifungal drugs is provided. [ABSTRACT FROM AUTHOR]

Published

2013

23. Developing fungal pigments for 'painting' vascular plants.

Author

Robinson, Sara

Subjects

*MICROBIAL pigments, *SUGAR maple, *HARDWOODS, *TRAMETES versicolor, *FUNGI

Abstract

The use of fungal pigments as color additives to wood as a method to increase forest revenue is a relatively new, but quickly developing field. Sugar maple ( Acer saccharum) is currently the primary utilized hardwood for spalting and appears to be the best suited North American hardwood for such purposes. The combination of Trametes versicolor and Bjerkandera adusta has been identified in several instances as a strong fungal pairing for zone line production; however, Xylaria polymorpha is capable of creating zone lines without the antagonism of a secondary fungus. Few fungal pigments have been developed for reliable use; Scytalidium cuboideum is capable of producing a penetrating pink/red stain, as well as a blue pigment after extended incubation, and Chlorociboria sp. produces a blue/green pigment if grown on aspen ( Populus tremuloides). Several opportunities exist for stimulation of fungal pigments including the use of copper sulfate and changes in wood pH. [ABSTRACT FROM AUTHOR]

Published

2012

24. Xylogone ganodermophthora sp. nov., an ascomycetous pathogen causing yellow rot on cultivated mushroom Ganoderma lucidum in Korea.

Author

Kang, Hyo-Jung, Sigler, Lynne, Lee, Jungkwan, Gibas, Connie Fe C., Yun, Sung-Hwan, and Lee, Yin-Won

Subjects

*FUNGAL diseases of plants, *ASCOMYCETES, *MUSHROOMS, *GANODERMA lucidum, *PATHOGENIC microorganisms

Abstract

Yellow rot, caused by an ascomycetous fungus having a distinctive arthroconidial anamorph, is the most destructive disease of cultivated Gano-derma lucidum in Korea, but the identity of the yellow rot pathogen (YRP) remains uncertain. Isolates have been identified as Xylogone sphaerospora (with putative anamorph Sporendonema purpurascens) or as Arthrographis cuboidea. Therefore we used morphological features, pathogenicity tests and phylogenetic analyses of DNA sequences from the nuclear ribosomal genes, including partial small subunit and internal transcribed spacer regions, and from the gene encoding RNA polymerase second largest subunit to evaluate the relationship between YRP isolates and these species. YRP isolates formed a distinct subgroup within a clade that included X sphaerospora, A. cuboidea and Scytalidium lignicola, the type species of Scytalidium, but the disposition of the clade within the Leotiomycetes was uncertain. We describe Xylogone ganodermophthora sp. nov. and Scytalidium ganodermophthorum sp. nov. for the teleomorph and anamorph of YRP respectively. Arthrographis cuboidea is reclassified as Scytalidium cuboideum comb, nov., and the anamorph of X. sphaerospora is named Scytalidium sphaerosporum sp. nov. In pathogenicity tests only X. ganodermophthora caused disease in Ganoderma lucidum. Amplified fragment length polymorphism analyses showed that X ganodermophthora populations from diseased fruiting bodies or from oak wood in Korea consisted of two clonal groups. [ABSTRACT FROM AUTHOR]

Published

2010

25. Relationship between Molarity and Color in the Crystal (‘Dramada’) Produced by Scytalidium cuboideum, in Two Solvents

Author

Seri C. Robinson, Matthew J. Konkler, Sarath M. Vega Gutierrez, Emily N. Groth, Derek W. Stone, and R. C. Van Court

Subjects

fungal pigment, Molar concentration, Pharmaceutical Science, 02 engineering and technology, Color space, 010402 general chemistry, 01 natural sciences, Red Color, Analytical Chemistry, lcsh:QD241-441, chemistry.chemical_compound, Pigment, lcsh:Organic chemistry, Drug Discovery, Acetone, Dramada, color difference, Physical and Theoretical Chemistry, Spalting, molarity, Scytalidium cuboideum, Color difference, Chemistry, saturation, Organic Chemistry, 021001 nanoscience & nanotechnology, 0104 chemical sciences, 3. Good health, Solvent, Chemistry (miscellaneous), visual_art, visual_art.visual_art_medium, Molecular Medicine, 0210 nano-technology, Nuclear chemistry

Abstract

Pigments from wood-decay fungi (specifically spalting fungi) have a long history of use in wood art, and have become relevant in modern science due to their longevity and colorfastness. They are presently under investigation as colorants for wood, bamboo, oils, paints and textiles. Major hurdles to their commercialization have been color repeatability (in that the same strain of the same species of fungus may produce different colors over time), and the binding of the pigments to glass storage containers. This is persistent as they do not naturally exist in a loose form. Due to these issues, the &lsquo, standard&rsquo, color for each was historically determined not by the amount of pigment, but by the color in a solution of dichloromethane (DCM), using the CIE L*a*b colorspace. This method of standardization severely limited the use of these pigments in industrial applications, as without a dry form, standard methodologies for repeatable color processing into other materials could not be easily implemented. Recent studies have developed a method to crystalize the red pigment from Scytalidium cuboideum (Sacc. &amp, Ellis) Sigler &amp, Kang, producing a highly pure (99%) solid crystal named &lsquo, Dramada&rsquo, Herein a method is detailed to compare the molarity of this crystallized pigment to variations in the color, to determine a color saturation curve (by weight) for the pigment from S. cuboideum in DCM and acetone. The molarities for this experiment ranged from 0.024 mM to 19 mM. Each molarity was color read and assigned a CIEL*a*b* value. The results showed that there was a correlation between the molarity and color difference, with the maximum red color occurring between 0.73 mM and 7.3 mM in DCM and between 0.97 mM to 0.73 mM in acetone. Extremely low molarities of pigment produced strong coloration in the solvent, and changes in molarity significantly affected the color of the solution. Having a saturation and color curve for the crystal &lsquo, from S. cuboideum will allow for the reliable production of distinct colors from a known quantity (by weight) of pigment, erasing the final hurdle towards commercial development of the crystallized pigment from S. cuboideum as an industrial dyestuff.

Published

2018

26. Potential Use of the Pigments from Scytalidium cuboideum and Chlorociboria aeruginosa to Prevent 'Greying' Decking and Other Outdoor Wood Products.

Author

Vega Gutierrez, Sarath M., Stone, Derek W., He, Rui, Vega Gutierrez, Patricia T., Walsh, Zielle M., Robinson, Seri C., and Safin, Ruslan Rushanovich

Subjects

WOOD products, LINSEED oil, PIGMENTS, DYE-sensitized solar cells, COMMERCIAL product marketing, WOOD-decaying fungi, DOUGLAS fir, OLEIC acid

Abstract

UV-light degradation of wood is one of the top reasons for consumer replacement of outdoor wooden structures. This type of degradation is seldom mechanical, and is instead often motivated by loss of aesthetics (graying). There are numerous commercial products available on the market that deal with this loss of color, many of which contain added pigments to 'rejuvenate' or 'revitalize' greyed wood. These pigments are almost uniformly synthetic. In contrast, pigments from wood decay fungi (spalting), which have been used in woodworking since the 1400s (intarsia), have remarkable optical (UV-light resistance) properties due to their naphthoquinonic configuration. In recent years the pigments made from these fungi have been extracted and tested across numerous substrates, from solar cells to textile dyes. In this work, researchers extracted pigments from Scytalidium cuboideum (red pigmentation) and Chlorociboria aeruginosa (blue-green pigmentation), solubilized the pigments in raw linseed oil, and tested the resulting solution on samples of Douglas-fir (Pseudotsuga menziesii) and western white pine (Pinus monticola). These mixtures were compared against a 'stain and coat' treatment (utilizing an aniline stain and coated with raw linseed oil), raw linseed oil, and untreated wood. The wood samples were then placed in an accelerated weathering machine (Q-UV) following the ASTM G154 standard, for 500 and 1000 h. The results showed that while no visible color change occurred to the wood when the pigmented oil was applied, the red pigment oil significantly lowered the coating degradation for both wood types at an exposure of 500 h. The results show the potential applications for fungal pigments in the wood coating industry, as it offers an increased coating service life. As there is a shift to renewable products, the pigments from wood decay fungi show potential as additives for wood coatings. [ABSTRACT FROM AUTHOR]

Published

2021

27. Repurposing mountain pine beetle blue wood for art through additional fungal colonization.

Author

Robinson, Sara C., Tudor, Daniela, MacDonald, Gillian, Mansourian, Yassaman, and Cooper, Paul A.

Subjects

*MOUNTAIN pine beetle, *FUNGAL colonies, *BIOLOGICAL pigments, *WOOD carving, *SCYTALIDIUM

Abstract

Abstract: Deciduous wood pigmented by fungi (spalted wood) has a long history of use in decorative woodcraft dating back to at least the 15th century and is still routinely utilized by woodworkers today. With the prevalence of the mountain pine beetle in western North America, a large amount of bluestained wood is currently available but is not utilized for value-added applications like spalting. This study shows that bluestained lodgepole pine is an ideal wood for additional spalting treatment with Scytalidium species, resulting in additional pigments of pink or yellow on the wood. The results of this study show that not only can coniferous wood be spalted, but that bluestained pine is particularly well suited for additional pigmentation. Brightly pigmented spalted wood is rare within the current marketplace and offers a new potential market for bluestained lumber and a chance for areas affected by mountain pine beetle to recapture lost income from their forest stock. [Copyright &y& Elsevier]

Published

2013

28. Utilizing Extracted Fungal Pigments for Wood Spalting: A Comparison of Induced Fungal Pigmentation to Fungal Dyeing

Author

Shawn Robert Freitas, Sara C. Robinson, Genevieve Weber, Eric Hinsch, Lauren Pittis, and Sarath M. Vega Gutierrez

Subjects

Pigment, Horticulture, biology, Chlorociboria aeruginosa, visual_art, Botany, Scytalidium, visual_art.visual_art_medium, Dyeing, biology.organism_classification, Spalting, Scytalidium cuboideum

Abstract

The lengthy time periods required by current spalting methods prohibit the economically viable commercialization of spalted wood on a large scale. This work aimed to compare the effects of induced spalting in 16 Pacific Northwest woods using three common spalting fungi, Chlorociboria aeruginosa, Scytalidium cuboideum, and Scytalidium ganodermophthorum, with the significantly less time-consuming treatment of these woods using dichloromethane-extracted green, red, and yellow pigments from the same fungi. For pigment extracts, the dosage required for a pigment to internally color various wood species to 30% internal coverage was investigated. With few exceptions, treatment with pigment extracts outperformed induced spalting in terms of percent internal color coverage. Cottonwood consistently performed best with all three pigment solutions, although chinkapin performed as well as cottonwood with the red pigment, and Port Orford cedar performed as well with the yellow pigment. While no wood species showed 30% internal color coverage with the green pigment solution, a number of additional species, including pacific silver fir, madrone, dogwood, and mountain hemlock showed internal color coverage on the order of 20–30% for red and/or yellow. Cottonwood was determined to be the best suited wood species for this type of spalting application.

Published

2014

29. Method of extraction and resolubilisation of pigments from <scp>C</scp> hlorociboria aeruginosa and <scp>S</scp> cytalidium cuboideum , two prolific spalting fungi

Author

Genevieve Weber, Sara C. Robinson, Shawn Robert Freitas, and Eric Hinsch

Subjects

Chromatography, Filter paper, Materials Science (miscellaneous), General Chemical Engineering, Chlorociboria aeruginosa, Solvent, chemistry.chemical_compound, Pigment, chemistry, Chemistry (miscellaneous), visual_art, visual_art.visual_art_medium, sense organs, Spalting, Xylindein, Dichloromethane, Scytalidium cuboideum

Abstract

Twelve solvents were tested for their ability to extract the pigments of Chlorociboria aeruginosa and Scytalidium cuboideum, two fungi used primarily for the spalting of decorative wood. Solvents were assessed on the basis of the saturation of pigment produced, their ability to diffuse through filter paper, and whether they reacted with the extracted pigments. Solvents that performed well in extraction testing were then tested to determine whether they could also dissolve the extracted pigment once dried. Of the solvents tested, only dichloromethane was capable of quick, non-reactive extraction with filter paper diffusion, as well as being able fully to redissolve dried pigment extracted from C. aeruginosa. The results of this study show dichloromethane to be an ideal solvent for extracting and applying fungal pigments that offers new possibilities for spalting in which fungi do not need to be grown directly on a substrate in order to produce pigmented wood.

Published

2014

30. Preliminary Examination of the Toxicity of Spalting Fungal Pigments: A Comparison between Extraction Methods.

Author

Almurshidi BH, Van Court RC, Vega Gutierrez SM, Harper S, Harper B, and Robinson SC

Abstract

Spalting fungal pigments have shown potential in technologies ranging from green energy generation to natural colorants. However, their unknown toxicity has been a barrier to industrial adoption. In order to gain an understanding of the safety of the pigments, zebrafish embryos were exposed to multiple forms of liquid media and solvent-extracted pigments with concentrations of purified pigment ranging from 0 to 50 mM from Chlorociboria aeruginosa, Chlorociboria aeruginascens, and Scytalidium cuboideum. Purified xylindein from Chlorociboria sp . did not show toxicity at any tested concentration, while the red pigment dramada from S. cuboideum was only associated with significant toxicity above 23.2 uM. However, liquid cultures and pigment extracted into dichloromethane (DCM) showed toxicity, suggesting the co-production of bioactive secondary metabolites. Future research on purification and the bioavailability of the red dramada pigment will be important to identify appropriate use; however, purified forms of the blue-green pigment xylindein are likely safe for use across industries. This opens the door to the adoption of green technologies based on these pigments, with potential to replace synthetic colorants and less stable natural pigments.

Published

2021

31. Methods of inoculating Acer spp., Populus tremuloides, and Fagus grandifolia logs for commercial spalting applications

Author

Sara Hipson, Sheena Ng, Daniela Tudor, Paul A. Cooper, Hilary Snider, Elena Korshikov, and Sara C. Robinson

Subjects

Biomaterials, biology, Inoculation, Time schedule, Botany, Acer saccharum, Fungal colonization, Xylaria polymorpha, biology.organism_classification, Spalting, Trametes versicolor, Scytalidium cuboideum

Abstract

One of the most promising wood value-added processes currently under development is spalting, where pigment is added to wood via fungal colonization. Previous studies have shown laboratory level spalting to be achievable and highly predictable. However, large-scale spalting for potential commercial applications introduces a substantial number of additional variables which impact the spalting process. To test the potential of commercial-scale spalting, Acer saccharum, Fagus grandifolia, and Populus tremuloides logs were inoculated with multiple known spalting fungi utilizing both liquid spray cultures and live dowel pin cultures. Many of the fungi that successfully produce spalting in small, sterile cultures also produced significant amounts in large logs, with many spalting patterns identical to those found in small-scale testing. Pairings of Trametes versicolor/Scytalidium cuboideum and Xylaria polymorpha/Xylaria polymorpha (different isolates) produced significant amounts of zone lines. In addition, the method of inoculation impacted the amount of spalting: more zone lines were produced when fungi were introduced via plugs, while more stain was produced when liquid cultures were sprayed onto the logs. These results indicate that many of the standard spalting fungi are suitable for large-scale applications; however, the inoculation method appears to be a vital component for successful spalting under a restricted time schedule.

Published

2013

32. ChemInform Abstract: Spiroscytalin, a New Tetramic Acid and Other Metabolites of Mixed Biogenesis from Scytalidium cuboideum

Author

Arlene A. Sy-Cordero, Cedric J. Pearce, Mario Figueroa, Maria Elena Meza Avina, Huzefa A. Raja, Mansukh C. Wani, David J. Kroll, Nicholas H. Oberlies, Audrey F. Adcock, and Mitchell P. Croatt

Subjects

Biochemistry, Chemistry, General Medicine, Tetramic acid, Antimicrobial, Biogenesis, Scytalidium cuboideum

Abstract

Compound (I) is shown to exhibit moderate antitumoric activity and no antimicrobial activity.

Published

2016

33. Rare Arthroconidial Fungi in Clinical Samples: Scytalidium cuboideum and Arthropsis hispanica

Author

Josepa Gené, Annette W. Fothergill, Deanna A. Sutton, Josep Guarro, Josep Cano, and Alejandra Giraldo

Subjects

Antifungal, medicine.medical_specialty, Antifungal Agents, medicine.drug_class, Veterinary (miscellaneous), Antifungal drugs, Molecular Sequence Data, Microbial Sensitivity Tests, Biology, DNA, Ribosomal, Applied Microbiology and Biotechnology, Microbiology, Medical microbiology, Ascomycota, Microbial ecology, DNA, Ribosomal Spacer, Botany, medicine, Humans, DNA, Fungal, Scytalidium cuboideum, Genes, rRNA, RNA, Fungal, Sequence Analysis, DNA, United States, Mycoses, RNA, Ribosomal, Agronomy and Crop Science, Arthropsis hispanica

Abstract

We report the presence of the two arthroconidial anamorphic fungi, Scytalidium cuboideum and Arthropsis hispanica, in clinical samples from the USA. Both fungi were morphologically and molecularly identified. The antifungal susceptibility of four isolates of A. hispanica and five of S. cuboideum to eight antifungal drugs is provided.

Published

2012

34. The effects of several commercial wood coatings on the deterioration of biological pigments in wood exposed to UV light

Author

Yasmin Mansourian, Daniela Tudor, Paul A. Cooper, and Sara C. Robinson

Subjects

Biological pigment, Materials science, Acer saccharum, Forestry, Plant Science, Danish oil, engineering.material, Stain, Industrial and Manufacturing Engineering, Horticulture, Pigment, Coating, visual_art, Botany, engineering, visual_art.visual_art_medium, General Materials Science, Lacquer, Scytalidium cuboideum

Abstract

This research subjected four wood species pigmented with the red stain of Scytalidium cuboideum and Acer negundo wood pigmented with the tree’s naturally occurring red stain to natural and artificial UV light. Several commercially available coatings were applied to determine the effect of coating on the degradation of both red stains over time. The red stain of Acer negundo was found to be significantly less stable in UV light than the red pigment produced by S. cuboideum on any wood species, even A. negundo. None of the tested coatings significantly increased the pigment retention time of the red stain produced by A. negundo. The red stain of S. cuboideum was significantly affected by both coating and wood species; Populus tremuloides retained pigment significantly longer than Fagus grandifolia or Acer saccharum, and the Danish oil coating retained pigment significantly longer than the lacquer, water-based polyurethane with UV inhibitors, or the uncoated samples. Overall, lacquer increased the degradation rate of the red pigment produced by S. cuboideum, with the most pronounced increase occurring on F. grandifolia. These results indicate that the red-pigmented wood produced by A. negundo may not be appropriate for applications involving UV exposure, regardless of coating utilized. However, P. tremuloides wood pigmented with S. cuboideum may be appropriate for such applications, especially if Danish oil is applied as a coating.

Published

2012

35. Oil-Based Fungal Pigment from Scytalidium cuboideum as a Textile Dye.

Author

Palomino Agurto ME, Vega Gutierrez SM, Van Court RC, Chen HL, and Robinson SC

Abstract

Identification of effective natural dyes with the potential for low environmental impact has been a recent focus of the textile industry. Pigments derived from spalting fungi have previously shown promise as textile dyes; however, their use has required numerous organic solvents with human health implications. This research explored the possibility of using linseed oil as a carrier for the pigment from Scytalidium cuboideum as a textile dye. Colored linseed oil effectively dyed a range of fabrics, with natural fibers showing better coloration. Scanning electron microscopy (SEM) revealed a pigment film over the fabric surface. While mechanical testing showed no strength loss in treated fabric, colorfastness tests showed significant changes in color in response to laundering and bleach exposure with variable effects across fabric varieties. SEM investigation confirmed differences in pigmented oil layer loss and showed variation in pigment crystal formation between fabric varieties. Heating of the pigmented oil layer was found to result in a bright, shiny fabric surface, which may have potential for naturally weatherproof garments., Competing Interests: The authors declare no conflict of interest. The funders had no role in the design of the study; in the collection, analyses, or interpretation of data; in the writing of the manuscript, or in the decision to publish the results.

Published

2020

36. Microscopic Analysis of Pigments Extracted from Spalting Fungi

Author

Sarath M. Vega Gutierrez and Sara C. Robinson

Subjects

Microbiology (medical), extracted fungal pigments, spalting, microscopy, SEM, FIB, 02 engineering and technology, Plant Science, 010402 general chemistry, 01 natural sciences, Article, Pigment, Chlorociboria aeruginascens, Scytalidium, Botany, Organic chemistry, lcsh:QH301-705.5, Spalting, Ecology, Evolution, Behavior and Systematics, Scytalidium cuboideum, biology, Chemistry, Chlorociboria aeruginosa, Mordant, 021001 nanoscience & nanotechnology, biology.organism_classification, 0104 chemical sciences, High resistance, lcsh:Biology (General), visual_art, visual_art.visual_art_medium, sense organs, 0210 nano-technology

Abstract

Pigments that are currently available in the market usually come from synthetic sources, or, if natural, often need mordants to bind to the target substrate. Recent research on the fungal pigment extracts from Scytalidium cuboideum, Scytalidium ganodermophthorum, Chlorociboria aeruginosa, and Chlorociboria aeruginascens have been shown to successfully dye materials, like wood, bamboo, and textiles, however, there is no information about their binding mechanisms. Due to this, a microscopic study was performed to provide information to future manufacturers interested in these pigments. The results of this study show that S. ganodermophthorum and C. aeruginosa form an amorphous layer on substrates, while S. cuboideum forms crystal-like structures. The attachment and morphology indicate that there might be different chemical and physical interactions between the extracted pigments and the materials. This possibility can explain the high resistance of the pigments to UV light and color fastness that makes them competitive against synthetic pigments. These properties make these pigments a viable option for an industry that demands natural pigments with the properties of the synthetic ones.

Published

2017

37. Relationship between Molarity and Color in the Crystal ('Dramada') Produced by Scytalidium cuboideum, in Two Solvents.

Author

Vega Gutierrez, Sarath M., Van Court, R. C., Stone, Derek W., Konkler, Matthew J., Groth, Emily N., and Robinson, Seri C.

Subjects

*MOLARITY, *WOOD-decaying fungi, *FUNGAL color, *SCYTALIDIUM, *COLORFASTNESS (Textiles), *SOLVENTS

Abstract

Pigments from wood-decay fungi (specifically spalting fungi) have a long history of use in wood art, and have become relevant in modern science due to their longevity and colorfastness. They are presently under investigation as colorants for wood, bamboo, oils, paints and textiles. Major hurdles to their commercialization have been color repeatability (in that the same strain of the same species of fungus may produce different colors over time), and the binding of the pigments to glass storage containers. This is persistent as they do not naturally exist in a loose form. Due to these issues, the 'standard' color for each was historically determined not by the amount of pigment, but by the color in a solution of dichloromethane (DCM), using the CIE L*a*b colorspace. This method of standardization severely limited the use of these pigments in industrial applications, as without a dry form, standard methodologies for repeatable color processing into other materials could not be easily implemented. Recent studies have developed a method to crystalize the red pigment from Scytalidium cuboideum (Sacc. & Ellis) Sigler & Kang, producing a highly pure (99%) solid crystal named 'Dramada'. Herein a method is detailed to compare the molarity of this crystallized pigment to variations in the color, to determine a color saturation curve (by weight) for the pigment from S. cuboideum in DCM and acetone. The molarities for this experiment ranged from 0.024 mM to 19 mM. Each molarity was color read and assigned a CIEL*a*b* value. The results showed that there was a correlation between the molarity and color difference, with the maximum red color occurring between 0.73 mM and 7.3 mM in DCM and between 0.97 mM to 0.73 mM in acetone. Extremely low molarities of pigment produced strong coloration in the solvent, and changes in molarity significantly affected the color of the solution. Having a saturation and color curve for the crystal 'Dramada' from S. cuboideum will allow for the reliable production of distinct colors from a known quantity (by weight) of pigment, erasing the final hurdle towards commercial development of the crystallized pigment from S. cuboideum as an industrial dyestuff. [ABSTRACT FROM AUTHOR]

Published

2018

38. Description of a Naphthoquinonic Crystal Produced by the Fungus Scytalidium cuboideum.

Author

Gutierrez, Sarath M. Vega, Hazell, Kenya K., Simonsen, John, and Robinson, Seri C.

Subjects

*SCYTALIDIUM lignicolum, *NUCLEAR magnetic resonance, *SOLAR cells, *CRYSTALS, *METHYL groups

Abstract

Intarsia was an art form popular between the 15th–18th centuries that used wood pigmented by spalting fungi to create detailed landscapes, portraits, and other imagery. These fungi are still used today in art but are also finding relevance in material science as elements of solar cells, textile dyes, and paint colorants. Here we show that the spalting fungus Scytalidium cuboideum (Sacc. and Ellis) Sigler and Kang produces a red/pink pigment that forms two distinct colors of crystals (red and orange)—a very rare occurrence. In addition, a second structure of the crystal is proved through nuclear magnetic resonance (NMR). This is only the second instance of a stable, naphthoquinone crystal produced by a fungus. Its discovery is particularly valuable for solar cell development, as crystalline materials have a higher electrical conductivity. Other fungi in this order have shown strong potential as thin films for solar cells. [ABSTRACT FROM AUTHOR]

Published

2018

39. Alternative Carrier Solvents for Pigments Extracted from Spalting Fungi.

Author

Pittis, Lauren, Rodrigues de Oliveira, Diego, Vega Gutierrez, Sarath M., and Robinson, Seri C.

Subjects

*PIGMENTS, *FUNGAL pigments, *DICHLOROMETHANE, *WOODWORKERS, *MOUNTAIN hemlock

Abstract

The use of both naturally occurring and synthetic pigmented wood has been prevalent in woodcraft for centuries. Modern manifestations generally involve either woodworkers’ aniline dyes, or pigments derived from a special class of fungi known as spalting fungi. While fungal pigments are more renewable than anilines and pose less of an environmental risk, the carrier required for these pigments—dichloromethane (DCM)—is both problematic for humans and tends to only deposit the pigments on the surface of wood instead of evenly within the material. Internal coloration of wood is key to adoption of a pigmenting system by woodworkers. To address this issue, five solvents that had moderate solubility with the pigments extracted from Chlorociboria aeruginosa and Scytalidium cuboideum were identified, in the hopes that a reduction in solubility would result in a greater amount of the pigment deposited inside the wood. Of the tested solvents, acetonitrile was found to produce the highest internal color in ash, Douglas-fir, madrone, mountain hemlock, Port-Orford cedar, Pacific silver fir, red alder and sugar maple. While these carrier solvents are not ideal for extracting the pigments from the fungi, acetonitrile in particular does appear to allow for more pigment to be deposited within wood. The use of acetonitrile over DCM offers new opportunities for possible industrial spalting applications, in which larger pieces of wood could be uniformly pigmented and sold to the end user in larger quantities than are currently available with spalted wood. [ABSTRACT FROM AUTHOR]

Published

2018

40. Feasibility of Coloring Bamboo with the Application of Natural and Extracted Fungal Pigments

Author

Savannah Stanton, Patricia T. Vega Gutierrez, Auna Godinez, Sarath M. Vega Gutierrez, Megan E. Huber, Lauren Pittis, and Sara C. Robinson

Subjects

0106 biological sciences, Bamboo, Materials science, Hypha, 01 natural sciences, Pigment, 010608 biotechnology, Botany, Scytalidium, Materials Chemistry, fungal pigments, spalting, bamboo, Composite material, Spalting, Scytalidium cuboideum, 040101 forestry, biology, Chlorociboria aeruginosa, 04 agricultural and veterinary sciences, Surfaces and Interfaces, biology.organism_classification, Surfaces, Coatings and Films, Phyllostachys, lcsh:TA1-2040, visual_art, visual_art.visual_art_medium, 0401 agriculture, forestry, and fisheries, lcsh:Engineering (General). Civil engineering (General)

Abstract

Fungal pigments, specifically those generated from spalting fungi, are being developed for broader use in the wood and textile industry, and due to their coloration properties, may also be useful as aesthetic bamboo dyes. This paper evaluates the potential use of fungal pigments in bamboo (Phyllostachys spp.), and compares the difference between natural spalting and the direct application of extracted fungal pigments of three known spalting fungi: Scytalidium cuboideum, Scytalidium ganodermophthorum, and Chlorociboria aeruginosa. Bamboo was significantly spalted by S. cuboideum under live inoculation, while the other two fungi did not colonize. For the direct application of fungal pigments, bamboo did not develop internal pigmentation with any pigment, but did develop visible surface color for S. cuboideium and C. aeruginosa. Light microscopy and scanning electron microscopy confirmed the presence of hyphae in bamboo vessels and parenchyma. An HPLC analysis for simple sugars showed the presence of glucose but no sucrose. Results indicate that the extracted pigments of the aforementioned fungi are ideal for the surface treatment of bamboo, while only direct inoculation of S. cuboideum is appropriate for internal coloration.

Published

2016