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Coprinopsis

Coprinopsis is a of gilled mushrooms in the family (order ), consisting of over 100 species of saprotrophic fungi characterized by their small to large basidiocarps with deliquescent lamellae that autodigest into a black, inky liquid as they mature, facilitating dispersal. These mushrooms typically feature caps that are white, pale, brown, grey, or black, often with scales or patches, and non-viscid surfaces; lamellae are adnate or adnexed, producing dark brown to black prints from smooth (rarely warty) basidiospores with a broad pore. Microscopically, they possess cheilocystidia and usually pleurocystidia, with a cutis-type pileipellis and clamp connections that may be present or absent. The genus was established in 2001 through molecular phylogenetic studies that segregated it from the polyphyletic Coprinus sensu lato, placing Coprinopsis species into a distinct clade defined by features such as winged or smooth spores and specific rDNA sequences. This taxonomic revision, based on analyses of internal transcribed spacer (ITS) and large subunit (LSU) ribosomal DNA, revealed paraphyletic sections within Coprinopsis, such as Lanatuli and Atramentarii, and highlighted cryptic speciation among morphologically similar taxa. Species of Coprinopsis are cosmopolitan, occurring in diverse habitats including native forests, farmlands, parks, and gardens, where they decompose organic matter on substrates like ground litter, mulch, wood, dung, or even vertebrate remains, often near nitrogen-rich sources. Notable species include , a in genetic and developmental studies due to its ease of cultivation and well-understood ; (hare's foot ), recognized for its woolly cap margins; and ( inky cap), which is edible when consumed without but induces a severe disulfiram-like reaction—causing , flushing, and —if is ingested within three days before or after ingestion, due to the presence of . Many Coprinopsis species exhibit coprophilous or lignicolous habits, contributing to nutrient recycling in ecosystems, though some, like those in Picaceae, are associated with coniferous . Ongoing phylogenetic research continues to refine species boundaries and , with recent studies estimating diversification rates and revealing historical migrations across continents.

Taxonomy

Historical classification

The genus Coprinopsis was originally described by the mycologist Petter Adolf Karsten in 1881, with Coprinopsis friesii (Quél.) P. Karst. designated as the . This initial establishment highlighted species with darkly pigmented spores and saprotrophic habits, distinguishing them tentatively from broader ink cap groupings. Soon after its creation, Coprinopsis was subsumed into the larger, polyphyletic Pers. sensu lato due to shared morphological traits such as deliquescent gills and fragile basidiocarps, which defined the "inky cap" fungi. By 1887, Pier Andrea Saccardo's revisions in Sylloge Fungorum treated related taxa within sections, effectively lumping them without recognizing Coprinopsis as a distinct genus, while Narcisse Théophile Patouillard elevated it briefly to subgeneric status as Coprinus subg. Coprinopsis (P. Karst.) Pat. These early efforts reflected challenges in delineating boundaries based on macroscopic features alone, leading to the inclusion of over 200 species in s.l. by the mid-20th century. Throughout the 20th century, s.l. remained the standard classification, with Rolf Singer's 1986 treatment in The Agaricales in Modern Taxonomy organizing species into sections based on veil structures and traits, yet retaining most within the broad despite hints of . Morphological similarities, such as auto-digestion of gills and similar basidial forms, masked underlying genetic divergences, perpetuating the lumping of diverse taxa until phylogenetic analyses prompted its revival as a separate in 2001.

Modern phylogeny

The genus Coprinopsis was revived in 2001 based on molecular phylogenetic analysis of rDNA sequences, which demonstrated that the traditional broad concept of Coprinus s.l. was polyphyletic and required subdivision into multiple genera. This revision, proposed by Redhead, Vilgalys, Moncalvo, Johnson, and Hopple, separated the atramentarius-latisporus clade—originally described under Coprinopsis P. Karst. (1881)—from other groups, with C. friesii as the type species. The analysis used nuclear large subunit (nLSU) rDNA and internal transcribed spacer (ITS) regions to identify distinct clades, leading to the recognition of Coprinopsis, Coprinellus, and Parasola within the Psathyrellaceae, while restricting Coprinus s.s. to a smaller group in the Agaricaceae. Subsequent multilocus phylogenetic studies have confirmed the of Coprinopsis and its placement in the family (order ), distinguishing it from related genera like . For instance, a 2008 analysis using LSU rDNA sequences placed Coprinopsis in a moderately supported (Clade E) alongside certain Psathyrella species, rejecting for the genus (p = 0.133). A 2015 multilocus study incorporating six DNA regions further refined relationships within Psathyrellaceae, supporting Coprinopsis as a well-defined and introducing new genera and based on phylogenetic species concepts. Key genetic markers, particularly ITS and LSU rDNA, have been instrumental in resolving these phylogenies, revealing significant divergence of Coprinopsis from the Coprinus comatus group, which roots as an outgroup in . Post-2001 updates have expanded Coprinopsis to encompass over 200 worldwide, with ongoing revisions driven by molecular data. A 2020 subdivision into 20 sections based on structure from phylogenetic trees has aided taxonomic organization. Recent contributions include the 2022 description of C. pulchricaerulea, a sequestrate from , confirmed via maximum likelihood analysis of concatenated ITS and LSU sequences, marking the first pale-spored, non-gilled member in the and highlighting evolutionary diversity within Coprinopsis. As of 2025, the genus continues to expand with new descriptions, such as C. austrolilacina and C. persicina in the C. alnivora complex from , and C. flamboyani from the , underscoring persistent cryptic diversity and biogeographic insights.

Description

Macroscopic features

Coprinopsis species produce small to medium-sized, agaricoid basidiocarps featuring a central stipe supporting a pileus that typically measures 1–5 cm in diameter. The fruiting bodies expand from a conical or campanulate shape to convex or plane with maturity, ultimately deliquescing into an inky black fluid through enzymatic auto-digestion starting at the margins. This process results in the cap margins splitting radially, often appearing striate or grooved before dissolution. The pileus surface is generally dry or slightly hygrophanous, with colors ranging from white and gray to brown or clay-brown across , and frequently adorned with powdery, floccose, or fibrillose remnants of a that may form scales or hairs. In representative like Coprinopsis cinerea, the cap is gray to grayish-brown and umbonate, while Coprinopsis lagopus exhibits a white to gray, umbonate form with floccose patches. These elements are often persistent in youth but become inconspicuous as expansion occurs. The stipe is slender and hollow, typically 3–10 cm long and 0.3–1 cm thick, cylindrical or slightly tapering, colored white to pale gray, and lacking a or annulus in most taxa. A pseudorrhiza, or root-like extension of the , may be present at the base in some species, such as Coprinopsis radiata, extending up to several centimeters into the . The stipe surface is smooth to fibrillose, remaining firm even as the pileus deliquesces. The lamellae are close to crowded, free or adnate to adnexed, and initially white before graying and blackening from the edges inward due to the progressive deliquescence. In species like Coprinopsis nivea, the gills are crowded and free to adnexed, turning from white to black-brown as the inky breakdown advances, facilitating dispersal. This color change and distinguish Coprinopsis macroscopically from non-deliquescent relatives.

Microscopic features

The basidiospores of Coprinopsis are characteristically dark brown to black, smooth or slightly rough in texture, and shaped to pyriform, typically measuring 6-15 µm in . These spores feature a broad central germ pore, which facilitates and distinguishes them from those in related genera like Coprinellus. Basidia in Coprinopsis are club-shaped (clavate), predominantly 4-spored, and responsible for production through meiotic division. They measure approximately 7-37 × 5-16 µm, are thin-walled and , and often occur alongside pseudoparaphyses in the . Cystidia are abundant and play a key role in species identification within Coprinopsis. Pleurocystidia and cheilocystidia are typically cylindrical to utriform, thin-walled, and , ranging from 14-102 × 11-44 µm depending on the species. These structures are present on the gill faces and edges, contributing to the genus's microscopic distinctiveness. The hyphal structure of Coprinopsis includes a regular trama composed of parallel, thin-walled hyphae in the tissue. The cap surface features a diverticulate cutis, where hyphae bear short, finger-like projections, and clamp connections that may be present or absent at hyphal septa, helping to distinguish Coprinopsis from genera such as Coprinellus based on and other features.

Habitat and ecology

Environmental preferences

Coprinopsis species exhibit a saprotrophic lifestyle, functioning primarily as decomposers of such as woody debris, leaf , and animal dung, thereby contributing to in terrestrial ecosystems. These fungi break down lignocellulosic materials and other residues, facilitating the release of nutrients back into the . Preferred substrates for Coprinopsis include mulch, heaps, and grasslands, with some species being lignicolous on decaying and others coprophilous on herbivore dung such as that from , , or . They occasionally colonize litter or manured soils, thriving in nutrient-rich, environments like pastures and floors. High , typically above 85%, is essential for fruiting body development, and these fungi often appear seasonally from through fall in response to moist conditions. Coprinopsis displays a , with greatest diversity in temperate to subtropical regions of the , including adaptations to urban settings like lawns and gardens. Their presence is influenced by environmental gradients such as moisture and temperature, leading to higher abundance in or wet seasons.

Life cycle

The of Coprinopsis species, such as the Coprinopsis cinerea, follows the typical basidiomycete pattern, characterized by a prolonged dikaryotic following , with haploid phases in monokaryotic mycelia and basidiospores, and a brief diploid interval confined to the basidia. It begins with the of haploid basidiospores, which are produced via in the fruiting body and dispersed to initiate new growth. These spores, containing a single haploid , germinate under suitable conditions to form monokaryotic hyphae—sterile mycelia with uninucleate cells that grow vegetatively as a . Vegetative growth transitions to the reproductive phase through plasmogamy, the fusion of compatible monokaryotic hyphae, which establishes a dikaryotic mycelium with paired haploid nuclei in each cell compartment, connected by clamp cells. This process is regulated by a tetrapolar heterothallic mating system involving two multiallelic loci (A and B), where compatibility at both loci is required for successful dikaryotization, promoting outcrossing and genetic diversity; the B locus encodes pheromone-receptor systems that trigger hyphal fusion. The dikaryotic phase is essential for fruiting, as monokaryons rarely produce basidiocarps except in rare self-fertile mutants. Under moist conditions, the dikaryotic mycelium forms primordia—aggregations of hyphae that develop into mature basidiocarps over several days, with stages including hyphal knots, primordia expansion, and differentiation into cap, gills, and stipe. In the mature , () occurs in terminal , followed immediately by to yield four haploid basidiospores per , arranged on sterigmata along the surfaces. These basidiospores, pigmented black due to content, are forcibly discharged and collected in a of dark color. Post-dispersal, the undergoes deliquescence—an enzymatic auto-digestion of tissues by hydrolases such as chitinases and glucanases—liquefying the structure into an inky fluid that facilitates release over 4–5 hours, aiding dispersal of the lightweight basidiospores to new substrates. This self-destructive process ensures efficient while completing the cycle back to .

Human relevance

Edibility and toxicity

Many species within the Coprinopsis are when collected in their young stage, prior to the deliquescence of their gills into an inky black liquid, offering a mild, that can be incorporated into various dishes. For instance, young specimens of C. lagopus have been utilized in cooking for their delicate texture when sautéed or added to soups. However, concerns arise with certain species, notably C. atramentaria, which contains —a that induces a disulfiram-like reaction when ingested alongside , leading to symptoms such as flushing, , rapid heartbeat, and headache due to the inhibition of and subsequent accumulation of in the blood. Over-mature specimens of any Coprinopsis species may cause gastrointestinal upset from the breakdown products of deliquescence, while misidentification with toxic look-alikes can result in severe poisoning. Proper preparation is essential: harvest caps early in , promptly to preserve texture, and strictly avoid consumption for several days before and after species like C. atramentaria. Due to the risk of confusion with poisonous mushrooms and the rapid deterioration of fruit bodies, Coprinopsis species are not recommended for novice foragers.

Research applications

has served as a key in fungal since the 1970s, valued for its short life cycle and amenability to genetic manipulation, facilitating studies on multicellular and . Its , fully sequenced in 2010, spans approximately 37 megabases across 13 chromosomes and encodes around 13,406 protein-coding genes, enabling detailed investigations into meiotic recombination and fruiting body formation. Researchers have leveraged its synchronous in basidial cells to explore patterns during reproductive stages, providing insights into eukaryotic . In , species like C. cinerea show promise for enzyme production, particularly ligninases that degrade , aiding in and waste processing applications. These fungi produce extracellular enzymes capable of breaking down , with studies demonstrating enhanced decolorization and degradation activities through . Additionally, their extensive mycelial networks support efforts by adsorbing and transforming pollutants, including and organic contaminants, in contaminated soils. Medical research on Coprinopsis species has identified bioactive compounds with therapeutic potential; for instance, the galectin CGL1 from C. cinerea induces apoptosis in colorectal cancer cells and inhibits tumor growth in vitro and in vivo. Extracts from C. atramentaria exhibit cytotoxicity against breast, lung, and colon cancer cell lines, attributed to phenolic acids and their derivatives. Furthermore, coprine, a metabolite from C. atramentaria, acts as a natural analog to disulfiram by inhibiting aldehyde dehydrogenase, supporting studies on alcohol aversion mechanisms. Recent advances include the application of / editing in C. cinerea since 2017, enabling precise gene knockouts and functional analyses in fungal development and stress responses. Post-2020 studies have optimized ribonucleoprotein-based editing for efficient disruption of genes like cla4, revealing roles in hyphal polarity and fruiting. As of 2025, ongoing research has elucidated regulatory networks involving transcription factors like Skn7 and bHLH1 in fruiting body development. These tools have expanded Coprinopsis as a platform for fungal .

Selected species

Coprinopsis cinerea

_Coprinopsis cinerea, commonly known as the gray shag , is a saprobic basidiomycete characterized by small basidiocarps measuring 0.3–4 cm in length, with a pileus that is to flat, gray-brown in color, and typically 2–5 cm in diameter. The cap features shaggy scales and undergoes rapid deliquescence, liquefying into an inky black fluid shortly after maturity due to autodigestion by hydrolytic enzymes. Lamellae are thin and initially white, turning gray to black as spores mature; the stipe is slender, 4–15 cm tall, and fibrillose. Microscopically, basidia are unmodified, and basidiospores are ballistosporic, measuring 7.5–12.2 × 5–10 μm, smooth, blue-black, and equipped with a distinct germ pore. This species thrives as a ubiquitous saprotroph on nitrogen-rich substrates worldwide, frequently appearing on dung from herbivores such as and cows, compost heaps, wood chips, and lawns enriched with . It favors disturbed, nutrient-dense environments that support its role, breaking down lignocellulosic materials and facilitating nutrient cycling in ecosystems. The exhibits a transient saprotrophic , often colonizing decaying matter or waste in temperate to subtropical regions. _C. cinerea serves as the primary for basidiomycete and development, valued for its short two-week life cycle, ease of genetic manipulation, and ability to produce over 10^8 synchronized meiocytes for studies. Its , sequenced to 37 megabases across 13 chromosomes with 13,342 protein-coding s, has revealed insights into multicellularity , including expansions in gene families like FunK1 kinases and variable recombination rates—high in subtelomeric regions (6 kb/cM) and low centrally (198 kb/cM). Recent studies (as of ) continue to utilize C. cinerea for investigating fruiting body and regulation. The tetrapolar , governed by A and B loci on different chromosomes, regulates formation and fruiting body , with over 100 genetic markers mapped for traits like hyphal growth and . These features enable targeted disruption, RNAi, and analyses, making it ideal for investigating fungal sex, , and coordinated developmental events such as formation and discharge. The fungus is readily cultivated , supporting research in and through simple, cost-effective media. agar (2% flour, 1.5% , 6) incubated at 30°C in darkness yields rapid mycelial growth (radial expansion in 7 days), high (up to 85 g/L fresh weight), and fruiting bodies within 10–15 days, outperforming traditional extract media. This method, using strains isolated from dung, provides a hygienic alternative to natural substrates, facilitating synchronized and molecular studies without the need for complex setups.

Coprinopsis atramentaria

Coprinopsis atramentaria, commonly known as the inky cap or common ink cap, is a robust saprobic typically measuring 5-20 cm in total height, with a dark gray to gray-brown that is to bell-shaped when young, expanding to 3-7 cm in diameter and featuring fine scales at the center and radial grooves toward the margin. The surface is lead-gray or brownish-gray, and the gills are crowded, initially white before turning gray and then black as they deliquesce into an inky liquid from the margin inward. The is white, smooth to finely , hollow, and 5-15 cm tall by 0.6-1.5 cm thick, often with reddish-brown fibrils at the base. This grows in clusters of three or more, commonly emerging from buried or decaying , particularly around stumps or roots in grassy areas such as lawns, roadsides, and parks. Cosmopolitan in temperate regions worldwide, including , , , , and , C. atramentaria is frequent in temperate regions and often appearing in disturbed or urban environments like gardens and woodland edges from spring through fall, sometimes into winter. It favors deciduous hardwoods for decomposition and is noted for its adaptability to human-altered landscapes, making it a common sight in cities and suburbs. The mushroom contains , a that inhibits , leading to a disulfiram-like reaction if is consumed within three days before or after ingestion, with symptoms including facial flushing, , , rapid heartbeat, and . When young and free of the inky stage, it is otherwise edible and has been for culinary use, though foraging guides emphasize strict avoidance of to prevent toxicity. Historically classified as Coprinus atramentarius since its description by Jean Baptiste François Pierre Bulliard in 1786, it was reclassified to the genus Coprinopsis in 2001 based on molecular phylogenetic analysis, and it frequently appears in mycological with prominent warnings about its alcohol interaction.

Coprinopsis lagopus

Coprinopsis lagopus, commonly known as the hare's foot , is distinguished by its shaggy cap resembling a hare's foot, featuring dense, pale brown to whitish scales or hairs. The cap measures 1.5–4 cm in diameter, starting ovoid and expanding to convex or flat with a splitting, recurved margin. The gills are free, crowded, and pale, turning blackish as they deliquesce into ink-like liquid—a trait shared across the . The slender reaches up to 10 cm tall and 0.5 cm thick, hollow, white, and initially fibrillose. This species typically emerges from conifer litter or enriched in environments. As a saprobic , C. lagopus thrives on decaying such as leaf litter, wood chips, , or woody debris. It occurs in forests across and , often in mixed deciduous or coniferous settings, and increasingly in urban areas with . Fruiting peaks in summer but can extend from to fall depending on . Edibility is unknown and it is generally not considered worthwhile for consumption due to its small size and delicate texture; no toxicity has been reported. It represents a variant exemplifying the morphological diversity within Coprinopsis, particularly its woolly, scaled cap structure.

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    [PDF] Identification of Bioactive Components in Oils from Sprouts and ...
    Coprinopsis lagopus is a nonpoisonous member of the corprinoid specie, whose consumption depends on its growth stage. Materials and Methods: Sprouts and matured ...