2006
DOI: 10.3852/mycologia.98.3.447
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Morphology and development of the reticuloperidial ascomata of Auxarthron conjugatum

Abstract: Light and electron microscopy showed that the reticuloperidium of thick-walled hyphae, characteristic of the mature ascoma of Auxarthron conjugaturn, originated from branches that grew from the broad, gyre-like hyphal loops making up the ascomatal initials. Within the developing peridium, short, acropetally proliferating chains of prototunicate asci each arose from a single crozier and matured from base to tip. The walls of young asci were two-layered but evanesced as they matured with the outer layer dissolvi… Show more

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Cited by 5 publications
(3 citation statements)
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“…12−15 Their sexual spores are formed within a spiny, cage-like hyphal structure called the reticuloperidium, which is thought to cling to arthropods and other animals to facilitate spore dispersal. 14,16 The fermentation was subsequently scaled up to enable separation and identification of the components responsible for the antifungal activity. NMR data for auxarthrone A (1) consistently showed two sets of signals.…”
Section: ■ Results and Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…12−15 Their sexual spores are formed within a spiny, cage-like hyphal structure called the reticuloperidium, which is thought to cling to arthropods and other animals to facilitate spore dispersal. 14,16 The fermentation was subsequently scaled up to enable separation and identification of the components responsible for the antifungal activity. NMR data for auxarthrone A (1) consistently showed two sets of signals.…”
Section: ■ Results and Discussionmentioning
confidence: 99%
“…On the basis of morphological features on the natural substratum of rabbit dung, features in culture, and sequences of rDNA, strain TTI-0363 was identified as Auxarthron pseudoauxarthon . Fungi of the genus Auxarthron are typically associated with dung, soils, and keratinaceous parts of animals, e.g., hair, skin, and hooves, and occasionally have been isolated from humans. Their sexual spores are formed within a spiny, cage-like hyphal structure called the reticuloperidium, which is thought to cling to arthropods and other animals to facilitate spore dispersal. , The fermentation was subsequently scaled up to enable separation and identification of the components responsible for the antifungal activity.…”
Section: Results and Discussionmentioning
confidence: 99%
“…Auxarthron and Pectinotrichum share with Neogymnomyces globose gymnothecial ascomata (brightly pigmented in the former) of thick-walled hyphae which, however, are typically enlarged at the septa and support long straight or uncinate appendages in Auxarthron, comb-like appendages in Pectinotrichum. Spherical, or sometimes oblate, reticulate, hyaline ascospores (Currah 1985;Solé et al 2002a, c;Skinner et al 2006), and a Malbranchea anamorph (Sugiyama and Mikawa 2001;Sigler et al 2002a) further distinguish Auxarthron, and globose to ovoid, apparently smooth ascospores characterise Pectinotrichum (Currah 1985;Sugiyama et al 1999;Solé et al 2002a, b, c). Amauroascus differs even more from Neogymnomyces in having a telaperidium, pitted-reticulate or rarely knobbed ascospores, and sometimes a Malbranchea anamorph (von Arx 1971(von Arx , 1987Solé et al 2002a).…”
Section: Discussionmentioning
confidence: 95%