Study of three interesting Amanita species from Thailand: Morphology, multiple-gene phylogeny and toxin analysis.

Amanita ballerina and A. brunneitoxicaria spp. nov. are introduced from Thailand. Amanita fuligineoides is also reported for the first time from Thailand, increasing the known distribution of this taxon. Together, those findings support our view that many taxa are yet to be discovered in the region. While both morphological characters and a multiple-gene phylogeny clearly place A. brunneitoxicaria and A. fuligineoides in sect. Phalloideae (Fr.) Quél., the placement of A. ballerina is problematic. On the one hand, the morphology of A. ballerina shows clear affinities with stirps Limbatula of sect. Lepidella. On the other hand, in a multiple-gene phylogeny including taxa of all sections in subg. Lepidella, A. ballerina and two other species, including A. zangii, form a well-supported clade sister to the Phalloideae sensu Bas 1969, which include the lethal "death caps" and "destroying angels". Together, the A. ballerina-A. zangii clade and the Phalloideae sensu Bas 1969 also form a well-supported clade. We therefore screened for two of the most notorious toxins by HPLC-MS analysis of methanolic extracts from the basidiomata. Interestingly, neither α-amanitin nor phalloidin was found in A. ballerina, whereas Amanita fuligineoides was confirmed to contain both α-amanitin and phalloidin, and A. brunneitoxicaria contained only α-amanitin. Together with unique morphological characteristics, the position in the phylogeny indicates that A. ballerina is either an important link in the evolution of the deadly Amanita sect. Phalloideae species, or a member of a new section also including A. zangii.

[50 years of phalloidine: its discovery, characterization and current and future applications in cell research]. / 50 Jahre Phalloidin. Seine Entdeckung, Charakterisierung sowie gegenwärtige und zukünftige Anwendung in der Zellforschung.

Phalloidin, like the later-detected phallotoxins, consists of a cyclic heptapeptide backbone, the ring being crosslinked by a 2'-indolylthioether moiety (tryptathionine). After intraperitoneal administration--not per os--it will, after a short time, damage the liver specifically, presumably in consequence of its very tight binding to F-actin preventing its dissociation. This affinity can be utilized for a sensitive visual identification of F-actin by using fluorescent derivatives.

[Separation of the virotoxins of the mushroom Amanita virosa and comparative study of their interaction on actin in vitro]. / Séparation des virotoxines du champignon Amanita virosa et étude comparative de leur interaction sur l'actine in vitro.

Cyclic peptides have been extracted with methanol from Amanita virosa and separated by preparative HPLC. Six peptides were obtained: phalloidin and five new peptides recently identified by Faulstich as virotoxins. We have compared the interaction of these six peptides with actin in vitro. They increased the rate of polymerization of actin and protected F-actin against several denaturating agents: proteases, heat, chaotropic ions, cytochalasin B, and DNAse I. The five virotoxins have therefore the same biological properties as phalloidin. However, the differential spectra of interaction between actin and the five virotoxins are different than the differential spectra between actin and phalloidin, thus it appears that the molecular interaction of actin with virotoxins is different than with phalloidin. The five virotoxins have the same activity. Although these virotoxins have different functional groups on amino acids 1 and 7, it is concluded that these two amino acids are of minor importance in the interaction of these peptides with actin.