Your search keyword '"Amanita classification"' showing total 7 results

1. Cyclopeptide toxins of lethal amanitas: Compositions, distribution and phylogenetic implication.

Author

Tang S, Zhou Q, He Z, Luo T, Zhang P, Cai Q, Yang Z, Chen J, and Chen Z

Subjects

Amanita classification, Chromatography, High Pressure Liquid, Mass Spectrometry, Peptides, Cyclic classification, Peptides, Cyclic toxicity, Reference Standards, Amanita chemistry, Amanitins toxicity, Mushroom Poisoning, Peptides, Cyclic chemistry, Phylogeny

Abstract

Lethal amanitas (Amanita sect. Phalloideae) are responsible for 90% of all fatal mushroom poisonings. Since 2000, more than ten new lethal Amanita species have been discovered and some of them had caused severe mushroom poisonings in China. However, the contents and distribution of cyclopeptides in these lethal mushrooms remain poorly known. In this study, the diversity of major cyclopeptide toxins in seven Amanita species from Eastern Asia and three species from Europe and North America were systematically analyzed, and a new approach to inferring phylogenetic relationships using cyclopeptide profile was evaluated for the first time. The results showed that there were diversities of the cyclopeptides among lethal Amanita species, and cyclopeptides from Amanita rimosa and Amanita fuligineoides were reported for the first time. The amounts of amatoxins in East Asian Amanita species were significantly higher than those in European and North American species. The analysis of distribution of amatoxins and phallotoxins in various Amanita species demonstrated that the content of phallotoxins was higher than that of amatoxins in Amanita phalloides and Amanita virosa. In contrast, the content of phallotoxins was significantly lower than that of amatoxins in all East Asian lethal Amanita species tested. However, the distribution of amatoxins and phallotoxins in different tissues showed the same tendency. Eight cyclopeptides and three unknown compounds were identified using cyclopeptide standards and high-resolution MS. Based on the cyclopeptide profiles, phylogenetic relationships of lethal amanitas were inferred through a dendrogram generated by UPGMA method. The results showed high similarity to the phylogeny established previously based on the multi-locus DNA sequences., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

2. Molecular identification of poisonous mushrooms using nuclear ITS region and peptide toxins: a retrospective study on fatal cases in Thailand.

Author

Parnmen S, Sikaphan S, Leudang S, Boonpratuang T, Rangsiruji A, and Naksuwankul K

Subjects

Amanita classification, Amanitins genetics, Chromatography, Liquid methods, Databases, Genetic, Humans, Mass Spectrometry methods, Retrospective Studies, Sequence Analysis, DNA, Thailand, Amanita genetics, Amanita isolation & purification, Amanitins isolation & purification, Mushroom Poisoning etiology

Abstract

Cases of mushroom poisoning in Thailand have increased annually. During 2008 to 2014, the cases reported to the National Institute of Health included 57 deaths; at least 15 died after ingestion of amanitas, the most common lethal wild mushrooms inhabited. Hence, the aims of this study were to identify mushroom samples from nine clinically reported cases during the 7-year study period based on nuclear ITS sequence data and diagnose lethal peptide toxins using a reversed phase LC-MS method. Nucleotide similarity was identified using BLAST search of the NCBI database and the Barcode of Life Database (BOLD). Clade characterization was performed by maximum likelihood and Bayesian phylogenetic approaches. Based on BLAST and BOLD reference databases our results yielded high nucleotide similarities of poisonous mushroom samples to A. exitialis and A. fuliginea. Detailed phylogenetic analyses showed that all mushroom samples fall into their current classification. Detection of the peptide toxins revealed the presence of amatoxins and phallotoxins in A. exitialis and A. fuliginea. In addition, toxic α-amanitin was identified in a new provisional species, Amanita sp.1, with the highest toxin quantity. Molecular identification confirmed that the mushrooms ingested by the patients were members of the lethal amanitas in the sections Amanita and Phalloideae. In Thailand, the presence of A. exitialis was reported here for the first time and all three poisonous mushroom species provided new and informative data for clinical studies.

Published

2016

3. Amatoxin and phallotoxin composition in species of the genus Amanita in Colombia: a taxonomic perspective.

Author

Vargas N, Bernal A, Sarria V, Franco-Molano A, and Restrepo S

Subjects

Alpha-Amanitin analysis, Chromatography, High Pressure Liquid, Colombia, Pinus microbiology, Quercus microbiology, Amanita classification, Amanita pathogenicity, Amanitins analysis

Abstract

Some species in the genus Amanita have a great variety of toxic secondary metabolites. They are characterized macroscopically by having a white spore print and free gills, and microscopically by the presence of a divergent hymenophoral trama. Some species of Amanita present in Colombia were chemically characterized by analyzing their toxin composition using HPLC. Samples were collected in oak (Quercus humboldtii) and pine (Pinus radiata) forests. Twelve species were recovered, Amanita fuligineodisca, Amanita xylinivolva, Amanita flavoconia, Amanita rubescens, Amanita bisporigera, Amanita muscaria, Amanita humboldtii, Amanita sororcula, Amanita brunneolocularis, Amanita colombiana, Amanita citrina, Amanita porphyria as well as two unreported species. Results showed that most of the analyzed species have α -amanitin in concentrations ranging from 50 ppm to 6000 ppm. Concentrations of α-amanitin in the pileus were significantly greater than in the stipe. Phalloidin and phallacidin were only present in A. bisporigera. Chromatographic profiles are proposed as an additional taxonomic tool since specific peaks with similar retention times were conserved at the species level., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published

2011

4. Mushroom poisoning due to amatoxin. Northern California, Winter 1996-1997.

Author

Yamada EG, Mohle-Boetani J, Olson KR, and Werner SB

Subjects

Adolescent, Adult, Aged, Amanita classification, California, Cause of Death, Charcoal therapeutic use, Child, Colic etiology, Diarrhea etiology, Female, Fluid Therapy, Histamine H2 Antagonists therapeutic use, Humans, Male, Middle Aged, Mushroom Poisoning therapy, Nausea etiology, Vomiting etiology, Amanitins adverse effects, Mushroom Poisoning etiology

Published

1998

5. [Determination of toxic peptides in Amanita virosa and Amanita verna].

Author

Zhang X, Liang S, Zhang Z, and Chen Z

Subjects

Amanita classification, Chromatography, High Pressure Liquid methods, Peptides analysis, Species Specificity, Amanita chemistry, Amanitins analysis

Abstract

The toxic peptides in Amanita virosa and Amanita verna from various region were analyzed by a reversed-phase high-performance liquid chromatography. It is showed that there were great differences in the concentrations of toxic peptides between species and strains of A. virosa and A. verna.

Published

1998

6. Multiple fatal mycetism caused by Amanita virosa in Mexico.

Author

Pérez-Moreno J, Pérez-Moreno A, and Ferrera-Cerrato R

Subjects

Adolescent, Adult, Aged, Amanita classification, Fatal Outcome, Female, Humans, Male, Mexico, Amanitins poisoning, Mushroom Poisoning microbiology

Abstract

Mushroom poisonings caused by amatoxins are mostly lethal. Information about mycetisms caused by white species of Amanita is scarce. The present paper describes a case of mushroom poisoning caused by A. virosa. A prolongated latency period (6-10 hours), followed by cholera-like, improvement and visceral complication phases confirmed the amatoxin poisoning. The consumption of about 3 pounds of the toadstool by seven persons caused the death of five. Two patients survive the ingestion.

Published

1994

7. [Amanita phalloides and its toxins. I. The development of knowledge concerning the identity of its toxic principles].

Author

Thévenin M, Claude JR, and Truhaut R

Subjects

Chemical Phenomena, Chemistry, Hemolysin Proteins analysis, Molecular Conformation, Peptides, Cyclic analysis, Peptides, Cyclic pharmacology, Phalloidine analysis, Structure-Activity Relationship, Agaricales analysis, Amanita analysis, Amanita classification, Amanitins analysis, Amanitins history

Published

1976