Research Paper Dump

Papers broadly covering the Amanita genus.
Post Reply
User avatar
amanitadreamer
Posts: 360
Joined: Thu Oct 03, 2019 9:32 pm
Has thanked: 81 times
Been thanked: 208 times
Contact:

Research Paper Dump

Post by amanitadreamer » Wed Nov 10, 2021 6:15 pm

Rubel, W.; Arora, D. A Study of Cultural Bias in Field Guide Determinations of Mushroom Edibility Using the Iconic Mushroom, Amanita muscaria, as an Example. Econ. Bot. 2008, 62, 223–243. [Google Scholar] [CrossRef]

Whelan, C. “Amanita muscaria”: The Gorgeous Mushroom. Asian Folk. Stud. 1994, 53, 163. [Google Scholar] [CrossRef]

Infraspecific Taxa of Muscaria. Available online: Amanitaceae.org (accessed on 16 August 2021).

Gillard, R.D.; Lancashire, R.J. Electron Spin Resonance of Vanadium in Amanita muscaria. Phytochemistry 1984, 23, 179–180. [Google Scholar] [CrossRef]

Michelot, D.; Melendez-Howell, L.M. Amanita muscaria: Chemistry, Biology, Toxicology, and Ethnomycology. Mycol. Res. 2003, 107, 131–146. [Google Scholar] [CrossRef] [PubMed]

Li, D.-W. Release and Dispersal of Basidiospores from Amanita muscaria var. Alba and Their Infiltration into a Residence. Mycol. Res. 2005, 109, 1235–1242. [Google Scholar] [CrossRef]

Li, Q.; He, X.; Ren, Y.; Xiong, C.; Jin, X.; Peng, L.; Huang, W. Comparative Mitogenome Analysis Reveals Mitochondrial Genome Differentiation in Ectomycorrhizal and Asymbiotic Amanita Species. Front. Microbiol. 2020, 11, 1382. [Google Scholar] [CrossRef] [PubMed]

Falandysz, J.; Treu, R. Amanita muscaria: Bio-Concentration and Bio-Indicative Potential for Metallic Elements. Environ. Earth Sci. 2019, 78, 722. [Google Scholar] [CrossRef]

Willmann, A.; Weiß, M.; Nehls, U. Ectomycorrhiza-Mediated Repression of the High-Affinity Ammonium Importer Gene AmAMT2 in Amanita muscaria. Curr. Genet. 2007, 51, 71–78.

Geml, J.; Laursen, G.A.; O’Neill, K.; Nusbaum, H.C.; Taylor, D.L. Beringian Origins and Cryptic Speciation Events in the Fly Agaric (Amanita muscaria): Phylogeography of Amanita muscaria. Mol. Ecol. 2005, 15, 225–239. [Google Scholar] [CrossRef] [PubMed]

Di Rita, F.; Atzeni, M.; Tudino, F. The History of Conifers in Central Italy Supports Long-Term Persistence and Adaptation of Mesophilous Conifer Fungi in Arbutus-Dominated Shrublands. Rev. Palaeobot. Palynol. 2020, 282, 104300. [Google Scholar] [CrossRef]

Bagley, S.J.; Orlovich, D.A. Genet Size and Distribution of Amanita muscaria in a Suburban Park, Dunedin, New Zealand. N. Z. J. Bot. 2004, 42, 939–947. [Google Scholar] [CrossRef]

Nouhra, E.R.; Palfner, G.; Kuhar, F.; Pastor, N.; Smith, M.E. Ectomycorrhizal Fungi in South America: Their Diversity in Past, Present and Future Research. In Mycorrhizal Fungi in South America; Pagano, M.C., Lugo, M.A., Eds.; Fungal Biology; Springer International Publishing: Cham, Switzerland, 2019; pp. 73–95. ISBN 978-3-030-15227-7. [Google Scholar]

Reid, D.A.; Eicker, A. South African Fungi: The Genus Amanita. Mycol. Res. 1991, 95, 80–95. [Google Scholar] [CrossRef]

Sawyer, N.A.; Chambers, S.M.; Cairney, J.W.G. Distribution and Persistence of Amanita muscaria Genotypes in Australian Pinus radiata Plantations. Mycol. Res. 2001, 105, 966–970. [Google Scholar] [CrossRef]

Vargas, N.; Gonçalves, S.C.; Franco-Molano, A.E.; Restrepo, S.; Pringle, A. In Colombia the Eurasian Fungus Amanita muscaria Is Expanding Its Range into Native, Tropical Quercus humboldtii Forests. Mycologia 2019, 111, 758–771. [Google Scholar] [CrossRef]

Deja, S.; Wieczorek, P.P.; Halama, M.; Jasicka-Misiak, I.; Kafarski, P.; Poliwoda, A.; Młynarz, P. Do Differences in Chemical Composition of Stem and Cap of Amanita muscaria Fruiting Bodies Correlate with Topsoil Type? PLoS ONE 2014, 9, e104084. [Google Scholar] [CrossRef]

Braeuer, S.; Walenta, M.; Steiner, L.; Goessler, W. Determination of the Naturally Occurring Vanadium-Complex Amavadin in Amanita muscaria with HPLC-ICPMS. J. Anal. At. Spectrom. 2021, 36, 954–967. [Google Scholar] [CrossRef]

Housecroft, C.E. The Fungus Amanita muscaria: From Neurotoxins to Vanadium Accumulation. Chimia 2019, 73, 96–97.

Falandysz, J.; Hanć, A.; Barałkiewicz, D.; Zhang, J.; Treu, R. Metallic and Metalloid Elements in Various Developmental Stages of Amanita muscaria (L.) Lam. Fungal Biol. 2020, 124, 174–182. [Google Scholar] [CrossRef] [PubMed]

Falandysz, J.; Saniewski, M.; Zalewska, T.; Zhang, J. Radiocaesium Pollution of Fly Agaric Amanita muscaria in Fruiting Bodies Decreases with Developmental Stage. Isot. Environ. Health Stud. 2019, 55, 317–324. [Google Scholar] [CrossRef]

Beuhler, M.C. Overview of Mushroom Poisoning. In Critical Care Toxicology; Brent, J., Burkhart, K., Dargan, P., Hatten, B., Megarbane, B., Palmer, R., Eds.; Springer International Publishing: Cham, Switzerland, 2016; pp. 1–26. ISBN 978-3-319-20790-2. [Google Scholar]

Łukasik-Głebocka, M.; Druzdz, A.; Naskret, M. Clinical symptoms and circumstances of acute poisonings with fly agaric (Amanita muscaria) and panther cap (Amanita pantherina). Prz. Lek. 2011, 68, 449–452. [Google Scholar]

Rampolli, F.I.; Kamler, P.; Carnevale Carlino, C.; Bedussi, F. The Deceptive Mushroom: Accidental Amanita muscaria Poisoning. Eur. J. Case Rep. Intern. Med. 2021, 8, 002212. [Google Scholar] [CrossRef]

Mikaszewska-Sokolewicz, M.A.; Pankowska, S.; Janiak, M.; Pruszczyk, P.; Łazowski, T.; Jankowski, K. Coma in the Course of Severe Poisoning after Consumption of Red Fly Agaric (Amanita muscaria). Acta Biochim. Pol. 2016, 63. [Google Scholar] [CrossRef]

Størmer, F.C.; Janak, K.; Koller, G.E.B. Ibotenic Acid in Amanita muscaria Spores and Caps. Mycologist 2004, 18, 114–117. [Google Scholar] [CrossRef]

VanPatten, S.; Al-Abed, Y. The Challenges of Modulating the ‘Rest and Digest’ System: Acetylcholine Receptors as Drug Targets. Drug Discov. Today 2017, 22, 97–104. [Google Scholar]

Khovpachev, A.A.; Basharin, V.A.; Chepur, S.V.; Volobuev, S.V.; Yudin, M.A.; Gogolevsky, A.S.; Nikiforov, A.S.; Kalinina, L.B.; Tyunin, M.A. Actual Concepts of Higher Fungi’s Toxins: Simple Nitrogen-Containing Compounds. Biol. Bull. Rev. 2021, 11, 198–212. [Google Scholar] [CrossRef]

Parnmen, S.; Nooron, N.; Leudang, S.; Sikaphan, S.; Polputpisatkul, D.; Pringsulaka, O.; Binchai, S.; Rangsiruji, A. Foodborne Illness Caused by Muscarine-Containing Mushrooms and Identification of Mushroom Remnants Using Phylogenetics and LC-MS/MS. Food Control 2021, 128, 108182. [Google Scholar] [CrossRef]

Shen, K.; Johnson, S.W. Presynaptic Dopamine D2 and Muscarine M 3 Receptors Inhibit Excitatory and Inhibitory Transmission to Rat Subthalamic Neurones In Vitro. J. Physiol. 2000, 525, 331–341. [Google Scholar] [CrossRef]

Neely, A.; Lingle, C.J. Effects of Muscarine on Single Rat Adrenal Chromaffin Cells. J. Physiol. 1992, 453, 133–166. [Google Scholar] [CrossRef] [PubMed]

Meng, W.; Wang, S.; Yao, L.; Zhang, N.; Li, D. Muscarinic Receptors Are Responsible for the Cholinergic Modulation of Projection Neurons in the Song Production Brain Nucleus RA of Zebra Finches. Front. Cell. Neurosci. 2017, 11, 51. [Google Scholar] [CrossRef]

Voynova, M.; Shkondrov, A.; Kondeva-Burdina, M.; Krasteva, I. Toxicological and Pharmacological Profile of Amanita muscaria (L.) Lam.—A New Rising Opportunity for Biomedicine. Pharmacia 2020, 67, 317–323. [Google Scholar] [CrossRef]

Stříbrný, J.; Sokol, M.; Merová, B.; Ondra, P. GC/MS Determination of Ibotenic Acid and Muscimol in the Urine of Patients Intoxicated with Amanita pantherina. Int. J. Leg. Med. 2012, 126, 519–524. [Google Scholar] [CrossRef]

Ginterová, P.; Sokolová, B.; Ondra, P.; Znaleziona, J.; Petr, J.; Ševčík, J.; Maier, V. Determination of Mushroom Toxins Ibotenic Acid, Muscimol and Muscarine by Capillary Electrophoresis Coupled with Electrospray Tandem Mass Spectrometry. Talanta 2014, 125, 242–247. [Google Scholar] [CrossRef]

Obermaier, S.; Müller, M. Ibotenic Acid Biosynthesis in the Fly Agaric Is Initiated by Glutamate Hydroxylation. Angew. Chem. Int. Ed. 2020, 59, 12432–12435. [Google Scholar] [CrossRef]

Nelson, L.E.; Guo, T.Z.; Lu, J.; Saper, C.B.; Franks, N.P.; Maze, M. The Sedative Component of Anesthesia Is Mediated by GABAA Receptors in an Endogenous Sleep Pathway. Nat. Neurosci. 2002, 5, 979–984. [Google Scholar] [CrossRef]

Stebelska, K. Fungal Hallucinogens Psilocin, Ibotenic Acid, and Muscimol: Analytical Methods and Biologic Activities. Ther. Drug Monit. 2013, 35, 420–442. [Google Scholar] [CrossRef] [PubMed]

Vendramin, A.; Brvar, M. Amanita muscaria and Amanita pantherina Poisoning: Two Syndromes. Toxicon 2014, 90, 269–272. [Google Scholar] [CrossRef]

Moss, M.J.; Hendrickson, R.G. Toxicity of Muscimol and Ibotenic Acid Containing Mushrooms Reported to a Regional Poison Control Center from 2002–2016. Clin. Toxicol. 2019, 57, 99–103. [Google Scholar] [CrossRef] [PubMed]

Akirav, I.; Raizel, H.; Maroun, M. Enhancement of Conditioned Fear Extinction by Infusion of the GABAA Agonist Muscimol into the Rat Prefrontal Cortex and Amygdala. Eur. J. Neurosci. 2006, 23, 758–764. [Google Scholar] [CrossRef] [PubMed]

Hobin, J.A.; Ji, J.; Maren, S. Ventral Hippocampal Muscimol Disrupts Context-Specific Fear Memory Retrieval after Extinction in Rats. Hippocampus 2006, 16, 174–182. [Google Scholar] [CrossRef] [PubMed]

Young, S.Z.; Bordey, A. GABA’s Control of Stem and Cancer Cell Proliferation in Adult Neural and Peripheral Niches. Physiology 2009, 24, 171–185. [Google Scholar] [CrossRef] [PubMed]

Tatsuta, M.; Iishi, H.; Baba, M.; Uehara, H.; Nakaizumi, A.; Taniguchi, H. Protection by Muscimol against Gastric Carcinogenesis Induced by N-Methyl-N′-Nitro-N-Nitrosoguanidine in Spontaneously Hypertensive Rats. Int. J. Cancer 1992, 52, 924–927. [Google Scholar] [CrossRef]

Kondeva-Burdina, M.; Voynova, M.; Shkondrov, A.; Aluani, D.; Tzankova, V.; Krasteva, I. Effects of Amanita muscaria Extract on Different in Vitro Neurotoxicity Models at Sub-Cellular and Cellular Levels. Food Chem. Toxicol. 2019, 132, 110687. [Google Scholar] [CrossRef]

Bowden, K.; Drysdale, A.C.; Mogey, G.A. Constituents of Amanita muscaria. Nature 1965, 206, 1359–1360. [Google Scholar] [CrossRef]

Satora, L.; Pach, D.; Butryn, B.; Hydzik, P.; Balicka-Ślusarczyk, B. Fly Agaric (Amanita muscaria) Poisoning, Case Report and Review. Toxicon 2005, 45, 941–943. [Google Scholar] [CrossRef]

Lewis, B. Atropine in Mushrooms; Therapeutic Implications. S. Afr. Med. J. 1955, 29, 262–263. [Google Scholar]

Wieland, T. Poisonous Principles of Mushrooms of the Genus Amanita: Four-Carbon Amines Acting on the Central Nervous System and Cell-Destroying Cyclic Peptides Are Produced. Science 1968, 159, 946–952. [Google Scholar] [CrossRef] [PubMed]

Subbaratnam, A.V.; Cook, W.B. Subsidiary Constituents from Amanita muscaria. J. Med. Chem. 1963, 6, 448–449. [Google Scholar] [CrossRef]

Osbourn, A.E.; Lanzotti, V. (Eds.) Plant-Derived Natural Products; Springer: New York, NY, USA, 2009; ISBN 978-0-387-85497-7. [Google Scholar]

Volgin, A.D.; Yakovlev, O.A.; Demin, K.A.; Alekseeva, P.A.; Kalueff, A.V. Acute Behavioral Effects of Deliriant Hallucinogens Atropine and Scopolamine in Adult Zebrafish. Behav. Brain Res. 2019, 359, 274–280. [Google Scholar] [CrossRef] [PubMed]

Debnath, B.; Singh, W.S.; Das, M.; Goswami, S.; Singh, M.K.; Maiti, D.; Manna, K. Role of Plant Alkaloids on Human Health: A Review of Biological Activities. Mater. Today Chem. 2018, 9, 56–72. [Google Scholar] [CrossRef]

Yamin-Pasternak, S.; Pasternak, I. Ethnomycology. In The International Encyclopedia of Anthropology; Callan, H., Ed.; Wiley: Hoboken, NJ, USA, 2018; pp. 1–2. ISBN 978-1-118-92439-6. [Google Scholar]

Comandini, O.; Rinaldi, A.C. Ethnomycology in Europe: The Past, the Present, and the Future. In Mushrooms, Humans and Nature in a Changing World; Pérez-Moreno, J., Guerin-Laguette, A., Flores Arzú, R., Yu, F.-Q., Eds.; Springer International Publishing: Cham, Switzerland, 2020; pp. 341–364. ISBN 978-3-030-37377-1. [Google Scholar]

Wieczorek, M. The Effect of Particular Active Substances of Hallucinogenic Mushrooms. Acta Univ. Lodz. Folia Biol. Oecol. 2014, 10, 40–48. [Google Scholar] [CrossRef]

Ruck, C.A.P.; Hoffman, M.A.; González Celdrán, J.A. Mushrooms, Myth, & Mithras: The Drug Cult That Civilized Europe; City Lights Books: San Francisco, CA, USA, 2011; ISBN 978-0-87286-470-2. [Google Scholar]

Lee, M.; Dukan, E.; Milne, I. Amanita muscaria (Fly Agaric): From a Shamanistic Hallucinogen to the Search for Acetylcholine. J. R. Coll. Physicians Edinb. 2018, 48, 85–91. [Google Scholar] [CrossRef]

Nyberg, H. Religious Use of Hallucinogenic Fungi: A Comparison between Siberian and Mesoamerican Cultures. Karstenia 1992, 32, 71–80. [Google Scholar] [CrossRef]

Cunningham, N. Hallucinogenic Plants of Abuse. Emerg. Med. Australas. 2008, 20, 167–174. [Google Scholar] [CrossRef]

Lowy, B. Amanita muscaria and the Thunderbolt Legend in Guatemala and Mexico. Mycologia 1974, 66, 188–191. [Google Scholar] [CrossRef]

Wasson, R.G. The Soma of the Rig Veda: What Was It? J. Am. Orient. Soc. 1971, 91, 169. [Google Scholar] [CrossRef]

Wasson, R.G. Soma Brought Up-to-Date. J. Am. Orient. Soc. 1979, 99, 100. [Google Scholar] [CrossRef]

Wasson, R.G. Soma: Divine Mushroom of Immortality; Ethno-mycological studies; Mouton: The Hague, The Netherlands, 1968; ISBN 978-0-15-683800-9. [Google Scholar]

Feeney, K. Revisiting Wasson’s Soma: Exploring the Effects of Preparation on the Chemistry of Amanita muscaria. J. Psychoact. Drugs 2010, 42, 499–506. [Google Scholar] [CrossRef]

Skarstein Kolberg, A. Did Vikings Really Go Berserk? An Interdisciplinary Critical Analysis of Berserks. J. Mil. Hist. 2018, 82, 899–908. [Google Scholar]

Fatur, K. Sagas of the Solanaceae: Speculative Ethnobotanical Perspectives on the Norse Berserkers. J. Ethnopharmacol. 2019, 244, 112151. [Google Scholar] [CrossRef] [PubMed]

Rätsch, C.; Müller-Ebeling, C. Pagan Christmas: The Plants, Spirits, and Rituals at the Origins of Yuletide, 1st ed.; Inner Traditions: Rochester, VT, USA, 2006; ISBN 978-1-59477-092-0. [Google Scholar]

Hijmans, S. Sol Invictus, the Winter Solstice, and the Origins of Christmas. Mouseion 2003, 3, 377–398. [Google Scholar] [CrossRef]

Marley, G.A. Chanterelle Dreams, Amanita Nightmares: The Love, Lore, and Mystique of Mushrooms; Chelsea Green Pub: White River Junction, VT, USA, 2010; ISBN 978-1-60358-214-8. [Google Scholar]

Bouchard, M. Unknowingly Celebrating a Mushroom: The Influence of the Fly Agaric on Modern Yuletide Celebration. BIOL421 @UNBC—Insects, Fungi and Society. 2017. Available online: https://biol421.opened.ca/unknowingly-c ... lebration/ (accessed on 16 August 2021).
The sun never says to the Earth, "You owe me". Look what happens with a love like that. It lights up the whole sky. ~Sufi
Amanita Dreamer
YouTube Amanita Dreamer
Instagram @amanitadreamer
Facebook Amanita Dreamer

Post Reply