Амигдалин

• Bolarinwa, Islamiyat F., Orfila, Caroline, Morgan, Michael R. A. (2014). «Amygdalin content of seeds, kernels and food products commercially-available in the UK». Food Chemistry, 152: 133–139.

• He, X.-Y., Wu, L.-J., Wang, W.-X., Xie, P.-J., Chen, Y.-H., & Wang, F. (2020). Amygdalin – A pharmacological and toxicological review. Vol. 254, Journal of Ethnopharmacology, 112–717.

• Cressey, P., & Reeve, J. (2019). Metabolism of cyanogenic glycosides: A review. Food and Chemical Toxicology, 125, 225–232.

ЯДОВИТЫЕ ГРИБЫ И ТОКСИНЫ МИКРООРГАНИЗМОВ

• Вишневский М. В. Несъедобные, ядовитые и галлюциногенные грибы. Справочник-атлас. М.: Формика-С, 2001. 192 с. с ил. (Грибы Московской области).

Мухомор красный

• Michelot, D., & Melendez-Howell, L. M. (2003). Amanita muscaria: chemistry, biology, toxicology, and ethnomycology. Mycological Research, 107(2), 131–146.

• Karlson-Stiber, C., & Persson, H. (2003). Cytotoxic fungi – an overview. Toxicon, 42(4), 339–349.

Бледная поганка

• Enjalbert, F., Gallion, C., Jehl, F., & Monteil, H. (1993). Toxin content, phallotoxin and amatoxin composition of Amanita phalloides tissues. Toxicon, 31(6), 803–807.

• Ye, Y., & Liu, Z. (2018). Management of Amanita phalloides poisoning: A literature review and update. Journal of Critical Care, 46, 17–22.

• Garcia, J., Costa, V. M., Carvalho, A., Baptista, P., de Pinho, P. G., de Lourdes Bastos, M., & Carvalho, F. (2015). Amanita phalloides poisoning: Mechanisms of toxicity and treatment. Food and Chemical Toxicology, 86, 41–55.

• Vetter, J. (1998). Toxins of Amanita phalloides. Toxicon, 36(1), 13–24.

Галерина окаймлённая

• Diaz, J. H. (2018). Amatoxin-Containing Mushroom Poisonings: Species, Toxidromes, Treatments, and Outcomes. Wilderness & Environmental Medicine, 29(1), 111–118.

• Enjalbert, F., Cassanas, G., Rapior, S., Renault, C., & Chaumont, J.-P. (2004). Amatoxins in Wood-Rotting Galerina marginata. Mycologia, 96(4), 720.

Сатанинский гриб

• Kretz, O., Creppy, E. E., & Dirheimer, G. (1991). Characterization of bolesatine, a toxic protein from the mushroom Boletus satanas Lenz and it’s effects on kidney cells. Toxicology, 66(2), 213–224

• Ennamany R., Bingen A., Creppy E. E., Kretz O., Gut J. P., Dubuisson L., Balabaud C., Sage P. B., Kirn A. Aspirin (R) and heparin prevent hepatic blood stasis and thrombosis induced by the toxic glycoprotein Bolesatine in mice // Human & Experimental Toxicology: journal. 1998. Vol. 17, no. 11. P. 620–624.

• Brensinsky A, Besl H. (1990). A colour atlas of poisonous fungi. Wolfe Publishing Ltd, London. 295 p.

Путинник горный

• Danel, V. C., Saviuc, P. F., & Garon, D. (2001). Main features of Cortinarius spp. poisoning: a literature review. Toxicon, 39(7), 1053–1060.

• Michelot, D., & Tebbett, I. (1990). Poisoning by members of the genus Cortinarius – a review. Mycological Research, 94(3), 289–298.

• Prast H., Werner E. R., Pfaller W., Moser M. (1988). “Toxic properties of the mushroom Cortinarius orellanus. I. Chemical characterization of the main toxin of Cortinarius orellanus (Fries) and Cortinarius speciosissimus (Kuhn & Romagn) and acute toxicity in mice”. Archives of Toxicology. 62 (1): 81–88.

Строчок обыкновенный

• Coulet, M., & Guillot, J. (1982). Poisoning by Gyromitra: A possible mechanism. Medical Hypotheses, 8(4), 325–334.

• Ojanperä, I. (2000). Chapter 11A Mushroom toxins. Forensic Science, 351–357.

• Peredy, T. R. (2014). Mushrooms, Monomethylhydrazine (MMH) – Generating. Encyclopedia of Toxicology, 414–415.

Спорынья

• Schummer, C., Zandonella, I., van Nieuwenhuyse, A., & Moris, G. (2020). Epimerization of ergot alkaloids in feed. Heliyon, 6(6), e04336.

• Bryła, M., Ksieniewicz-Woźniak, E., Waśkiewicz, A., Podolska, G., & Szymczyk, K. (2019). Stability of ergot alkaloids during the process of baking rye bread. LWT, 110, 269–274.

• Eadie, M. J. (2003). Convulsive ergotism: epidemics of the serotonin syndrome? The Lancet Neurology, 2(7), 429–434.

• Schardl, C. L., Panaccione, D. G., & Tudzynski, P. (2006). Chapter 2 Ergot Alkaloids – Biology and Molecular Biology. The Alkaloids: Chemistry and Biology, 45–86.

• Moore, J. (2007). Ergotamine. xPharm: The Comprehensive Pharmacology Reference, 1–6.

Ботулотоксин

• Johnson, E. A., & Montecucco, C. (2008). Chapter 11 Botulism. Neuromuscular Junction Disorders, 333–368.

• Супотницкий М. В. Токсины патогенных бактерий // Микроорганизмы, токсины и эпидемии. М., 2000. 376 с.

• Thwaites, C. L. (2017). Botulism and tetanus. Medicine, 45(12), 739–742.

Дифтерия

• London, E. (1992). Diphtheria toxin: membrane interaction and membrane translocation. Biochimica et Biophysica Acta (BBA) – Reviews on Biomembranes, 1113(1), 25–51.

• Byard, R. W. (2013). Diphtheria – “The strangling angel” of children. Journal of Forensic and Legal Medicine, 20(2), 65–68.

Холера

• Clemens, J. D., Nair, G. B., Ahmed, T., Qadri, F., & Holmgren, J. (2017). Cholera. The Lancet, 390(10101), 1539–1549.

• Deen, J., Mengel, M. A., & Clemens, J. D. (2019). Epidemiology of cholera. Vaccine, 31(1), А31–А40.

Столбняк

• Yen, L. M., & Thwaites, C. L. (2019). Tetanus. The Lancet, 393(10181), 1657–1668.

• Rossetto, O., Scorzeto, M., Megighian, A., & Montecucco, C. (2013). Tetanus neurotoxin. Toxicon, 66, 59–63.

Газовая гангрена

• Petit, L., Gibert, M., & Popoff, M. R. (1999). Clostridium perfringens: toxinotype and genotype. Trends in Microbiology, 7(3), 104–110.

• Titball, R. W., Naylor, C. E., & Basak, A. K. (1999). The Clostridium perfringens α-toxin. Anaerobe, 5(2), 51–64.

• Duerden, B. I., & Brazier, J. S. (2009). Tetanus and other clostridial diseases. Medicine, 37(12), 638–640.

Яды животных

• Ядовитые животные и растения СССР: Справочное пособие для студентов вузов по спец. «Биология»/Б. Н. Орлов, Д. Б. Гелашвили, А. К. Ибрагимов. М.: Высш. шк., 1990. 272 с.: ил. цв.

Толстый лори

• Nekaris, K. A. I., Campera, M., Nijman, V., Birot, H., Rode-Margono, E. J., Fry, B. G., Imron, M. A. (2020). Slow lorises use venom as a weapon in intraspecific competition. Current Biology, 30(20), R1252–R1253.

• Nekaris, K. A.-I., Moore, R. S., Rode, E., & Fry, B. G. (2013). Mad, bad and dangerous to know: the biochemistry, ecology and evolution of slow loris venom. Journal of Venomous Animals and Toxins Including Tropical Diseases, 19(1), 21.