Abrus precatorius, commonly known as jequirity bean or rosary pea, is a herbaceous flowering plant in the bean family Fabaceae. It is a slender, perennial climber with long, pinnate-leafleted leaves that twines around trees, shrubs, and hedges.
Abrus precatorius | |
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Scientific classification | |
Kingdom: | Plantae |
Clade: | Tracheophytes |
Clade: | Angiosperms |
Clade: | Eudicots |
Clade: | Rosids |
Order: | Fabales |
Family: | Fabaceae |
Subfamily: | Faboideae |
Genus: | Abrus |
Species: | A. precatorius
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Binomial name | |
Abrus precatorius | |
Occurrence data from GBIF | |
Synonyms[1] | |
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The plant is best known for its seeds, which are used as beads and in percussion instruments, and which are toxic because of the presence of abrin. Ingestion of a single seed, well chewed, can be fatal to both adults and children.[2] The plant is native to Asia and Australia.[1] It has a tendency to become weedy and invasive where it has been introduced.
Names
editAbrus precatorius is commonly known as jequirity,[3] Crab's eye,[3] or rosary pea,[3] paternoster pea,[4] love pea,[4] precatory pea or bean,[3] prayer bead,[4] John Crow Bead,[5] coral bead,[4] red-bead vine,[4] country licorice,[4] Indian licorice,[3] wild licorice,[4] Jamaica wild licorice,[4] olinda (In Sri Lanka/Sinhala),[6] kundumani (in Tamil),[7] coondrimany,[4] gidee gidee,[3] Jumbie bead,[3][8] ratti (in Hindi) / rettee / retty, or weather plant.[4]
In Africa, Abrus precatorius is known as Ojuologbo (Yoruba), Oto-berebere (Igbo), Idonzakara (Hausa) and Nneminua (Ib) in southwestern Nigeria[9][10] and obirekuaiura in Ghana.[11]
Ecology and invasiveness
editAbrus precatorius is a severely invasive plant in warm temperate to tropical regions, so much so that it has become effectively pantropical in distribution. It had been widely introduced by humans, and the brightly coloured and hard-shelled seeds had been spread by birds. By the end of the twentieth century, it had been proclaimed as an invasive weed in many regions including some in Belize, Caribbean Islands, Hawaii, Polynesia and parts of the mainland United States. In Florida in particular, the plant has invaded undisturbed pinelands and hammocks, including the vulnerable pine rocklands.
Once Abrus precatorius plants have grown to maturity under favourable conditions, their deep roots are extremely difficult to remove, and the plants' aggressive growth, hard-shelled seeds, and ability to sucker, renders an infestation extremely difficult to eradicate and makes it very difficult to prevent re-infestation. Herbicides such as glyphosate are effective, but need skilled application if they are not to do more harm than good.[12]
Toxin
editThe toxin abrin is a dimer consisting of two protein subunits, termed A and B. The B chain facilitates abrin's entry into a cell by bonding to certain transport proteins on cell membranes, which then transport the toxin into the cell. Once inside the cell, the A chain prevents protein synthesis by inactivating the 28S RNA of the ribosome. One molecule of abrin will inactivate up to 1,500 ribosomes per second.
Symptoms are identical to those of ricin, except abrin is more toxic by almost two orders of magnitude; the fatal dose of abrin is approximately 1/75 that of the fatal dose of ricin (though the abrin in ingested seeds may be absorbed much more slowly than the ricin in Ricinus communis even if the seeds are chewed and the coat penetrated, allowing time for successful rescue efforts in at least some cases.[13]) Abrin has an LD50 of only 0.56 μg/kg in mice, and Kingsbury lists a toxic dose in humans at 0.00015% body weight, or approximately 0.1 mg for a 150 lb human.[14] Ingesting intact seeds may result in no clinical findings, as they can pass undigested through the gastrointestinal tract because of their hard shell.[15]
This plant is also poisonous to horses.[16]
Symptoms of poisoning include nausea, vomiting, convulsions, liver failure, and death, usually after several days.[17]
Uses
editJewelry
editThe seeds of Abrus precatorius are much valued in native jewelry for their bright coloration. Most beans are black and red, reminiscent of a ladybug, though other colors exist. Jewelry-making with jequirity seeds is rumored to be somewhat hazardous. There are persistent reports that the workers who pierce the seeds in order to thread them can suffer poisoning or even death from a pinprick, but there seems to be little evidence. An online search found 265 scientific papers referring to Abrus precatorius, but not one of them dealt with occupational poisoning.[13]
In Trinidad in the West Indies the brightly colored seeds are strung into bracelets and worn around the wrist or ankle to ward off jumbies or evil spirits and "mal-yeux"—the evil eye. The Tamils use Abrus seeds of different colors. The red variety with black eye is the most common, but there are black, white and green varieties as well.
In December 2011 a recall was issued for bracelets made using jequirity beans sold by the Eden Project and other outlets in the UK.[18]
Unit of measure
editThe seeds of Abrus precatorius are very consistent in weight, even under different moisture conditions due to the water-impermeable seed-coat.[19] Formerly Indians used these seeds to weigh gold using a measure called a Ratti, where 8 Ratti = 1 Masha; 12 Masha = 1 Tola (11.6 Grams).[20]
As a weapon
editAccording to the 1898 King's American Dispensatory,[21]
Abrus seeds are the agents by which the Chamàr or "Native Skinner" caste of India carry on the felonious poisoning of cattle for the purpose of securing their hides. This is done by means of small spikes, called sui (needles) or sutari (awls), which are prepared by soaking the awl in a thin paste of the water-soaked, pounded seeds, and then drying the weapon in the sun, after which it is oiled and sharpened upon stone, affixed in a handle, and then used to puncture the skin of the animal.
An 1881 work by the District Superintendent of Police for British-occupied Bengal details the preparation and use of the sutari for the killing of cattle and in at least six murder cases. A native, promised a reduced sentence for the poisoning of a fellow villager's bullock in exchange for his testimony, demonstrated the technique. First the outer shells of red or white seeds were cracked between stones, then the two cotyledons from within thirty or forty seeds were soaked in water for ten minutes. These seeds were ground to a paste and rolled up into six sharp-ended one-inch cones, which were inserted into either end of three pieces of straw and "exposed to the moderate influence of the sun" to dry, whereupon they regained some of the original hardness of the seed. In this account, the sutaries were described as being these cones, entirely made up of the hardened seed paste. The dried cones were checked for sharpness, and if need be, whetted with a brick and re-set. Finally, to prevent softening, they were waterproofed by "burying them for a night in some sort of animal grease." For testing, which Major Ramsay asked to be done exactly like a surreptitious killing, the prisoner set two sutaries into a 1.5-inch wooden handle meant to be held in the hand by pressing them into a rag stretched over sockets in the wood. A wandering "Brahmanee bull" was procured, and the prisoner brought the sutari down in one direction and away in the other, so as to break off the cones inside the animal's flesh behind the horn, then pressed the skin over the broken ends leaving no obvious trace of the injury. This process was repeated with two more cones to the base of the animal's tongue. The bull died after 34.5 hours, leaving no visible trace of the sutaries but a small amount of pus at the wound site, whose swelling had mostly subsided by the time of death.[22]
The 1890 Pharmacographia Indica gives an account, based in part on the above work, describing the sutaris or suis (the terms being equivalent, depending on district, with the former based on the object's resemblance to the point of a cobbler's awl). It describes the sutaris as 3/4 inch long and weighing 1.5 to 2 grains, varying in color from dirty white to black, and describes the handle as 3 to 3.5 inches long and frequently made from two joints of bamboo wood, with sockets 1/4 to 3/8 inch deep and with the cavity exposed at one end for storage of additional sutaris. The weapons were sometimes made with the milky juice of Calotropis gigantea instead of water, which was said to speed the effect, and were sometimes supplemented with metallic mercury, dhatura, aconite, and/or arsenic. It is added that "any attempt to withdraw the sutari by pulling at the pieces sticking out, invariably breaks it, a portion being left in the wound." One man murdered by a single blow with a pair of sutaris died after three days; another, from whom the material had been successfully excised, died three days later of tetanus. The price of one of these killings was said to total 16.5 rupees; the killers were punished by transportation for life.[23]
In traditional medicine
editAbrus precatorius, called "Gulaganji" in Kannada, kundu mani in Tamil, Guruvinda ginja in Telugu and 'Kunni kuru' in Malayalam, has been used in Siddha medicine for centuries. The white variety is used to prepare oil that is claimed to be an aphrodisiac.[24] A tea is made from the leaves and used for fevers, coughs and colds.[8] Seeds are poisonous and therefore are only consumed after heat treatment.[25] The Tamil Siddhars knew about the toxic effects in plants and suggested various methods which is called "suththi seythal" or purification. This is done by boiling the seeds in milk and then drying them. Like with castor oil, the protein toxin is denatured when subjected to high temperatures rendering it innocuous.[26]
The 1889 book 'The Useful Native Plants of Australia' records that "The roots of this plant are used in India as a substitute for liquorice, though they are somewhat bitter. In Java the roots are considered demulcent. The leaves, when mixed with honey, are applied to swellings, and in Jamaica are used as a substitute for tea. Under the name of "Jequirity" the seeds have recently been employed in cases of ophthalmia, a use to which they have long been put in India and Brazil."[27]
The plant is also used in Ayurveda[28] and is said to promote hair growth. It is sometimes used as an ingredient in Indian hair products.
The leaves of Abrus precatorius are used by the indigenous communities of the Western region of Ghana as an anti-diabetic medicine.[citation needed]
Laboratory study of extracts
editA variety of pharmacological effects have been observed in rodents, but have not been demonstrated clinically in humans, including:
- An ethanolic extract of Abrus precatorius was found to have antioxidant, anti-inflammatory and analgesic potential in rodents.[citation needed]
- A methanolic extract of A. precatorius seeds causes reversible alterations in the estrous cycle pattern and completely blocked ovulation in Sprague-Dawley rats.[29]
- Studies on aqueous, methanolic and chloroform extracts of Abrus precatorius showed greater inhibitory activity against a number of disease-causing bacteria such as Bacillus subtilis, Pseudomonas aeruginosa, Staphylococcus aureus, Salmonella typhimurium, and Escherichia coli.[30][31]
- A dried ethanolic leaf extract of Abrus precatorius showed pancreato-protective effects and glucose lowering effects in Sprague-Dawley rats.[32] This was found in another study to be through modulation of insulin and GLP-1 inversely with glucagon, noncompetitive inhibition of α-amylase and α-glucosidase, free radical scavenging, and recovery of damaged/necro-apoptosized pancreatic β-cells.[33]
Cultural significance
editIn Rajasthan, India, Chirmi song is associated with this plant. There is also evidence that this plant has significant economic value to the traditional Zulu people, due to the fact that it is a form of income for Zulu people that make and sell crafts that were made from the seeds of this plant.[34]
During the Tang dynasty, Wang Wei wrote a poem titled "One-hearted" (Xiāng Sī / 相思), which most likely refers to Abrus precatorius as a "red bean" (hóng dòu / 红豆).[citation needed]
In Mathura, India, the god Vishnu and Krishna is associated with the seeds of the plant. Lord Krishna is sometimes depicted wearing the seeds on a mala (rosary).[citation needed]
Gallery
edit-
White variety of seeds.
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Abrus precatorius leaves and flowers
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Abrus precatorius flowers
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Abrus precatorius seeds
See also
editNotes
edit- ^ a b c "Abrus precatorius L." Plants of the World Online. Royal Botanic Gardens, Kew. Retrieved April 17, 2018.
- ^ "Abrus precatorius L." InChem. Retrieved 2016-04-29.
- ^ a b c d e f g Wagstaff, D. Jesse (2008). International Poisonous Plants Checklist: An Evidence-Based Reference. CRC Press. p. 1. ISBN 978-1-4200-6252-6. Retrieved October 7, 2012.
- ^ a b c d e f g h i j Paul Hockings; Christiane Pilot-Raichoor (1992). A Badaga-English dictionary. Mouton de Gruyer. p. 246. ISBN 978-3-11-012677-8.
- ^ Bisby, Frank (1994). Phytochemical Dictionary of the Leguminosae, Volume 1. CRC Press. p. 1. ISBN 978-0-412-39770-7. Retrieved October 7, 2012.
- ^ SDF (5 June 2015). "ඔලිඳ බීජ මාරාන්තික විය හැකියි" [Olinda seeds might be deadly]. News.lk. Retrieved 15 January 2023.
- ^ Karthikeyan, Aishwarya; Amalnath, S. Deepak (April 2017). "Abrus precatorius Poisoning: A Retrospective Study of 112 Patients". Indian Journal of Critical Care Medicine. 21 (4): 224–225. doi:10.4103/ijccm.IJCCM_320_16. ISSN 0972-5229. PMC 5416790. PMID 28515607.
- ^ a b Mendes (1986), p. 79.
- ^ Okoko, Ini-Ibehe E.; Osinubi, Abraham A.A.; Olabiyi, Olaleye O.; Kusemiju, Taiwo O.; Noronha, Cressie C.; Okanlawon, Abayomi O. (July 2010). "Antiovulatory and Anti-Implantation Potential of the Methanolic Extract of Seeds of Abrus Precatorius in the Rat". Endocrine Practice. 16 (4): 554–560. doi:10.4158/EP09011.OR. PMID 20150030.
- ^ Ezuruike, Udoamaka F.; Prieto, Jose M. (2014-09-11). "The use of plants in the traditional management of diabetes in Nigeria: Pharmacological and toxicological considerations" (PDF). Journal of Ethnopharmacology. 155 (2): 857–924. doi:10.1016/j.jep.2014.05.055. ISSN 0378-8741. PMID 24929108.
- ^ "Medicinal Plants of Ghana", Genetic Resources, Chromosome Engineering, and Crop Improvement, CRC Press, pp. 245–270, 2011-09-15, doi:10.1201/b11177-14, ISBN 978-0-429-09361-6, retrieved 2024-02-19
- ^ Langeland, K.A.; et al. (2008). "Identification and Biology of Nonnative Plants in Florida's Natural Areas - Second Edition" (PDF). University of Florida-IFAS Pub SP 257.[permanent dead link ]
- ^ a b "Abrus precatorius, jequirity, rosary pea - The POISON GARDEN Website". www.thepoisongarden.co.uk.
- ^ http://www.cbif.gc.ca/eng/species-bank/canadian-poisonous-plants-information-system/all-plants-scientific-name/abrus-precatorius/?id=1370403266739%7C[permanent dead link ] Canadian Biodiversity Information Facility website, Home → Species Bank → Canadian Poisonous Plants Information System → All Plants (Scientific Name)→ Abrus precatorius - math was used to determine 0.1mg/150lb datapoint based on 0.00015% body weight datapoint
- ^ Jang D.H., Hoffman R.S., Lewis L.S. "Attempted suicide, by mail order: Abrus precatorius".Clinical Toxicology. Conference: 2010 International Congress of the European Association of Poisons Centres and Clinical Toxicologists Bordeaux France. Conference Start: 20100511 Conference End: 20100514. Conference Publication: (var.pagings). 48 (3) (pp 308),
- ^ Knight, Anthony; Walter, Richard (2001). A Guide to Plant Poisoning of Animals in North America. Teton NewMedia. p. 121. ISBN 978-1-893441-11-8. Retrieved October 7, 2012.
- ^ "The Emergency Response Safety and Health Database: Biotoxin: ABRIN – NIOSH". cdc.gov. Centers for Disease Control and Prevention. Retrieved 2015-12-30.
- ^ "Eden Project recalls tropical seed bracelets". BBC News. 23 December 2011. Retrieved 2 June 2023.
- ^ Sharma, Rajender Kumar; Bajwa, Ali (4 February 2021). "Physical seed dormancy in Abrus precatorious (Ratti): a scientific validation of indigenous technique". Experimental Results. 2. doi:10.1017/exp.2020.64. ISSN 2516-712X.
- ^ Wheeler, Mortimer (1959). Early India and Pakistan (Revised ed.). London: Thames and Hudson.
- ^ "Abrus.—Abrus". Henrietta's Herbal (scanned version). 1898.
- ^ Major H. M. Ramsay (1881). Detective footprints: with bearings for a future course. Army and Navy Co-operative Society, Limited. pp. 42–65.
- ^ William Dymock; C.J.H. Warden; David Hooper (1890). Pharmacographia Indica: a history of the principal drugs of vegetable origin met with in India. Kegan Paul, Trench, Truebner & Co. (London). pp. 444–445.. The relevant portion is cited to Dr. Warden's (Surgeon-Major, Bengal Army, Professor of Chemistry in the Calcutta Medical College) prior publication in Indian Medical Gazette vol. 138.
- ^ Raamachandran, J. "Herbs of Siddha medicines: The First 3D Book on Herbs", page 2.
- ^ Verma, D.; Tiwari, S. S.; Srivastava, S.; Rawat, A. (2011). "Pharmacognostical evaluation and phytochemical standardization of Abrus precatorius L. seeds". Natural Product Sciences. 17 (1): 51–57.
- ^ "Abrus precatorius L._IPCS INCHEM".
- ^ J. H. Maiden (1889). The useful native plants of Australia: Including Tasmania. Turner and Henderson, Sydney.
- ^ Williamson, Elizabeth M. (2002). Major Herbs of Ayurveda. Churchill Livingstone. ISBN 978-0-443-07203-1.[permanent dead link ]
- ^ Okoko, I. I.; Osinubi, A. A.; Olabiyi, O. O.; Kusemiju, T. O.; Noronha, C. C.; nlawon, A. O. (2010). "Antiovulatory and anti-implantation potential of the methanolic extract of seeds of Abrus precatorius in the rat". Endocrine Practice. 16 (4): 554–560. doi:10.4158/ep09011.or. PMID 20150030.
- ^ Kekuda TR, Vinayaka KS, Soumya KV, Ashwini SK, Kiran R. Antibacterial and antifungal activity of methanolic extract of Abrus pulchellus Wall and Abrus precatorius Linn: A comparative study Archived August 31, 2012, at the Wayback Machine. Int J Toxicol Pharmacol Res. 2010;2:26–9.
- ^ Roy, S.; Acharya, R.; Mandal, N. C.; Barman, S.; Ghosh, R.; Roy, R. (2012). "A comparative antibacterial evaluation of raw and processed Guñjā (Abrus precatorius Linn.) seeds". Ancient Science of Life. 32 (1): 20–23. doi:10.4103/0257-7941.113794. PMC 3733201. PMID 23929989.
- ^ Boye, Alex; Acheampong, Desmond Omane; Gyamerah, Eric Ofori; Asiamah, Ernest Amponsah; Addo, Justice Kwaku; Mensah, Derrick Addae; Brah, Augustine Suurinobah; Ayiku, Philippa Jennifer (2020-08-10). "Glucose lowering and pancreato-protective effects of Abrus Precatorius (L.) leaf extract in normoglycemic and STZ/Nicotinamide – Induced diabetic rats". Journal of Ethnopharmacology. 258: 112918. doi:10.1016/j.jep.2020.112918. ISSN 0378-8741. PMID 32360561. S2CID 218492743.
- ^ Boye, Alex; Barku, Victor Yao Atsu; Acheampong, Desmond Omane; Ofori, Eric Gyamerah (2021-07-24). "Abrus precatorius Leaf Extract Reverses Alloxan/Nicotinamide-Induced Diabetes Mellitus in Rats through Hormonal (Insulin, GLP-1, and Glucagon) and Enzymatic (α-Amylase/α-Glucosidase) Modulation". BioMed Research International. 2021: e9920826. doi:10.1155/2021/9920826. ISSN 2314-6133. PMC 8325591. PMID 34341763.
- ^ "Abrus precatorius subsp. africanus". www.plantzafrica.com. Retrieved 2016-05-18.
References
edit- Mendes, John (1986). Cote ce Cote la: Trinidad & Tobago Dictionary. Arima, Trinidad.
External links
edit- Abrus precatorius: Plant of deadly but most beautiful seeds at Disabled World
- Where did the rosary pea come from Archived 2018-12-06 at the Wayback Machine
- Evaluation of the Invasiveness of Non-native Plants at Archbold Biological Station
- INCHEM - Chemical Safety Information from Intergovernmental Organizations: Abrus precatorius L.
- Abrus precatorius Linn. Medicinal Plant Images Database (School of Chinese Medicine, Hong Kong Baptist University) (in Chinese) (in English)
- Abrus precatorius in West African plants – A Photo Guide.