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Current Traditional Medicine

Editor-in-Chief

ISSN (Print): 2215-0838
ISSN (Online): 2215-0846

Review Article

A Review on Adenocarpus mannii; a Main Species of the Genus Adenocarpus

Author(s): Blaise K. Nganou, Jubie Selvaraj*, Pierre Tane, Alex Nchiozem, Ingrid Simo, Chaitanya MVNL and Dhanabal Palanisamy

Volume 6, Issue 1, 2020

Page: [3 - 12] Pages: 10

DOI: 10.2174/2215083805666190708153634

Price: $65

Abstract

The fabaceae are rooted in rosaceae pods known as "vegetables" by the early botanists. They are the third family of angiosperms which includes 642 genus divided into about 18,000 species. The fabaceae family is known as the most important family of the ecosystem as it is indispensable in medicine, agriculture, industry and livestock. The Adenocarpus genus has about 50 species that are frequently found in tropical regions of Northern Africa, the southern part of West Europe and in the central and southern Italy. They are used in traditional medicine for the treatment of several diseases: such as microbial infections, leprosy, scabies, acne, malaria and other plants species are used in agriculture as insecticidal properties. Mainly Adenocarpus mannii species is well represented in the tropical regions of North Africa. It occurs in Angola, Mozambique, Malawi, Guinea, South Africa, Tanzania, and Burundi. In Cameroon, it is encountered in South West Region and West Region. Previous phytochemical studies led to the isolation of several classes of compounds such as flavonoids, alkaloids and triterpenes. Several studies report the phytochemical studies on genus Adenocarpus and chemotaxonomic markers of species of this genus. Herein, we outline all the botanical, pharmacological and phytochemical aspects of Adenocarpus mannii. A brief introduction about fabaceae and the genus Adenocarpus has also been included.

Keywords: Fabaceae, Adenocarpus genus, Adenocarpus mannii, flavonoids, alkaloids, triterpenes.

Graphical Abstract
[1]
Hostettmann K, Potterat O, Wolfender J. The Potential of higher plants as a source of new drugs 1998; 52(112): 10-7.
[2]
Simpson MG. Plant Systematics. Academic Press 2010.
[3]
Wojciechowski ME, Lavin M, Sanderson MJ. A Phylogeny of legumes (Leguminosae) based on analysis of the plastid matK gene resolves many well-supported subclades within the family. Bot Soc Am 2016; 91(11): 1846-62.
[4]
Giachi I, Manunta A, Morelli I, Pistelli L. Flavonoids and isoflavonoids from Genista morisii. Biochem Syst Ecol 2002; 30(8): 801-3.
[5]
Dupont F, Guignard J-L. Botanique les Familles des plantes.. Ed: Elsevier/Masson elsevier/Masson 2012.
[6]
Torre D, Capacity A. Evaluation of antioxidant capacity and identification of bioactive compounds of crude methanol extracts of Caesalpinia pulcherrima (L.) Swartz. Indian J Pharm Sci 2017; 79(1): 113-23.
[7]
Bruneton J, Caroline KH. Pharmacognosy, Phytochemistry, Medicinal Plants. Lavoisier 2nd edition November 19 1999. Hampshire, U.K.
[8]
Manda P, Adépo JA, Kroa E. Treatment of oxidative stress-related pathologies with plants in Abidjan (Ivory Coast). J Med Plants Stud 2018; 6(3): 9-14.
[9]
Adamu HM, Abayeh OJ, Agho MO, et al. An ethnobotanical survey of Bauchi State herbal plants and their antimicrobial activity. J Ethnopharmacol 2005; 99(1): 1-4.
[10]
Lengani A, Fulbert L, Pierre I, Nikiema J, Cle M. Decine traditionnelle et maladies des reins au Me Burkina Faso traditional medicine in kidney diseases in Burkina Faso. Nephrol Ther 2010; 6(1): 35-9.
[11]
Gepts P, Beavis WD, Brummer EC, et al. Legumes as a model plant family. Genomics for food and feed report of the cross-legume advances through genomics conference. Plant Physiol 2005; 137(4): 1228-35.
[12]
Graham PH, Vance CP. Update on legume utilization legumes: Importance and constraints to greater use. Plant Physiol 2003; 131(3): 872-7.
[13]
Oyedemi BO, Oyedemi SO, Chibuzor JV, Ijeh II, Coopoosamy RM, Aiyegoro AO. Pharmacological evaluation of selected medicinal plants used in the management of oral and skin infections in Ebem-Ohafia District, Abia State, Nigeria. Sci World J 2018.Article ID 4757458
[14]
Judd WS, Campbell CS, Kellogg EA, Stevens PF, Donoghue MJ. Plant systematics: A phylogenetic approach. Syst Biol 2004; 53(3): 517-8.
[15]
Cubas P, Pardo C, Tahiri H, Castroviejo S. Phylogeny and evolutionary diversification of Adenocarpus DC. (Leguminosae). Taxon 2010; 59(3): 720-32.
[16]
Cazarolli LH, Zanatta L, Alberton EH, et al. Flavonoids: Prospective drug candidates. Mini Rev Med Chem 2008; 8(13): 1429-40.
[17]
Rajagopal K, Meenashree B, Binika D, et al. Mycodiversity and biotechnological potential of endophytic fungi isolated from hydrophytes. Curr Res Environ Appl Mycol 2018; 8(2): 172-82.
[18]
Berber A, Zengin G, Aktumsek A, Sanda MA, Uysal T. Antioxidant capacity and fatty acid composition of different parts of Adenocarpus complicatus (Fabaceae) from Turkey antioxidant capacity and fatty acid composition of different parts of Adenocarpus complicatus (Fabaceae) from Turkey. Int J Trop Biol 2014; 62(1): 337-46.
[19]
Yates SG, Petroski RJ. Analysis of Loline Alkaloids in Endophyte-Infected Tall Fescue by Capillary. J Agric Food Chem 1990; 38(1): 182-5.
[20]
Schardl CL, Grossman RB, Nagabhyru P, Faulkner JR, Mallik UP. Loline alkaloids: Currencies of mutualism. Phytochem 2007; 68(7): 980-96.
[21]
Tamokou JDD, Chouna JR, Fischer-fodor E, et al. Anticancer and antimicrobial activities of some antioxidant-rich cameroonian medicinal plants. PLoS One 2013; 8(2)e55880
[22]
Yong JN, Ntie-Kang F. The chemistry and biological activities of natural products from Northern African plant families: From Ebenaceae to Solanaceae. RSC Adv 2015; 5(34): 26580-93.
[23]
Focho DA, Ndam WT, Fonge BA. Medicinal plants of Aguambu - Bamumbu in the Lebialem highlands, southwest province of Cameroon. African J Pharm Pharmacol 2009; 3(1): 01-13.
[24]
Ndjateu FST, Tsafack RBN, Nganou BK, et al. Antimicrobial and antioxidant activities of extracts and ten compounds from three Cameroonian medi-cinal plants: Dissotis perkinsiae (Melastomaceae), Adenocarpus mannii (Fabaceae) and Barteria fi stulosa (Passi fl orac). South African J Bot 2014; 91(1): 37-42.
[25]
Hutchinson J, Dalziel JM, Keay RWJ, Hepper N. Flora of West Tropical Africa. Royal Botanic Gardens Kew 2014.
[26]
Sergeiko A, Poroikov VV, Hanu LO, Dembitsky VM. Cyclobutane-Containing Alkaloids: Origin, synthesis, and biological activities. Open Med Chem J 2008; 15(2): 26-37.
[27]
Essokne RS, Grayer RJ, Porter E, Kite GC, Simmonds MSJ, Jury SL. Flavonoids as chemosystematic markers for the genus Adenocarpus. Biochem Syst Ecol 2012; 42(1): 49-58.
[28]
Greinwald R, Bachmann P, Wltt L, Noves JRA, Czygan FS. Taxonomic significance of alkaloids in the genus adooocorpus (Fabaceae-Genisteae). Biochem Syst Ecol 1992; 20(1): 69-73.
[29]
Bezanger-Beauquesne. M Pinkas; M. Torck. Plants in Modern Therapeutics Paris, Maloine Editions 1986.

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