The genus <i>Rumex</i> (Polygonaceae): an ethnobotanical, phytochemical and pharmacological review

doi:10.1007/s13659-022-00346-z

Natural Products and Bioprospecting

2022, Vol. 12

Issue (3) : 21-21 DOI: 10.1007/s13659-022-00346-z

REVIEW

The genus Rumex (Polygonaceae): an ethnobotanical, phytochemical and pharmacological review

Jing-Juan Li^1,2, Yong-Xiang Li^1,2, Na Li¹, Hong-Tao Zhu¹, Dong Wang¹, Ying-Jun Zhang^1,3

1 State Key Laboratory of Phytochemistry and Plant Resources in West China, Kunming Institute of Botany, Chinese Academy of Sciences, Kunming, 650201, People's Republic of China;
2 University of Chinese Academy of Sciences, Beijing, 100049, People's Republic of China;
3 Yunnan Key Laboratory of Natural Medicinal Chemistry, Kunming Institute of Botany, Chinese Academy of Sciences, Kunming, 650201, People's Republic of China

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Abstract Rumex L., a genus in Polygonaceae family with about 200 species, is growing widely around the world. Some Rumex species, called "sorrel" or "dock", have been used as food application and treatment of skin diseases and hemostasis after trauma by the local people of its growing areas for centuries. To date, 29 Rumex species have been studied to contain about 268 substances, including anthraquinones, flavonoids, naphthalenes, stilbenes, diterpene alkaloids, terpenes, lignans, and tannins. Crude extract of Rumex spp. and the pure isolates displayed various bioactivities, such as antibacterial, anti-inflammatory, antitumor, antioxidant, cardiovascular protection and antiaging activities. Rumex species have important potential to become a clinical medicinal source in future. This review covers research articles from 1900 to 2022, fetched from SciFinder, Web of Science, ResearchGate, CNKI and Google Scholar, using “Rumex” as a search term ("all fields") with no specific time frame set for the search. Thirty-five Rumex species were selected and summarized on their geographical distribution, edible parts, traditional uses, chemical research and pharmacological properties.

Keywords Polygonaceae Rumex L. Anthraquinones Phenolics Pharmacological properties

Fund:This work was supported by the Ministry of Science and Technology, China (2021YFE0103600) for International Scientific and Technological Innovative Cooperation between Governments.

Corresponding Authors: Ying-Jun Zhang,E-mail:zhangyj@mail.kib.ac.cn E-mail: zhangyj@mail.kib.ac.cn

Issue Date: 24 June 2022

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Jing-Juan Li,Yong-Xiang Li,Na Li, et al. The genus Rumex (Polygonaceae): an ethnobotanical, phytochemical and pharmacological review[J]. Natural Products and Bioprospecting, 2022, 12(3): 21-21.

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http://npb.kib.ac.cn/EN/10.1007/s13659-022-00346-z OR http://npb.kib.ac.cn/EN/Y2022/V12/I3/21

1.http://www.mobot.org/MOBOT/research/APweb/.Accessed 22 Jan 2021.
2.Liddell HG, Scott R, Jones HS, McKenzie R.A Greek-English lexicon.In:Fontaine D, editor.9th edn.Oxford:Clarendon Press; 1940.p.442.https://areopage.net/PDF/LSJ.pdf.
3.Saleh NAM, Elhadidi N, Arafa RFM.Flavonoids and anthraquinones of some egyptian Rumex species (Polygonaceae).Biochem Syst Ecol.1993;21:301-3.
4.Korpelainen H, Pietiläinen M.Sorrel (Rumex acetosa L.):not only a weed but a promising vegetable and medicinal plant.Bot Rev.2020;86:234-46.
5.Martin AC, Zim HS, Nelson AL.American wildlife and plants:a guide to wildlife food habits.New York:Dover Publications; 1951.
6.https://plants.usda.gov/home/basicSearchResults?resultId=11dbb431-4141-4eb8-abd7-e51d87b79045.Accessed 22 Jan 2021.
7.Magdalena W, Kosikowska U, Malm A, Smolarz H.Antimicrobial activity of the extracts from fruits of Rumex L.species.Cent Eur J Biol.2011;6:1036-43.
8.Guo CH, Yang SL.TCM name combing and specifcation suggestions in Rumex.China Pharm.2017;28:3597-600.
9.Zhang GQ, Zhao HP, Wang ZY, Cheng JR, Tang XM.Recent advances in the study of chemical constituents and bioactivity of Rumex L.World Sci Technol Mod Tradit Chin Med Mater Med.2008;10:86-93.
10.Meng QQ, Zhao L, Qin L, Qu S, Zhang SL, Cai GZ.Determination of contents of emodin and chrysophanol in Rumex patiential var.callosus processing with rice vinegar by HPLC.Ginseng Res.2017;29:40-2.
11.Pan Y, Zhao X, Kim SH, Kang SA, Kim YG, Park KY.Anti-infammatory efects of Beopje curly dock (Rumex crispus L.) in LPS-induced RAW 2647 cells and its active compounds.J Food Biochem.2020;44:e13291.
12.Siener R, Honow R, Seidler A, Voss S, Hesse A.Oxalate contents of species of the Polygonaceae, Amaranthaceae and Chenopodiaceae families.Food Chem.2006;98:220-4.
13.Chelly M, Chelly S, Salah HB, Athmouni K, Bitto A, Sellami H, Kallel C, Allouche N, Gdoura R, Bouaziz-Ketata H.Characterization, antioxidant and protective efects of edible Rumex roseus on erythrocyte oxidative damage induced by methomyl.J Food Meas Charact.2020;14:229-43.
14.Elsayed RH, Kamel EM, Mahmoud AM, El-Bassuony AA, Bin-Jumah M, Lamsabhi AM, Ahmed SA.Rumex dentatus L.phenolics ameliorate hyperglycemia by modulating hepatic key enzymes of carbohydrate metabolism, oxidative stress and PPARγ in diabetic rats.Food Chem Toxicol.2020;138:111202.
15.Farooq M, Abutaha N, Mahboob S, Baabbad A, Almoutiri ND, Wadaan MAAM.Investigating the antiangiogenic potential of Rumex vesicarius (humeidh), anticancer activity in cancer cell lines and assessment of developmental toxicity in zebrafsh embryos.Saudi J Biol Sci.2020;27:611-22.
16.Guglielmina F, Diana LG, Francesca R, Margherita G, Stefania S, Stefano DA, Candelaria CSM.α-Glucosidase and glycation inhibitory activities of Rumex lunaria leaf extract:a promising plant against hyperglycaemia-related damage.Nat Prod Res.2020;34(23):3418-22.
17.Quradha MM, Khan R, Mujeeb-ur-Rehman, Abohajeb A.Chemical com-position and in vitro anticancer, antimicrobial and antioxidant activities of essential oil and methanol extract from Rumex nervosus.Nat Prod Res.2019;33:2554-2559.
18.Khare CP.Indian medicinal plants.An illustrated Dictionary.New York:Springer-Verlag; 2007.
19.An C, Chen M, Yang CZ, Meng J, Zhuang YX.The textual research and the name of "Jinbuhuan".J Chin Med Mater.2019;42:2449-52.
20.Dziedzic K, Szopa A, Waligorski P, Ekiert H, Slesak H.Sex-related difer-ences in the dioecious species Rumex Thyrsiforus Fingerh.-analysis of the content of phenolic constituents in leaf extracts.Acta Biol Cracov Bot.2020;62:43-50.
21.Süleyman H, Demirezer LÖ, Kuruüzüm A, Banoglu ZN, Gepdiremen A.Anti-infammatory efect of the aqueous extract from Rumex patientia L.roots.J Ethnopharmacol.1999;65:141-8.
22.Wang JF, Wang JX, Teng Y, Zhang SS, Liu Y.Determination of anthraqui-nones in Rumex acetosa L.J Southwest Univ.2017;39:199-204.
23.Gao LM, Wei XM, Zheng SZ, Shen XW, Su YZ.Studies on chemical con-stituents of Rumex patientia.Chin Tradit Herbal Drugs.2002;33:207-9.
24.Su YZ, Gao LM, Zheng XD, Zheng SZ, Shen XW.Anthraquinones from Polygonum Rumex patientia L.J Northwest China Norm Univ.2000;36:47-9.
25.Khabir A, Khan F, Haq ZU, Khan Z, Khan S.Two new antioxidant anth-raquinones namely Obtusifolate A and B from Rumex obtusifolius.Int J Biosci.2017;10:49-57.
26.Jiang LL, Zhang SW, Xuan LJ.Oxanthrone C-glycosides and epox-ynaphthoquinol from the roots of Rumex japonicus.Phytochemistry.2007;68:2444-9.
27.Wang S, Zhang X.Studies on chemical constituents of ethyl acetate extracted from leaves of Rumex patientia Linn.Acta Chin Med Pharma-col.2019;47:60-8.
28.Zhu JJ, Zhang CF, Zhang M, Bligh SWA, Yang L, Wang ZM, Wang ZT.Separation and identifcation of three epimeric pairs of new C-glucosyl anthrones from Rumex dentatus by on-line high performance liquid chromatography-circular dichroism analysis.J Chromatogr A.2010;1217:5384-8.
29.Michiko T, Jugo K.Isolation of hydroxyanthrones from the roots of Rumex acetosa Linn.Agr Biol Chem Tokyo.1982;46:1913-4.
30.Gunaydin K, Topcu G, Ion RM.1,5-Dihydroxyanthraquinones and an anthrone from roots of Rumex crispus.Nat Prod Lett.2002;16:65-70.
31.Wang ZY, Cheng JR, Li RM, Wang ZQ.New chromone glucoside from roots of Rumex gmelini.Nat Prod Res Dev.2009;21:189-91.
32.Wang ZY, Zhao HP, Zuo YM, Wang ZQ, Tang XM.Two new C-glucoside oxanthrones from Rumex gmelini.Chin Chem Lett.2009;20:839-41.
33.Mei RQ, Liang HX, Wang J, Zeng LH, Lu Q, Cheng YX.New seco-anthraquinone glucosides from Rumex nepalensis.Planta Med.2009;75:1162-4.
34.Fan JP, Zhang ZL.Studies on the chemical constituents from Rumex crispus L.(II).J Guangdong Pharm Coll.2009;25:585-7.
35.Zhang LS, Cheng YX, Liu GM.Chemical constituents of the ethyl acetate extract from Rumex hastatus D.Don.Chin Tradit Pat Med.2012;34:892-5.
36.Hawas UW, Ahmed EF, Abdelkader AF, Taie HAA.Biological activity of favonol glycosides from Rumex dentatus plant, an Egyptian xerophyte.J Med Plants Res.2011;5:4239-43.
37.Su YZ, Gao LM, Zheng XD, Zheng SZ, Shen XW.Flavonoids from Polygo-num Rumex patientia L.J Northwest China Norm Univ.2000;36:50-2.
38.Yoon H, Park J, Oh M, Kim K, Han J, Whang WK.A new acetophenone of aerial parts from Rumex aquatica.Nat Prod Sci.2005;11:75-8.
39.Chen WS, Hu XH, Yuan WP.Chemical constituents in the leaves of Rumex acetosa L.China J Tradit Chin Med Pharm.2019;34:3769-71.
40.Hasan A, Ahmed I, Jay M, Voirin B.Flavonoid glycosides and an anth-raquinone from Rumex Chalepensis.Phytochemistry.1995;39:1211-3.
41.Salama HMH.Flavonoid glycosides from Rumex pictus.Egypt J Bot.2000;39:41-52.
42.El-Fattah HA, Gohar A, El-Dahmy S, Hubaishi A.Phytochemical investi-gation of Rumex luminiastrum.Acta pharm Hung.1994;64:83-5.
43.Orban-Gyapai O, Raghavan A, Vasas A, Forgo P, Hohmann J, Shah ZA.Flavonoids isolated from Rumex aquaticus exhibit neuroprotective and neurorestorative properties by enhancing neurite outgrowth and synaptophysin.CNS Neurol Disord Drud Targets.2014;13:1458-64.
44.Yang B, Wang HY, Zhao P, Shen DF.Studies on the constituents of anth-raquinoe and favonoid in the seed of Rumex patientia L.Heilongjiang Med Pharm.2015;38:63-4.
45.Xu MY, Wang QB, Wei LM, Guo SL, Ding CH, Wang ZY.Chemical constituents of ethyl acetate extract from Rumex gmelini fruit.Inf Tradit Chin Med.2017;34:22-6.
46.Zeng Y, Luo JJ, Li C.Chemical constituents from aerial part of Rumex patientia.J Chin Med Mater.2013;36:57-60.
47.Zhao P, Dissertation, Jiamusi Univ, 2007.
48.Zhu JJ, Zhang CF, Zhang M, Wang ZT.Studies on chemical constituents in roots of Rumex dentatus.China J Chin Mater Med.2006;31:1691-3.
49.Chumbalov TK, Kuznetsova LK, Taraskina KV.Catechins and favonols of the roots of Rumex Rechingerianus.Chem Nat Compd.1969;5:155-6.
50.Zhao YL, Dong HQ, Zhang LS.Chemical constituents from the ethyl acetate portion of Rumex japonicus.J Dali Univ.2020;5:27-30.
51.Deng LN, Li BR, Wang GW, Zhang JM, Ge JQ, Wang H, Liao ZH, Chen M.Chemical constituents from roots of Rumex nepalensis.Chin Tradit Herbal Drugs.2016;47:2095-9.
52.Erturk S, Ozbas M, Imre S.Anthraquinone pigments from Rumex cristatus.Acta pharm Turcica.2001;43:21-2.
53.Yuan Y, Chen WS, Zheng SQ, Yang GY, Zhang WD, Zhang HM.Studies on chemical constituents in root of Rumex patientia L.China J Chin Mater Med.2001;26:40-2.
54.Ömür LD, Ayse KU, Bergere I, Schiewe HJ, Zeeck A.The structures of antioxidant and cytotoxic agents from natural source:anthraqui-nones and tannins from roots of Rumex patientia.Phytochemistry.2001;58:1213-7.
55.Stöggl WM, Huck CW, Bonn GK.Structural elucidation of catechin and epicat echin in sorrel leaf extracts using liquid chromatography cou-pled to diode array-, fuorescence and mass spectrometric detection.J Sep Sci.2004;27:524-8.
56.Bicker J, Petereit F, Hensel A.Proanthocyanidins and a phloroglucinol derivative from Rumex acetosa L.Fitoterapia.2009;80:483-95.
57.Kato T, Morita Y.C-glyxosylfavones with acetyl substitution from Rumex acetosa L.Chem Pharm Bull.1990;38:2277-80.
58.Sahreen S, Khan MR, Khan RA.Comprehensive assessment of phenolics and antiradical potential of Rumex hastatus D.Don.roots.Bmc Com-plem Altern M.2014;14:1-11.
59.https://www.cabi.org/isc/datasheet/116820.Accessed 31 Dec 2021.
60.Jiang Y, Jiang ZB, Shao GJ, Guo DC, Tian Y, Song JJ, Lin YY.The extraction of main chemical compositions in Rumex root.Adv Mater Res Switz.2012;382:372-4.
61.http://www.theplantlist.org.Accessed 31 Dec 2021.
62.Royer F, Dickinson R.Weeds of the Northern U.S.and Canada.Canada:University of Alberta Press; 1999.
63.Zhang H, Guo ZJ, Wu N, Xu WM, Han L, Li N, Han YX.Two novel naphthalene glucosides and an anthraquinone isolated from Rumex dentatus and their antiproliferation activities in four cell lines.Molecules.2012;17:843-50.
64.Kang YH, Wang ZY, Li JK, Liu LM.Isolation and identifcation of two anthraquinones from Rumex gmelini Turcz.China J Chin Mater Med.1996;21:741-2.
65.Zee OP, Kim DK, Kwon HC, Lee KR.A new epoxynaphthoquinol from Rumex japonicus.Arch Pharm Res.1998;21:485-6.
66.Rouf ASS, Islam MS, Rahman MT.Evaluation of antidiarrhoeal activity Rumex maritimus root.J Ethnopharmacol.2003;84:307-10.
67.Watt JM, Breyer-Brandwijk MG.The medicinal and poisonous plants of Southern Africa.Edinburgh:Livingston; 1932.
68.Gairola S, Sharma J, Bedi YS.A cross-cultural analysis of Jammu, Kashmir and Ladakh (India) medicinal plant use.J Ethnopharmacol.2014;155:925-86.
69.Akeroyd JR.Docks and knotweed of Britain and Ireland, vol.3.London:BSBI Handbook; 2015.
70.Akeroyd JR, Webb DA.Morphological variation in Rumex cristatus DC.Bot J Linn Soc.1991;106:103-4.
71.Mosyakin SL.Rumex Flora of North America, vol.5.New York:Oxford University Press; 2005.
72.El-Hawary SA, Sokkar NM, Ali ZY, Yehia MM.A profle of bioactive com-pounds of Rumex vesicarius L.J Food Sci.2011;76:C1195-202.
73.Khan TH, Ganaie MA, Siddiqui NA, Alam A, Ansari MN.Antioxidant potential of Rumex vesicarius L.:in vitro approach.Asian Pac J Trop Bio.2014;4:538-44.
74.Salama HMH.Two crystalline compounds from Rumex pictus Forssk.Egypt J Bot.1996;36:235-44.
75.Salama HMH.Diterpenoid alkaloids from Rumex pictus Forssk.Egypt J Bot.1997;37:85-92.
76.http://fora.org.il/en/plants/.Accessed 31 Dec 2021.
77.Kerem Z, Regev SG, Flaishman MA, Sivan L.Resveratrol and two mono-methylated stilbenes from Israeli Rumex bucephalophorus and their antioxidant potential.J Nat Prod.2003;66:1270-2.
78.Mhalla D, Bouassida KZ, Chawech R, Bouaziz A, Makni S, Jlaiel L, Tounsi S, Jarraya RM, Trigui M.Antioxidant, hepatoprotective, and antidepres-sion efects of Rumex tingitanus extracts and identifcation of a novel bioactive compound.Biomed Res Int.2018.https://doi.org/10.1155/2018/7295848.
79.Jimoh FO, Adedapo AA, Aliero AA, Afolayan AJ.Polyphenolic contents and biological activities of Rumex ecklonianus.Pharm Biol.2008;46:333-40.
80.Augustin N, Nuthakki VK, Abdullaha M, Hassan QP, Gandhi SG, Bharate SB.Discovery of helminthosporin, an anthraquinone isolated from Rumex abyssinicus Jacq as a dual cholinesterase inhibitor.ACS Omega.2020;5:1616-24.
81.Jehlik V, Sádlo J, Dostálek J, Jarolimová V, Klimes L.Chorology and ecology of Rumex confertus Willd.in the Czech Republic.Bot Lith.2001;7:235-344.
82.http://www.bonap.org/.Accessed 31 Dec 2021.
83.Kołodziejek J, Patykowski J.Efect of environmental factors on germina-tion and emergence of invasive Rumex confertus in central Europe.Sci World J.2015;2015:1-10.
84.http://www.luontoportti.com/suomi/en/kukkakasvit/asiatic-dock.Accessed 31 Dec 2021.
85.Misiewicz J, Stosik T.Rumex confertus-an expansive weed found in the Fordon Valley.Akademia Techniczno-Rolnicza.2000;226:77-84.
86.Piesik D, Wenda-Piesik A.Gastroidea viridula Deg.potential to control mossy sorrel (Rumex confertus Willd.).J Plant Protect Res.2005;45:63-72.
87.Raycheva T.Rumex confertus (Polygonaceae) in the Bulgarian fora.Bot Serb.2011;35:55-9.
88.Stace C.New fora of the British Isles.2nd ed.Cambridge:Cambridge University Press; 2010.
89.Tokarska-Guzik B.The establishment and spread of alien plant species (Kenophytes) in the fora of Poland.Katowice:Wydawnictwo Uniwer-sytetu Śląskiego; 2005.
90.https://npgsweb.arsgrin.gov/gringlobal/taxonomydetail.aspx?id=32527.Accessed 31 Dec 2021.
91.Wallentinus I.Introduced marine algae and vascular plants in European aquatic environments.Dordrecht:Springer; 2002.
92.Charles WK.Applied medical botany.https://medivetus.com/botan ic/rumex-hymenosepalus-wild-rhubarb-edible-and-medicinal-uses/.Accessed 31 Dec 2021.
93.Hillis WE.The isolation of chrysophanic acid and physcion from Rumex hymenosepalus Torr.Aust J Chem.1955;8:290-2.
94.Launert E.Edible and medicinal plants.London:Hamlyn; 1981.
95.Molnár P, Osz E, Zsila F, Deli J.Isolation and structure elucidation of anhydroluteins from cooked sorrel (Rumex rugosus Campd.).Chem Biodiv.2005;2:928-35.
96.Rechinger KH.The North American species of Rumex.(Vorarbeiten zueiner monographie der gattung Rumex 5.Field Mus.Nat Hist Bot Ser.1937;17:1-151.
97.Getie M, Gebre-Mariam T, Rietz R, Höhne C, Huschka C, Schmidtke M, Abate A, Neubert RHH.Evaluation of the anti-microbial and anti-infammatory activities of the medicinal plants Dodonaea viscosa Rumex nervosus and Rumex abyssinicus.Fitoterapia.2003;74:139-43.
98.Sheikha AE.Rumex nervosus:an overview.Int J Innov Hortic.2015;4:87-95.
99.Spinola V, Llorent-Martinez EJ, Castilho PC.Antioxidant polyphenols of madeira sorrel (Rumex maderensis):how do they survive to in vitro simulated gastrointestinal digestion.Food Chem.2018;259:105-12.
100.Spinola V, Llorent-Martinez EJ, Castilho PC.Inhibition of alpha-amylase, alpha-glucosidase and pancreatic lipase by phenolic compounds of Rumex maderensis (Madeira sorrel).Infuence of simulated gastrointes-tinal digestion on hyperglycaemia-related damage linked with aldose reductase activity and protein glycation.LWT Food Sci Technol.2020.https://doi.org/10.1016/j.lwt.2019.108727.
101.Pham DQ, Han JW, Dao NT, Kim J-C, Pham HT, Nguyen TH, Nguyen NT, Choi GJ, Vu HD, Dang QL.In vitro and in vivo antimicrobial potential against various phytopathogens and chemical constituents of the aerial part of Rumex chinensis Campd.S Afr J Bot.2020;133:73-82.
102.Ammar S, Abidi J, Luca SV, Boumendjel M, Skalicka-Wozniak K, Bouaziz M.Untargeted metabolite profling and phytochemical analysis based on RP-HPLC-DAD-QTOF-MS and MS/MS for discovering new bioactive compounds in Rumex algeriensis fowers and stems.Phytochem Analy-sis.2020;31:616-35.
103.Abidi J, Ammar S, Ben Brahim S, Skalicka-Wozniak K, Ghrabi-Gammar Z, Bouaziz M.Use of ultra-high-performance liquid chromatography coupled with quadrupole-time-of-fight mass spectrometry system as valuable tool for an untargeted metabolomic profling of Rumex tunetanus fowers and stems and contribution to the antioxidant activity.J Pharm Biomed.2019;162:66-81.
104.Abidi J, Occhiuto C, Cimino F, Speciale A, Ruberto G, Siracusa L, Bouaziz M, Boumendjel M, Muscarà C, Saija A, Cristani M.Phytochemical and biological characterization of methanolic extracts from Rumex algeriensis and Rumex tunetanus.Chem Biodivers.2020.https://doi.org/10.1002/cbdv.202000345.
105.Jaradat N, Hawash M, Dass G.Phytochemical analysis, in-vitro anti-prolif-erative, anti-oxidant, anti-diabetic, and anti-obesity activities of Rumex rothschildianus Aarons.extracts.BMC Complement Med.2021;21:107.
106.Sabo VA, Svircev E, Mimica-Dukic N, Orcic D, Narancic J, Knezevic P.Anti-Acinetobacter baumannii activity of Rumex crispus L.and Rumex sanguineus L.extracts.Asian Pac J Trop Bio.2020;10:172-82.
107.Gescher K, Hensel A, Hafezi W, Derksen A, Kühn J.Oligomeric proan-thocyanidins from Rumex acetosa L.inhibit the attachment of herpes simplex virus type-1.Antivir Res.2011;89:9-18.
108.Liu SX, Cheng LY.Exploitation actuality and expectation of Polygonum cuspidatum's efective ingredients.Food Sci Tech.2004;2:96-8.
109.Ahmadi R, Ebrahimzadeh MA.Resveratrol-a comprehensive review of recent advances in anticancer drug design and development.Eur J Med Chem.2020.https://doi.org/10.1016/j.ejmech.2020.112356.
110.Li J, Zhang LS.Chemical constituents of n-butyl alcohol extract from Rumex hastatus roots.Chin J Exp Tradit Med Formulae.2015;21:46-9.
111.Li YJ, Lu Y, Hou SQ, Ruan RS.A study of the lignan glycosides from Rumex hastatus.J Yunnan Natl Univ.2017;26:438-42.
112.Chen JM, Dissertation, Heilongjiang Univ Chin Med, 2008.
113.Wang ZY, Zuo YM, Kang YH, Cong Y, Song XL.Study on the chemical constituents of the Rumex gmelini Turcz.(ÌI).Chin Tradit Herbal Drugs.2005;36:1626-7.
114.Zhang LS, Li Z, Mei RQ, Liu GM, Long CL, Wang YH, Cheng YX.Hastatu-sides A and B:two new phenolic glucosides from Rumex hastatus.Helv Chim Acta.2009;92:774-8.
115.Islam MS, Iwasaki A, Suenaga K, Kato-Noguchi H.2-Methoxystypan-drone, a potent phytotoxic substance in Rumex maritimus L.Theor Exp Plant Physiol.2017;29:195-202.
116.Qiu YD, Li AD, Lee J, Lee JE, Lee EW, Cho N, Yoo HM.Inhibition of Jurkat T cell proliferation by active components of Rumex japonicus roots via induced mitochondrial damage and apoptosis promotion.J Microbiol Biotechn.2020;30:1885-95.
117.Kuruuzum A, Demirezer LO, Bergere I, Zeeck A.Two new chlorin-ated naphthalene glycosides from Rumex patientia.J Nat Prod.2001;64:688-90.
118.Nishina A, Suzuki H.Naphthoquinone derivative of Rumex japonicus and Rheum as microbicide for foods.Jpn Kokai Tokkyo Koho.1993;4:17.
119.Wei W, Dissertation, Hunan Univ Chin Med, 2012.
120.Demirezer O, Kuruuzum A, Bergere I, Schiewe HJ, Zeeck A.Five naph-thalene glycosides from the roots of Rumex patientia.Phytochemistry.2001;56:399-402.
121.Jang DS, Kim JM, Kim JH, Kim JS.24-Nor-ursane type triterpenoids from the stems of Rumex japonicus.Chem Pharm Bull.2005;53:1594-6.
122.Khetwal KS, Manral K.Pathak RP (1987) Constituents of the aerial parts of Rumex nepalensis Spreng.Indian Drugs.1987;24:328-9.
123.Kengne IC, Feugap LDT, Njouendou AJ, Ngnokam CDJ, Djamalladine MD, Ngnokam D, Voutquenne-Nazabadioko L, Tamokou J-D-D.Anti-bacterial, antifungal and antioxidant activities of whole plant chemical constituents of Rumex abyssinicus.BMC Complement Med Ther.2021;21:164.
124.Santos ÊRM, Oliveira HNM, Oliveira EJ, Azevedo SHG, Jesus AA, Medeiros AM, Dariva C, Sousa EMBD.Supercritical fuid extraction of Rumex Acetosa L roots:yield, composition, kinetics, bioactive evalua-tion and comparison with conventional techniques.J Supercrit Fluids.2017;122:1-9.
125.Tutin F, Clewer WB.The constituents of Rumex Ecklonianus.J Chem Soc.1910;97:1-11.
126.Bélanger J, Balakrishna M, Latha P, Katumalla S, Johns T.Contribution of selected wild and cultivated leafy vegetables from South India to lutein and β-carotene intake.Asia Pac J Clin Nutr.2010;19:417-24.
127.Ito H.Efects of the antitumor agents from various natural sources on drug metabolizing system, phagocytic activity and complement system in Sarcoma 180-bearing mice.Jpn J Pharm.1986;40:435-43.
128.Taraskina KV, Chumbalov TK, Kuznetsova LK.Anthraquinone pigments of Rumex rechingerianus.Chem Nat Compd.1968;4:162-3.
129.Yuan Y, Chen WS, Yang YJ, Li L, Zhang HM.Anthraquinone components in Rumex patientia L.Chin Tradit Herbal Drugs.2000;31:12-4.
130.Liu J, Xia ZT, Zhou GR, Zhang LL, Kong LY.Study on the chemical con-stituents of Rumex patientia.J Chin Med Mater.2011;34:893-5.
131.Hasan A, Ahmed I, Khan MA.A new anthraquinone glycoside from Rumex chalepensis.Fitoterapia.1997;68:140-2.
132.Wang HL, Wang L, Zhong GY, Liang WJ, Li X, Jiang K.Chemical constitu-ents of Rumex nepalensis (II).J Chin Med Mater.2020;43:1129-31.
133.Yang Y, Yan YM, Wei W, Jie L, Zhang LS, Zhou XJ, Wang PC, Yang YX, Cheng YX.Anthraquinone derivatives from Rumex plants and endo-phytic Aspergillus fumigatus and their efects on diabetic nephropathy.Bioorg Med Chem Lett.2013;23:3905-9.
134.Shafq N, Noreen S, Rafq N, Ali B, Parveen S, Mahmood A, Sajid A, Akhtar N, Bilal M.Isolation of bioactive compounds from Rumex hastatus extract and their biological evaluation and docking study as potential anti-oxidant and anti-urease agents.J Food Biochem.2020.https://doi.org/10.1111/jfbc.13320.
135.Bello OM, Fasinu PS, Bello OE, Ogbesejana A, Oguntoye OS.Wild vegetable Rumex acetosa Linn.:its ethnobotany, pharmacology and phytochemistry-a review.S Afr J Bot.2019;125:149-60.
136.Varma PN, Lohar DR, Satsangi AK.Phytochemical study of Rumex acetosa Linn.J Indian Chem Soc.1984;61:171-2.
137.Zhang L, Dissertation, Xinjiang Univ, 2006.
138.Wang XL, Hu M, Wang S, Cheng YX.Phenolic compounds and steroids from Rumex patientia.Chem Nat Compd.2014;50:311-3.
139.Schmuch J, Beckert S, Brandt S, Lohr G, Hermann F, Schmidt TJ, Beikler T, Hensel A.Extract from Rumex acetosa L.for prophylaxis of periodontitis:inhibition of bacterial in vitro adhesion and of gingipains of Porphyromonas gingivalis by epicatechin-3-O-(4β→8)-epicatechin-3-O-gallate (procyanidin-B2-di-gallate).PLoS ONE.2015.https://doi.org/10.1371/journal.pone.0120130.
140.Van den Berg AJJ, Labadie RP.The production of acetate derived hydroxyanthraquinones, -dianthrones, -naphthalenes and -benzenes in tissue cultures from Rumex alpinus.Planta Med.1981;41:169-73.
141.Zhou RH.Chemical taxonomy of medicinal plants.Shanghai:Shanghai Science and Technology Press; 1988.
142.Deng LN, Li BR, Wang R, Wang GW, Dong ZY, Liao ZH, Chen M.New napthalenone from roots of Rumex nepalensis.China J Chin Mater Med.2017;42:3143-5.
143.Liang HX, Dai HQ, Fu HA, Dong XP, Adebayo AH, Zhang LX, Cheng YX.Bioactive compounds from Rumex plants.Phytochem Lett.2010;3:181-4.
144.Schwartner C, Wagner H, Christofel V.Chemical and pharmacological investigations on Rumex acetosa L.Germany:The Second International Congress on Phytomedicine; 1996.
145.Elzaawely AA, Xuan TD, Tawata S.Antioxidant and antibacterial activities of Rumex japonicus Houtt.aerial parts.Biol Pharm Bull.2005;28:2225-30.
146.Tavares L, Carrilho D, Tyagi M, Barata D, Serra AT, Duarte CMM, Duarte RO, Feliciano RP, Bronze MR, Chicau P, Espírito-Santo MD, Ferreira RB, Santos CND.Antioxidant capacity of Macaronesian traditional medici-nal plants.Molecules.2010;15:2576-92.
147.Kucekova Z, Mlcek J, Humpolicek P, Rop O, Valasek P.Phenolic com-pounds from Allium schoenoprasum, Tragopogon pratensis and Rumex acetosa and their antiproliferative efects.Molecules.2011;16:9207-17.
148.Orbán-Gyapai O, Liktor-Busa E, Kúsz N, Stefkó D, Urbán E, Hohmanna J, Vasasa A.Antibacterial screening of Rumex species native to the carpathian basin and bioactivity-guided isolation of compounds from Rumex aquaticus.Fitoterapia.2017;118:101-6.
149.Yang B, Zhao P, Xu CH, Ji Y.Study on non-anthraquinone chemi-cal constituents of Rumex patientia seed.Chin Tradit Patent Med.2008;30:262-3.
150.Gashaw N.Isolation, characterization and structural elucidation of the roots of Rumex nervosus.J Trop Pharm Chem.2020.https://doi.org/10.25026/jtpc.v5i1.241.
151.Watanabe M, Miyagi A, Nagano M, Kawai-Yamada M, Imai H.Imai Characterization of glucosylceramides in the Polygonaceae, Rumex obtusifolius L.injurious weed.Biosci Biotechnol Biochem.2011;75:877-81.
152.Nishina A, Kubota K, Osawa T.Antimicrobial components, trachrys-one and 2-methoxystypandrone, in Rumex Japonicus Houtt.J Agr Food Chem.1993;41:1772-5.
153.Kim HY, Jee H, Yeom JH, Jeong HJ, Kim HM.The ameliorative efect of AST2017-01 in an ovalbumin-induced allergic rhinitis animal model.Infamm Res.2019;68:387-95.
154.Chelly M, Chelly S, Occhiuto C, Cimino F, Cristani M, Saija A, Muscarà C, Ruberto G, Speciale A, Bouaziz-Ketata H, Siracusa L.Comparison of phytochemical profle and bioproperties of methanolic extracts from diferent parts of Tunisian Rumex roseus.Chem Biodivers.2021.https://doi.org/10.1002/cbdv.202100185.
155.Yang HR, Lee H, Kim JH, Hong IH, Hwang DH, Rho IR, Kim GS, Kim E, Kang C.Therapeutic efect of Rumex japonicus Houtt.on DNCB-induced atopic dermatitis-like skin lesions in balb/c mice and human keratinocyte HaCaT cells.Nutrients.2019;11:573.
156.Kim HY, Jeon H, Bae CH, Lee Y, Kim H, Kim S.Rumex japonicus Houtt.alleviates dextran sulfate sodium-induced colitis by protecting tight junctions in mice.Integr Med Res.2020.https://doi.org/10.1016/j.imr.2020.02.006.
157.Eom T, Kim E, Kim JS.In vitro antioxidant, antiinfammation, and anticancer activities and anthraquinone content from Rumex crispus root extract and fractions.Antioxidants (Basel).2020.https://doi.org/10.3390/antiox9080726.
158.Dóra R, Kúsz N, Rafai T, Bogdanov A, Burián K, Csorba A, Mándi A, Kur-tán T, Vasas A, Hohmann J.14-Noreudesmanes and a phenylpropane heterodimer from sea buckthorn berry inhibit Herpes simplex type 2 virus replication.Tetrahedron.2019;75:1364-70.
159.Han JH, Khin PP, Sohn UD.Efect of Rumex aquaticus herba extract against helicobacter pylori-induced infammation in gastric epithelial cells.J Med Food.2016;19:31-7.
160.Min YS, Lee SE, Hong ST, Kim HS, Choi BC, Sim SS, Whang WK, Sohn UD.The inhibitory efect of quercetin-3-O-β-D-glucuronopyranoside on gastritis and refux esophagitis in rats.Korean J Physiol Pharmacol.2009;13:295-300.
161.Cho EJ, Um SI, Han JH, Kim B, Han SB, Jeong JH, Kim HR, Kim I, Whang WK, Lee E, Sohn UD.The cytoprotective efect of Rumex aquaticus Herba extract against hydrogen peroxide-induced oxidative stress in AGS cells.Arch Pharm Res.2016;39:1739-47.
162.Jang HS, Han JH, Jeong JY, Sohn UD.Protective efect of ECQ on rat refux esophagitis model.Korean J Physiol Pharmacol.2012;16:455-62.
163.Wang JF, Wang JX, Xu YZ, Zhao XY, Liu Y.Extraction technology of total phenols from Rumex acetosa L.and its scavenging activity to DPPH free radicals.Medicinal Plant.2015;6:51-5.
164.Litvinenko YA, Muzychkina RA.New antioxidant phytopreparation from Rumex thyrsiforus roots III.Chem Nat Compd.2008;44:239-40.
165.Feduraev P, Chupakhina G, Maslennikov P, Tacenko N, Skrypnik L.Variation in phenolic compounds content and antioxidant activity of diferent plant organs from Rumex crispus L.and Rumex obtusifolius L.at diferent growth stages.Antioxidants (Basel).2019.https://doi.org/10.3390/antiox8070237.
166.Nisa H, Kamili AN, Bandh SA, Shajrul A, Lone BA, Parray JA.Phyto-chemical screening, antimicrobial and antioxidant efcacy of difer-ent extracts of Rumex dentatus L.-a locally used medicinal herb of Kashmir Himalaya.Asian Pac J Trop Dis.2013;3:434-40.
167.Younes KM, Romeilah RM, El-Beltagi HS, El Moll H, Rajendrasozhan S, El-Shemy HA, Shalaby EA.In-vitro evaluation of antioxidant and antiradical potential of successive extracts, semi-purifed fractions and biosynthesized silver nanoparticles of Rumex vesicarius.Not Bot Horti Agrobo.2021.https://doi.org/10.15835/nbha49112293.
168.Ozenver N, Guvenalp Z, Kuruuzum-Uz A, Demirezer LO.Inhibitory potential on key enzymes relevant to type II diabetes mellitus and antioxidant properties of the various extracts and phytochemical constituents from Rumex acetosella L.J Food Biochem.2020.https://doi.org/10.1111/jfbc.13415.
169.Uzun M, Demirezer LO.Anti-aging power of Rumex crispus L.:matrixmetalloproteinases inhibitor, sun protective and antioxidant.S Afr J Bot.2019;124:364-71.
170.Cebovic T, Jakovljevic D, Maksimovic Z, Djordjevic S, Jakovljevic S, Ceto-jevic-Simin D.Antioxidant and cytotoxic activities of curly dock (Rumex crispus L., Polygonaceae) fruit extract.Vojnosanit Pregl.2020;77:308-16.
171.Lajter I, Zupkó I, Molnár J, Jakab G, Balogh L, Vasas A, Hohmann J.Anti-proliferative activity of Polygonaceae species from the Carpathian Basin against human cancer cell lines.Phytother Res.2013;27:77-85.
172.Tukappa NKA, Londonkar RL, Nayaka HB, Kumar CBS.Cytotoxicity and hepatoprotective attributes of methanolic extract of Rumex vesicarius L.Biol Res.2015;48:19.
173.Aghajanyan A, Nikoyan A, Trchounian A.Biochemical activity and hypoglycemic efects of Rumex obtusifolius L.seeds used in Armenian traditional medicine.Biomed Res Int.2018.https://doi.org/10.1155/2018/4526352.
174.Qamar HM, Qayyum R, Salma U, Khan S, Khan T, Shah AJ.Vascular mechanisms underlying the hypotensive efect of Rumex acetosa.Pharm Biol.2018;56:225-34.
175.Zhou XB, Cao KW, Song LK, Kou SQ, Qu SC, Wang C, Yu Y, Liu Y, Li PY, Lu RP.Efect of acetone extract of Rumex japonicas Houtt on hydrogen peroxide-induced apoptosis in rat myocardial cells.Trop J Pharm Res.2017;16:135-40.
176.Jeong D, Irfan M, Lee DH, Hong SB, Oh JW, Rhee MH.Rumex acetosa modulates platelet function and inhibits thrombus formation in rats.BMC Complement Med Ther.2020.https://doi.org/10.1186/s12906-020-02889-5.
177.Ahn JH, Kim J, Rehman NU, Kim HJ, Ahn MJ, Chung HJ.Efect of Rumex acetosa extract, a herbal drug, on the absorption of fexofenadine.Pharmaceutics.2020.https://doi.org/10.3390/pharmaceutics12060547.
178.Shim KS, Lee B, Ma JY.Water extract of Rumex crispus prevents bone loss by inhibiting osteoclastogenesis and inducing osteoblast mineraliza-tion.BMC Complement Altern Med.2017;17:483.
179.Idris OA, Wintola OA, Afolayan AJ.Comparison of the proximate com-position, vitamins (ascorbic acid, alpha-tocopherol and retinol), anti-nutrients (phytate and oxalate) and the GC-MS analysis of the essential oil of the root and leaf of Rumex crispus L.Plants.2019.https://doi.org/10.3390/plants8030051.
180.Minh TN, Van TM, Andriana Y, Vinh LT, Hau DV, Duyen DH, de Guzman-Gelani C.Antioxidant, xanthine oxidase, alpha-amylase and alpha-glucosidase inhibitory activities of bioactive compounds from Rumex crispus L.root.Molecules.2019.https://doi.org/10.3390/molecules2 4213899.
181.Colon-Gonzalez F, Kim GW, Lin JE, Valentino MA, Waldman SA.Obesity pharmacotherapy:what is next.Mol Aspects Med.2013;34:71-83.
182.George G, Sengupta P, Paul AT.Optimisation of an extraction conditions for Rumex nepalensis anthraquinones and its correlation with pancreatic lipase inhibitory activity.J Food Compos Anal.2020.https://doi.org/10.1016/j.jfca.2020.103575.
183.El-Kashak WA, Elshamy AI, Mohamed TA, El Gendy AE-NG, Saleh IA, Umeyama A.Rumpictuside A:unusual 9,10-anthraquinone glucoside from Rumex pictus Forssk.Carbohydr Res.2017;448:74-8.
184.Tiwari RD, Sinha KS.Chemical examination of Rumex hastatus D.Don.Indian J Chem.1980;19B:531-2.
185. Halim AF, Fattah HA, EI-Gamal AA. Anthraquinones and favonoids of Rumex vesicarius. Annual Conference of the Arab Society of Medicinal Plants Research, National Research Centre, Cairo; 1989.Sci. 2017;125:22-9.
187. Choe SG, Hwang BY, Kim MS, Oh G-J, Lee KS, Ro JS. Chemical compo-nents of Rumex acetosella L. Saengyak Hakhoechi. 1998;29(3):209-16.
188. Zaghloul MG, El-Fattah HA. Anthraquinones and favonoids from Rumex tingitanus growing in Libya. Zagazig J Pharm Sci. 1999;8(2):54-8.
189. Khetwal KS, Manral K, Pathak RP. Constituents of the aerial parts of Rumex nepalensis Spreng. Indian Drugs. 1987;24:328-9.
190. Wang ZY, Cai XQ, Kang YH, Wei F. Structure of two compounds from the root of Rumex gmelini. Chin Tradit Herbal Drugs. 1996;27(12):714-6.
191. Verma KK, Gautam RK, Choudhary A, Gupta GD, Singla S, Goyal S. A review on ethnobotany, phytochemistry and pharmacology on Rumex hastatus. Res J Pharm and Tech. 2020;13(8):3969-76.
192. Nedelcheva A. An ethnobotanical study of wild edible plants in Bul-garia. EurAsia J Biosci. 2013;7:77-94.
193. Harshaw D, Nahar L, Vadla B, Saif-E-Naser GM, Sarker SD. Bioactivity of Rumex obtusifolius (Polygonaceae). Arch Biol Sci. 2010;62:387-92.
194. Duke J. Dr. Duke's Phytochemical and Ethnobotanical Databases. http://www.ars-grin.gov/cgi-bin/duke/ethnobot.pl?ethnobot.taxon=Rumex%20.obtusifolius. Accessed 20 Mar 2022.
195. Paniagua-Zambrana NY, Bussmann RW, Echeverria J. Rumex acetosella L. Rumex crispus L. Rumex cuneifolius Campd. Polygonaceae. Ethnobot Andes. 2020. https://doi.org/10.1007/978-3-319-77093-2_255-1.
196. Dabe NE, Kefale AT, Dadi TL. Evaluation of abortifacient efect of Rumex nepalensis Spreng among pregnant swiss albino rats:laboratory-based study. J Exp Pharm. 2020;12:255-65.
197. Pareek A, Kumar A. Rumex crispus L. A plant of traditional value. Drug Discov. 2014;9(20):20-3.
198. Sõukand R, Pieroni A. The importance of a border:Medical, veterinary, and wild food ethnobotany of the Hutsuls living on the Romanian and Ukrainian sides of Bukovina. J Ethnopharmacol. 2016;185:17-40.
199. Yang J, Luo JF, Gan QL, Ke LY, Zhang FM, Guo HR, Zhao FW, Wang TH. An ethnobotanical study of forage plants in Zhuxi County in the Qinba mountainous area of central China. Plant Divers. 2021;43(3):239-47.
200. Svanberg I. The use of wild plants as food in pre-industrial Sweden. Acta Soc Bot Pol. 2012;81(4):317-27.
201. Kwak HS, Park SY, Nguyen TT, Kim CH, Lee JM, Suh JS, Whang WK, Sohn UD. Protective efect of extract from Rumex aquaticus herba on ethanol-induced gastric damage in rats. Pharmacology. 2012;90:288-97.
202. Verloove F, Chambouleyron M, Léger JF. Rumex chalepensis (Polygonaceae), a new species for Morocco and Africa. Mediterr Bot. 2022;43:e74654.
203. Ammar NM, Ayoub NA, El-Ahmady SH, El-Kassem LTA, Zeid EMA. Phytochemical and cytotoxic studies of Rumex pictus forssk and Rumex vesicarius L. (family Polygonaceae), growing in Egypt. Eur J Med Plants. 2015;10(3):1-13.
204. El-Fattah HA, El-Dahmy S, Abdel-Aal M, Halim A, Abdel-Halim O. Phenolic constituents from Rumex bucephalophorus growing in Libya. Zagazig J Pharm Sci. 1994;3(1):88-91.
205. Rodríguez-León E, Íñiguez-Palomares RA, Navarro RE, Rodríguez-Beas C, Larios-Rodríguez E, Alvarez-Cirerol FJ, Íñiguez-Palomares C, Ramírez-Saldaña M, Martínez JH, Martínez-Higuera A, Galván-Moroyoqui JM, Martínez-Soto JM. Silver nanoparticles synthesized with Rumex hymenosepalus extracts:efective broad-spectrum microbicidal agents and cytotoxicity study. Artif Cells Nanomed Biotechnol. 2018;46(6):1194-206.
206. Cole JR, Buchalter L. Isolation of a potential antitumor fraction from Rumex hymenosepalus. J Pharm Sci. 1965;54(9):1376-8.
207. Azzam MM, Qaid MM, Al-Mufarrej SI, Al-Garadi MA, Albaadani HH, Alhidary IA. Rumex nervosus leaves meal improves body weight gain, duodenal morphology, serum thyroid hormones, and cecal microfora of broiler chickens during the starter period. Poult Sci. 2020;99(11)

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