1. Introduction 

There are various medicinal plants which are known to have an inhibitory effect against SARS-CoV, HCoV-22E9, MERS-CoV and other viral infections. They were chosen specifically due to their mode of action and potency, and have been used and researched with ethnobotanical evidence against coronaviruses or other viruses (HIV, Influenza, etc.). Coronaviruses belong to positive sense RNA viruses and mostly use the ACE-2 (Angiotensin-converting enzyme-2) receptor, 3CLpro (3 Chymotrypsin-like protease), PLpro (Papain-like protease), RdRp (RNA-dependent RNA polymerase) enzyme and other known factors to gain entry into the human cell and complete the life cycle. Thereby, all these selected plants have been tested by various researchers globally to act on these specific target proteins and receptors, and, moreover, inhibit RNA replication in the other viruses too. This was the chief rationale in selecting these plants, which are described in detail below with their mode of action, which may also possibly be considered as a therapeutic choice against SARS-CoV-2. This presentation is designed in order to open new pathways towards the management of highly contagious diseases with the help of natural compounds.

9. Lindera aggregate (Sims) Kosterm.

Lindera aggregate(L. aggregate) is a traditional Chinese medicinal plant belonging to the Lauraceae family and mostly found in China and Japan ^[37][67]. The root of this plant is mostly used to treat chest pain, inflammation, indigestion, cold hernia and other diseases. It contains several bioactive components, such as flavonoids, isoquinoline alkaloids, sesquiterpene lactones and tannins ^[38][39][68,69]. Moreover, L. aggregate has also showed other biological activities such as antiviral, anti-tumor, anti-inflammatory, antimicrobial and anti-diabetic activities ^[18][39][40][48,69,70]. L. aggregate leaves can also be used to drink as tea, due to their protective effect against oxidative stress ^[40][70]. In 2005, Shi-you Li et al. investigated the effect and efficacy of L. aggregate roots against SARS-CoV-1 ^[20][50]. An in vitro study showed that L. aggregate is able to inhibit SARS-CoV-1 with EC₅₀ value of 88.2 ± 7.7 µg/mL ^[20][50]. However, the mode of action is still not clear, but it was suggested that L. aggregate roots can possibly inhibit the viral replication and block the entry of virus ^[20][50].

10. Rheum palmatum L.

This herbal plant belongs to the family of Polygonaceae. It is mostly found in mountainous regions with high elevations, such as the Sichuan, Gansu and Shaanxi regions of China ^[41][81]. It is effectively used as a laxative or astringent for the treatment of stomachache, hemorrhoids, liver bile disease or gastroenteritis ^[42][243]. It contains some potent bioactive compounds including emodin, physcion, chrysophanol, rhein and aloe-emodin ^[43][44][80,82]. Known biological activities are antiviral, anti-pyretic, anti-neoplastic, anti-spasmolytic, antibacterial, laxative, hemostatic and anti-spasmodic ^{[45][41][44][46]}[79,81,82,244]. It was also used against SARS-CoV-1 infection, due to its potential efficacy for acting on the ACE-2 receptor, leading to blockage of viral entry into cells and replication of the CoVs ^[47][43][78,80]. An in vitro study conducted by Ho et al. 2007 showed the potential of Radix et Rhizoma Rhei (root tubers of Rheum palmatum L.) in blocking the entry of SARS-CoV-1 to inhibition sites such as the ACE-2 receptor ^[47][78].

Furthermore, the major active component of this plant is emodin, which is responsible for blocking the binding of SARS-CoV-1 S protein to ACE-2 receptor ^[47][43][78,80]. Therefore, the use of emodin extracted from Radix et Rhizoma Rhei can be considered for the possible therapeutic management of COVID-19. This will possibly provide us with new insight into therapy against SARS-CoV-2.

11. Polygonum multiflorum Thunb.

Polygonum mulitflorum Thunb (PMT) is mostly found in China, Korea and Japan, belonging to Polygonaceae family ^[48][245]. Radix Polygoni multiflori (root tubers of PMT) is mostly used in treating many kinds of diseases, such as rubella, scrofula, waist and knee pain, paralysis, vaginal discharge, hypercholesterolemia (liver and kidney), malaria, and various other diseases, possessing neuro-protective, antioxidation, immunomodulation, anti-hyperlipidemia, anticancer, heap-toprotection, anti-inflammation, and anti-CoV functions ^[49][50][51][86,87,246]. The potent bioactive compounds present in PMT which are responsible for the therapeutic effects against various diseases are listed in Table 1 ^{[52][53][54][55]}[84,85,88,247]. However, Ho et al. found that emodin is the most effective compound against SARS-CoV-1. The data were published to show the potential and efficacy of PMT in blocking the entry of SARS-CoV-1 by acting on the ACE-2 receptor ^[47][78]. The mode of action of PMT is

similar to Rheum palmatum L and the major active constituent is found to be emodin in both plants.

Therefore, it is highly recommended to focus on emodin for possible and effective management of SARS-CoV-2 infection, combination with other therapeutic approaches.

12. Cerasus avium (L.) Moench.

This Persian medicinal plant belongs to the Rosaceae family and is mostly used as an antioxidant, antimicrobial and antiviral ^[56][93]. Its stem contains polyphenols, carotenoids, vitamins, minerals and many other bioactive components ^[57][58][90,248]. However, this plant has strong potential to act on the ACE-2 receptor and block the further processing of the viruses ^[47][59][60][78,92,94]. According to Ziai et al.’s 2009 in vitro study, this plant showed very good potential to inhibit or completely block the ACE-2 receptor ^[60][94]. Subsequently, Heidary et al., 2020 recently suggested that this plant has good potency

against SARS-CoV-2 and must be used for the treatment of its infection ^[61][91].

13.  Alcea digitata (Boiss.) Alef.

Alcea digitata (A. digitate) is a Persian medicinal plant belonging to the Malvaceae family with antiviral, antioxidant, anti-inflammatory, antimicrobial, anti-tussive, expectorant and laxative therapeutic effects ^[62][63][96,97]. The flowers of A. digitata have been used for lung and respiratory disorders, head and neck cancer, and lubrication of the throat ^[63][97]. According to one published report ^[62][96], A. digitata is known to have good potential to block or inhibit the ACE-2 receptor. Recently, Heidary et al., 2020 suggested that A. digitata can possibly show good inhibitory effects against SARS-CoV-2 infection ^[61][91].

14. Citrus aurantium L.

Citrus aurantium (C. aurantium) belongs to the family of Rutaceae and is generally known as bitter orange ^[64][249]. This plant is known to have many essential components with biological effects ^[65][66][100,101], such as phenolics (flavanone glycosides, hydroxycinnamic acids), vitamin C, and carotenoids [99,249,250]. However, C. aurantium fruit extract is manly used for the treatment of anxiety, lung related diseases, obesity, gastrointestinal disorders and prostate cancer ^[64][67][249,251], buts

has potential to inhibit or block the ACE-2 receptor. Some in vitro studies have shown its efficacy in inhibiting ACE-2 receptors ^[61][91].

15. Rubia tinctorum L.

Rubia tinctorum (R. tinctorum) is mostly found in Southern Europe, Western Asia and North Africa and belongs to the family of Rubiaceae ^[68][252]. R. tinctorum is mostly used to treat kidney and bladder stones, and menstrual and urinary disorders ^[69][70][104,253]. Furthermore, the root of R. tinctorum contains red color due to the presence of anthraquinone, alizarin and pseudopurpurin, which is also used for dyeing purposes ^[71][103]. On the other hand, R. tinctorum has shown potential to inhibit or block the ACE-2 receptor ^[61][91]. in vitro studies revealed the efficient use of R. tinctorum to inhibit ACE-2

receptors ^[61][91].

16. Allium sativum L.

The common name of Allium sativum (A. sativum) is garlic, and it belongs to the Amaryllidaceae family. A. sativum use for human welfare has been reported for thousands of years in the form of a spice ^[72][108]. It is an aromatic herbaceous plant and is consumed worldwide as a food as well as a remedy for different diseases ^[72][108]. A. sativum is reported to have numerous

biological properties, such as antibacterial, antifungal, anti-carcinogenic, antioxidant, anti-diabetic, reno-protective, anti-atherosclerotic, and anti-hypertensive effects. Cloves of this traditional medicinal plant contain several potent components, such as alliin, allicin, ajoenes, vinyldithiins, and flavonoids ^{[72][73][74][75][76]}[108,109,254–256], due to which it is mostly used for treatment of various disorders ^{[77][78][72][73][79]}[106–109,257]. On the other hand, an in vitro study conducted by Ziai et al., 2009 on A. sativum and its potential efficacy to inhibit the ACE-2 receptor reported some effective results ^[60][94].

17. Quercus infectoria G. Olivier.

Quercus infectoria (Q. infectoria) is commonly known as gall oak and belongs to the family of Fagaceae ^[80][112]. This medicinal plant is traditionally used for the treatment of diarrhea, menorrhagia, dysentery, gonorrhea, tonsillitis, impetigo and internal hemorrhages ^[80][81][112,258]. Bioactive constituents of Q. infectoria gall extract include phenolic compounds (catechol, p -hydroxybenzoic acid, caffeine, catechin, pyrogallol, e-vanillic acid, 3-hydroxytyrosol cinnamic, p-coumaric, gallic acids and resveratrol), flavonoids (naringin, rutin, 7-hydrohyflavone and hispertin) ^[82][83][84][111,259,260] with biological activities such as antiviral, antifungal, antibacterial, antioxidant, anti-inflammatory, anti-diabetic, anti-parasitic, anti-venom, etc. ^[80][85][86][112,114,261]. Q. infectoria has also shown strong potential to completely block the ACE-2 receptors due to the presence of many potent and tannin active components in vitro ^[87][113]. Similarly, this medicinal plant can also be considered for combinational therapeutic approaches in controlling the COVID-19 pandemic directly or indirectly.

18. Onopordum acanthium L.

Onopordum acanthium (O. acanthium) basically belongs to a family of Asteraceae and is commonly known as Scotch thistle ^[88][118]. It is found all over the world ^[89][262]. The biological activities of O. acanthium include antiviral, anti-tumor, anti-inflammatory and antioxidant effects. Extracts from the leaf, flower, stem and root of O. acanthium are also used as cardiotonic agents. O. acanthium contains many bioactive components, such as flavonoids, triterpenoids, lignans, phenylpropanoids, sesquiterpene lactones, and sterols ^[90][91][89][116,117,262]. Moreover, O. acanthium has shown efficacy to completely inhibit the activity of ACE-2 due to the presence of tannin bioactive components, as demonstrated by Sharifi et al., 2013 in his in vitro study. This makes it a considerable choice to test against SARS-CoV-2.

19. Berberis integerrima Bunge.

Berberis integerrima (B. integerrima) belongs to the family of Berberidaceae, with different parts of the plant showing different colors ^[92][121]. It is mostly found in Iran and contains many types of alkaloids ^[93][122]. Bioactive components extracted from the root of B. integerrima include berbamine, berberuin, palmatine, oxyacanthine, malic acid, ascorbic acid, caffeic acid, ursolic acid, coumarin, beta-carotene and tannin ^[94][93][120,122]. B. integerrima possesses many bioactive properties, such as antiviral, anti-inflammatory, anti-hyperglycemic, anti-hyperlipidemic, anticancer, and antioxidant effects, as well as being a liver protective agent ^[94][92][93][120–122]. Moreover, this medicinal plant was tested by Sharifi et al., 2013 in vitro. His team showed that the usage of a 330 µg/mL concentration of B. integerrima was able to inhibit the ACE-2 receptor due to 88.2 ± 1.7 IC50 ^[87][113]. Therefore, B. integerrima can be further investigated for its potent medicinal values and may provide fruitful results against SARS-CoV-2.

20. Crataegus microphylla C. Koch

This medicinal plant belongs to the family of Rosaceae and almost all parts of the plant are used for remedial purposes ^[95][126]. It is widely used for the treatment of many diseases, including heart muscle cells activation, coronary dilation, regulated blood flow, use as an antioxidant and anti-diabetic, and many others ^[96][95][125,126]. It contains flavonoids (phenols, phenolic acids, procyanidins, flavonoids, triterpenes, polysaccharides, catecho-lamines) which help in controlling/regulating various diseases ^{[94][97][96][95]}[120,124–126]. Furthermore, it has also showed efficacy to inhibit the ACE-2 receptor and prohibit the entry of virus into the cell ^[87][113]. in vitro results suggested the use of a 330 µg/mL concentration of Crataegus microphylla was able to inhibit the virus binding to the ACE-2 receptor, and their IC50 was observed as 80.9 ± 1.3 ^[87][113]. The occurrence of some potential bioactive compounds in this medicinal plant and their efficacy against SARS-CoV-2 must be tested for better drug therapy to manage COVID-19.

21. Alnus japonica (Thunb.) Steud.

Alnus japonica (A. japonica) belongs to Betulaceae family and originally it was found in Japan, Korea, China and Russia ^[98][128]. This medicinal plant has wide range of biological activities comprising antiviral, anticancer, anti-inflammatory, and antioxidant effects, as well as the induction of lymphatic and gastroenteric disorders ^[98][99][128,130]. It is mostly used for the treatment of various diseases such as fever, cancer, and blood, lymphatic and gastroenteric disorders ^[100][263]. Additionally, and most importantly, A. japonica has been known to have an antiviral effect on SARS-CoV, and its potent bioactive compounds include hirsutenone, oregonin, rubranoside rubranoside B, rubranol, and hirsutanonol, which are extracted from the bark of the A. japonica plant ^[99][130]. These bioactive components have also been recommended as a promising medicinal plant for the development of potential drugs against SARS-CoV PLpro. In 2012, Park et al. investigated the effect and efficacy of A. japonica bark against SARS-CoV.

An in vitro study showed that A. japonica is able to inhibit the SARS-CoV PLpro with IC50 value ranging 21 of 41 from 3 to 44.5 µM of these compounds (hirsutenone, oregonin, rubranoside rubranoside B, rubranol, and hirsutanonol) ^[99][130]. However, the mode of action suggested that A. japonica bark can possibly inhibit the SARS-CoV PLpro activity.

22. Psoralea corylifolia L.

Psoralea corylifolia (P. corylifolia) belongs to the Leguminosae family and mostly occurs in India, China, Bangladesh, Indonesia, Malaysia, Sri Lanka and other Asian countries. P. corylifolia is known for its antiviral, antioxidant, antibacterial and anti-depressant activities ^[101][102][132,133]. Furthermore, it contains several potent bioactive components such as neoba-vaisoflavone, isobavachalcone, Bavachinin, 40–O-methyl bavachalcone, corylifol A, and psoralidin ^[103][264]. In 2014, Kim et al. investigated the effect of P. corylifolia seed extract and showed an imperative inhibitory effect of SARS-CoV PLpro, and their IC50 was 15 µg/mL ^[104][134]. Furthermore, all these bioactive components were tested by Kim et al., and the IC50 of these components against SARS-CoV PLpro was estimated to range between 4.2 to 38.4 µM. In addition, psoralidin and isobavachalcone showed the highest inhibitory activity against SARS-CoV PLpro, with IC50 of 4.2 ± 1.0 µM and 7.3± 0.8 µM, respectively ^[104][134].

23. Paulownia tomentosa (Thunb.) Steud.

Paulownia tomentosa (P. tomentosa) is an old Chinese medicinal plant belonging to the Scrophulariaceae family. It is mostly found in central and western China, Taiwan and Korea. P. tomentosa has wide-ranging biological activities comprising antiviral, antioxidant and antibacterial effects ^[105][106][136,138]. It is mostly used for the treatment of various diseases, such as inflammatory bronchitis, upper respiratory tract infection, asthma, tonsillitis, gonorrhea, traumatic bleeding, enteritis, bacteriological diarrhea, erysipelas, swelling, bronchopneumonia, conjunctivitis, and hemorrhoids ^[107][108][139,265]. Furthermore, P. tomentosa has been known to have an antiviral effect on SARS-CoV PLpro. P. tomentosa fruit contains many bioactive components such as tomentin A, tomentin B, tomentin C, tomentin D, tomentin E, geranylated flavonones and others ^[109][137].

In 2013, Cho et al. examined the effect and efficacy of P. tomentosa fruit-extracted bioactive components against SARS-CoV. An in vitro study showed that P. tomentosa is able to inhibit SARS-CoV PLpro activity with an IC50 value ranging from 5.0 to 14.4 µM ^[109][137]. Out of all those studied, Tomentin E showed the most promising and highest inhibitory effect against SARS-CoV, with the lowest IC50 5.0 ± 0.06 µM ^[109][137].

24. Tribulus terrestris L.

Tribulus terrestris (T. terrestris) is mostly found in China, India, Pakistan, South Americas, Bulgaria, Mexico and Spain, and is considered as a traditional medicinal plant. T. terrestris belongs to the Zygophyllaceae family and possesses several biological activities such as antiviral, anti-inflammatory, antioxidant, anti-tumor, anti-diabetic and anti-urolithic properties ^[110][111][141,143]. It contains several bioactive compounds, mainly flavonoids and alkaloids ^[112][113][142,266]. In 2014, Song et al. studied the effect of T. terrestris fruit extract (six cinnamic amides), and showed significant inhibitory effects against SARS-CoV PLpro ^[112][142]. Furthermore, all bioactive components tested by Song et al. against SARS-CoV PLpro were estimated to have an IC50 in a range between 15.8 and 70.1 µM ^[112][142]. However, terrestrimine[(E)-N-(1-hydroxy-2-(4-hydroxyphenyl)-2-oxoethyl)-3-(4-hydroxy3-methoxypheny) acrylamide] showed the utmost inhibitory activity against SARS-CoV PLpro with an IC50 of 15.8 ± 0.6 µM ^[112][142].

25. Sambucus nigra L.

This plant belongs to the family of Caprrifoliaceae and is mostly used in the treatment of common cold, HIV, HSV-1, influenza, urinary tract infection, edema and other rheumatic diseases ^[114][115][149,267]. It contains several active components extracted from the leaves, flower and fruit parts of the plant, such as flavonoids, lectins, anthocyanin, etc., which have been found to increase the immunity and inhibit the viral activity ^{[116][117][118][119]}[150,152,153,154]. However, in case of the H1N1 influenza virus, this plant has shown great potential to block or impede the entry of the virus into the host cells ^{[114][120][121]}[149,155,268]. Furthermore, the presence of lectins in this plant is responsible for controlling the symptoms or pathogenesis of the influenza virus ^[114][122][149,151]. It also has immunomodulating activity due to the presence of peptic polysaccharides, polyphenolic compounds and flavonoids ^[114][149]. Due to several significant and antiviral relevant properties of this plant, it can possibly be used against SARS-CoV-2.

26. Eleutherococcus senticosus (Rupr. & Maxim.) Maxim.

Eleutherococcus senticosus (E. senticosus) belongs to the family of Araliaceae and is mostly found in China, Japan and Korea ^[123][269]. E. senticosus is used for the treatment of chronic coughing, ischemic heart disease, diabetes, cancer, altitude sickness, neurodegenerative disorders, and chronic fatigue ^{[114][124][123][125]}[149,159,269,270]. Moreover, its leaves are used as food in the form of tea, wine, soups and many others ^[126][271]. E. senticosus leaves have the potential efficacy to inhibit bacterial glucosidase activity, reported in in vitro results by many researchers. The nature of the component of E. senticosus responsible for its antiviral activity remains to be determined, and is currently under investigation together with the characterization of the target molecules and the molecular basis of the antiviral efficacy of E. senticosus. However, its extract is able to inhibit the replication of the influenza virus, and viral replication is common in all kinds of viruses ^{[127][128][124][129]}[157,158,159,272]. Several potent bioactive components are known to be present in the roots of this medicinal plant, such as phenols, lignans, coumarins, phenylpropanoids, flavonoids, hyperin, rutin, afzelin, quercetin, kaempferol, phenolic acids, triterpenic acids, and anthocyanin, etc. Due to the presence of these bioactive compounds, in vitro results showed some antiviral activity too, by blocking the replication of influenza virus in the cells ^[114][130][149,273]. Therefore, it is a possible recommendation that plant should go further investigation and may be helpful in directly or indirectly controlling SARS-CoV-2.

27. Salvia miltiorrhiza Bunge

This plant belongs to the family of Lamiaceae and is commonly known as red sage ^[131][274]. Its bioactive components are extracted from the root, including lipophilic diterpenoids, flavonoids, triterpenoids and hydrophilic phenolic compounds ^{[132][131][133]}[163,274,275]. It is also used for the treatment of various diseases, such as removing blood stasis, improving blood circulation, atherosclerosis, thrombosis, angina pectoris, other cardiovascular diseases and antiviral activity of HIV-1 and Enterovirus by inhibiting RdRp enzyme activity ^{[134][135][132][136]}[161,162,163,164].

28. Acacia arabica (Lam.) Willd.

Acacia arabica (A. arabica) belongs to the family of Fabaceae and is widely distributed in Asian regions ^[137][167]. It is basically used for the treatment of various diseases, such as Newcastle disease, vaccinia virus, bursal disease virus, H9N2 influenza disease, skin diseases, and possesses many biological properties including antimicrobial, anti-diabetic, and antioxidant effects. The mechanism of action of A. arabica is known. It specifically inhibits the stage of viral intracellular multiplication ^{[114][137][138][139]}[149,167,168,169]. Furthermore, A. arabica contains several bioactive components extracted from the leaves of the plant which are responsible for its bioactivity, such as flavonoids, methyl 3,4,5 tri hydroxyl benzoate, p-coumaroyl glucoside, p-coumaroylquinic acid, ferulic acid, isoferulic acid, epicatechin-3-gallate, ascorbic acid, quercetin 3-O-(4′-O-acetyl)-rhamnopyranoside, oleic acid, myristic acid, palmitic acid and steroidal sapogenin aglycone ^{[140][137][138][141]}[166,167,168,276]. A. arabica also has the potential to inhibit the viral replication against HIV infection ^[114][139][149,169]. Due to its antiviral nature, it is highly recommended to use A. arabica for controlling/managing SARS-CoV-2 infection.

29. Ocimum sanctum L.

Ocimum sanctum (O. sanctum) belongs to the family of Lamiaceae and is commonly known as tulsi ^[137][142][167,173]. This aromatic plant is basically found in all Asian countries. It is used for the treatment of diseases such as cough, anxiety, arthritis, dysentery, diarrhea, asthma, fever, skin and eye disorders, otalgia, gastrointestinal disorders, cardiac and genitourinary disorders, back pain, snake, insect and scorpion bites, malaria, and H9N2 influenza disease ^{[143][137][138][142][144]}[16,167,168,173,178]. The leaves of O. sanctum contain several bioactive compounds, such as alkanoids, saponins, tannins, flavonoids, phenols, anthocyanins and triterpenoids ^{[137][145][142]}[167,172,173]. However, this medicinal plant has the potential to block the activity of different pathogens and can act as a potent antiviral, antifungal, anti-protozoan, anti-malarial, anti-helminthic, antibacterial, mosquito repellent, etc.; its other clinical activities are detailed in Table 1 ^{[137][146][145][142][147][148][149][150]} [167,171,172,173,174,175,176,177]. Ghoke et al. showed that treatment with the crude extract derived from the leaves of O. sanctum leads to significant H9N2 virus reduction in assessing all three—virucidal, therapeutic and prophylactic—activities using an in vivo model. They suggested that the crude extract of O. sanctum could be a promising extract for developing safe and efficacious antiviral compounds against the H9N2 virus. The protecting effectiveness of the crude extract of O. sanctum might be ascribed to multiple mechanisms of action (specific inhibition of viral intracellular multiplication stage and non-specific interference with virus–cell interactions such as masking/blocking the HA glycoprotein ^[137][167]. Due to these vast known biological properties, it would be of great importance to study the potential particular active ingredient or combinations, which are responsible for its broader antiviral activity, further. Therefore, O. sanctum might be helpful for the treatment of COVID-19, and can potentially block the entry of virus as well as its replication.

30. Ocimum basilicum L.

This medicinal herb belongs to the family of Lamiaceae and it is also known as sweet basil ^[114][151][149,181]. It is mostly used in industries as food, perfumes and cosmetics ^[151] [181] due to its potent antiviral, anti-inflammatory, antioxidant and antibacterial activities ^{[152][151][153][154]}[180,181,183,184]. Moreover, it contains several bioactive components such as phenolic compounds, flavonoids and anthocyanin extracted from the whole plant of O. basilicum ^{[155][153][154]} [182,183,184]. This herb has been used for HIV treatment and showed very good potential to inhibit the replication of the HIV virus, and blocks further viral processing ^[114][151][149,181].

31. Theobroma cacao L.

32. Pelargonium sidoides DC.

Pelargonium sidoides (P. sidoides) belongs to the family of Geraniaceae and is commonly known as Umckaloabo ^[162][191]. It is found all over the world and roots of this plant are traditionally used for remedial purposes against tuberculosis, respiratory diseases, cough, gastrointestinal infection, viral diseases and others ^[162][163][191,193]. P. sidoides roots are known to have some potent compounds, such as methoxycoumarin, proanthocyanidins and prodelphinidins ^[164][192]. Furthermore, its roots are also used for the production of herbal drugs known as EPs 7639 by ethanolic extract, which have been approved for the treatment of respiratory tract infections ^[162][165][191,194]. According to Theisen et al., 2012, P. sidoides also has the potential to inhibit the viral entry of the influenza virus ^[165][194]. Therefore, it is suggested that roots of P. sidoides should be further investigated for the treatment of COVID-19.

33. Taraxacum officinale (L.) WEB. ex WIGG.

This medicinal plant belongs to the family of Asteraceae and it is commonly known as dandelion ^[18][48]. It is traditionally used for the treatment of various diseases such as kidney diseases, lung diseases, breast tumor, diabetes, uterus infections, digestive system related abnormalities, etc. ^[166][167][198,279]. Pharmacological research has proven the efficacy of this medicinal plant as antiviral, antibacterial, choleretic, anti-diabetic, anti-inflammatory, antioxidant, hepato-protective, diuretic and antifungal ^[166][198]. It contains several bioactive components, extracted from the aerial parts and roots, such as terpenes, flavonoids, phenolic compounds, terpenoids, triterpenoids, steroids, coumarins, phenols, saponins, flavones, flavonols, chalcones, phlobatannins, and cardiac glycosides ^{[168][169][170]}[196,197,280]. Han et al., 2011 found the potential of this medicinal plant to inhibit the viral replication of HIV ^[171][199]. Similarly, Lee et al., 2012 also suggested its potential to enhance pro-inflammatory cytokines and improve the immune system ^[172][201]. Furthermore, it is also known to inhibit the influenza virus’ entry into cells ^[18][173][48,200]. Therefore, due to its vast and significant antiviral properties, it is highly recommended to conduct further investigation on this medicinal plant for the discovery of potent drugs against COVID-19.

34. Illicium oligandrum Merr & Chun

Illicium oligandrum (I. oligandrum) belongs to the family of Magnoliaceae, being a rich source of seco-prezizaane type sesquiterpenes ^[174][203]. It is known to have antiviral activity against herpes simplex virus type 2, coxsackie virus and influenza virus ^[175][176][204,206]. It has some potent bioactive compounds, such as sesquiterpene lactones, neolignan glycosides, phenolic diglycosides and prenylated compounds which are responsible for its antiviral activities ^[175][176][204,206]. However, this medicinal plant is also used for the treatment of rheumatoid arthritis, and neurotoxic and neuro-trophic effects ^[177][205]. Ma et al., 2013 reported the ethanolic extraction of spirooliganones A 1 & B from the roots of I. oligandrum and showed its potential to inhibit the activity of influenza virus (H3N2) (IC₅₀ 3.70–33.33 µM) and coxsackie virus B3 ^[175][204].

35. Glycyrrhiza glabra L.

Glycyrrhiza glabra (Liquorice) belongs to the family of Fabaceae and is among the most ancient medicinal plants ^[178][212]. It has several very well-known biological activities, such as antiviral (HIV, SARS-CoV), anti-inflammatory, antimicrobial, antioxidant, anti-tumorigenic and anti-ulcer properties ^[179][180][209,210]. The root of Liquorice is known to have many bioactive components, including flavonoids, glycyrrhizic acid, triterpenoid, saponins, etc. ^[180][178][210,212]. Few studies showed that chalcones extracted from Liquorice have the ability to block or inhibit the activity of influenza virus ^[18][181][48,208]. Therefore, there is a possibility that this plant might be useful against SARS-CoV-2 due to its antiviral properties.

36. Angelica keiskei (Miq.) Koidz.

Angelica keiskei (A. keiskei) belongs to the family of Umbelliferae, and its leaves are basically used for remedial purposes ^[182][147]. Its bioactive components include chalcones, flavanones and coumarins, coumarins phenolic, acetylenes, sesquiterpene, diterpene, and triterpenes ^[183][184][144,146]. A. keiskei is known and considered to be antiviral, anticancer, anti-inflammatory, anti-obesity, anti-oxidative, anti-coagulant, anti-tumor, anti-mutagenic, anti-diabetic, antibacterial and hepato-protective ^{[183][185][184]}[144,145,146]. Park et al., 2016 extracted bioactive components (9 alkylated chalcones and 4 coumarins) from A. keiskei plant ^[184][146], and revealed that the extracted chalcones were able to significantly block the entry of coronavirus (SARS-CoV-1) by inhibiting the chymotrypsin-like protease (75% inhibition using 30 µg/mL dose) and a papain-like protease (88% inhibition using 30 µg/mL dose) ^[184][146]. In addition, the IC₅₀ of this chalcone and chalcone 6 are 11.4 and 1.2 µM, respectively ^[184][146]. Therefore, due to this very specific inhibition property of A. keiskei deserves further investigation for the development of potent antiviral agents against COVID-19.

37. Polygala karensium Kurz

Polygala karensium (P. karensium) is a medicinal plant belonging to the family of Polygalaceae and can mostly be found in China, Myanmar, Thailand, and Vietnam ^[186][215]. It has important and potent bioactive compounds, i.e., xanthones, which have shown many biological activities such as antiviral, antimicrobial, antioxidant, cytotoxicity, etc. ^{[187][186][188]}[214,215,216]. In addition, it is also used to treat various ailments such as cough, bronchitis, neurasthenia, inflammation and amnesia ^[186][215]. However, Dao et al., 2012 conducted one in vitro study on H1N1, H9N2, and novel H1N1 (WT) strains using ethanol-extracted xanthones from the root of P. karensium, and found that xanthones have the potential to completely inhibit influenza virus activity ^[187][214]. Therefore, xanthones from P. karensium can also be one of the choices worth investigation for the further development of phytomedicine against SARS-CoV-2.

38. Calophyllum brasiliense Cambess.

Calophyllum brasiliense (C. brasiliense) is a medicinal plant, and basically belongs to the family of Clusiaceae, mostly found in South America, Central America and the Caribbean region ^[189][218]. It is used as a remedy to treat several diseases, such as parasitic, viral, bacterial and fungal diseases ^[189][190][218,220]. Its potent biological activities include antiviral, antibacterial, anti-protozoal and antifungal effects ^[189][191][218,219]. However, Kudo et al., 2013 investigated the role of this medicinal plant in HIV disease, firstly by extracting tricyclic coumarin from the leaves of C. brasiliense and testing in vitro ^[190][220]. Hence, they revealed that tricyclic coumarin from C. Brasiliense possesses great potential to inhibit viral replication by blocking the NFkB pathway ^[190][220].

39. Cimicifuga foetida L.

Cimicifuga foetida (C. foetida) belongs to the family of Ranunculaceae and it is also known as Shengma. It is abundantly distributed in Asian region ^[192][225]. It is basically used to treat various ailments, such as fever, headache, sore throat, toothache, uterine prolapse and inflammation ^[193][224]. It contains several bioactive compounds extracted from rhizomes, including cycloartane triterpenoids and glycosides with antiviral, anti-tumor, anti-inflammatory activities ^[192][225]. Wang et al., 2012 investigated the role of C. foetida, especially the cimicifugin component of it, against Respiratory Syncytial Virus, and found that the plant has a strong potential to inhibit viral attachment and internalization ^[194][193][223,224]. Moreover, cimicifugin was also able to stimulate epithelial cells and initiate the secretion of cytokines such as IFN-β, to clear the viral infection/load ^[195][281]. Furthermore, another in vitro study conducted by Dai et al., 2016 observed the potential of C. foetida in inhibiting the hepatitis B virus transcription and replication by producing pro-inflammatory cytokines ^[196][222]. Due to the capacity of producing strong pro-inflammatory cytokines and immunomodulatory properties, C. foetida can be used to treat COVID-19 disease.

40. Boerhavia diffusa L.

Boerhavia diffusa (B. diffusa) belongs to the family of Nyctaginaceae and is commonly known as punarnava ^[197][282]. It is mostly found in Asian countries and is basically used for the treatment of various diseases, such as abdominal pain, jaundice, dyspepsia, stress, spleen enlargement and liver diseases ^[198][228]. B. diffusa bioactive components extracted from leaf, stem and root include flavonoids, triterpenoids, alkaloids, hypoxanthine, steroids, lipids, lignin, proteins, ursolic acid, boeravinone, punarnavoside, etc. ^[199][200][227,230]. However, Bose et al., 2017 suggested that B. diffusa has a strong potential to inhibit the entry of hepatitis C virus and its major compound (boeravinone H component) were able to block the initial phase of HCV entry through acting directly on the viral particles ^[198][228]. Moreover, Manu et al., 2007 also showed that its second major bioactive compound (Punarnavine) was also able to enhance the immune response, especially IFN-γ and interleukin-2 cytokines ^[201][229]. This categorizes B. diffusa as a therapeutically important plant to be considered under the current circumstances of the COVID-19 pandemic and worth further investigation.

41. Terminalia chebula Retz

Terminalia chebula (T. chebula) belongs to the family of Combretaceae and is mostly found in the Asian region ^[202][283]. It is one of the most important medicinal plants due to the presence of a huge number of different kinds of phytoconstituents ^[203][232]. It is customarily used as a household remedy and also in modern, Ayurveda, Unani and Homoeopathic medicines ^[203][202][232,283]. Its bioactive components extracted from the leaves, bark and fruit of the plant include flavonoids, polyphenols, terpenes, anthocyanins, glycosides, gallic acid, chebulagic acid, punicalagin, chebulanin, corilagin, neochebulinic acid, ellagic acid, chebulinic acid, alkaloids and many more ^{[203][204][205]}[232,237,284]. It is also known to be used as a cure for irregular fevers, urinary diseases, diabetes, skin diseases, heart diseases, constipation, ulcers, vomiting, colic pain, hemorrhoids, digestive diseases, and others ^{[203][206][204]}[232,235,237]. However, T. chebula has many pharmacological activities such as antiviral, antioxidant, antibacterial, antifungal, anti-protozoal, anti-carcinogenic, anti-mutagenic, radio-protective, chemo-preventive, hepato-protective, cardio-protective, cyto-protective, anti-diabetic, reno-protective, anti-inflammatory, anti-arthritic, adaptogenic, anti-anaphylactic, hypolipidemic, hypocholesterolemic, anti-caries, wound healing, anti-allergic, immunomodulatory, anti-ulcer, anti-spasmodic and gastrointestinal motility properties ^{[203][207][206][208][204]}[232,233,235,236,237]. Lin et al., 2013 conducted an in vitro study and found that chebulagic acid and punicalagin from the fruit of T. chebula have the potential to inhibit the activity of different viruses, such as human cytomegalovirus, HCV, dengue virus, measles virus, and respiratory syncytial virus ^[209][234]. Due to its strong biological properties, it is highly recommended to study T. chebula as a possible remedy against SARS-CoV-2.

42. Caesalpinia sappan L.

Caesalpinia sappan (C. sappan) belongs to the family of Caesalpiniaceae and it is usually known as Brazil or Sappan wood ^[191][219]. It is mostly found in Southeast Asian regions and is traditionally used for the treatment of various diseases such as tuberculosis, diarrhea, dysentery, skin infections, anemia, etc. ^[191][210][219,240]. C. sappan is effectively considered as an antiviral, anti-inflammatory, antioxidant, antibacterial, antifungal, and anti-complementary ^{[191][210][211]}[219,240,241]. Its bioactive constituents include xanthone, coumarin, chalcones, flavones, homoisoflavonoids, and brazilin ^[210][240]. Tewtrakul et al., 2015, extracted nine compounds from the roots of C. sappan. The results showed that, out of those nine, sappanchalcone (IC₅₀ 2.3 µM) and protosappanin A (IC₅₀ 12.6 µM) presented the strongest effect against HIV-1 IN ^[210][240]. On the other hand, Liu et al., 2009 also investigated the role of this medicinal plant against influenza virus. The in vitro study showed that 3-deoxysappanchalcone and sappanchalcone component isolated from C. sappan exhibited the highest activity against influenza virus (H3N2), with IC₅₀ 1.06 and 2.06 μg/mL, respectively ^[212][239]. Therefore, sappanchalcone from C. sappan should also be considered for further examination against SARS-CoV-2.