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Medicinal Plants of Tajikistan

  • Farukh Sharopov
  • William N. Setzer
Chapter

Abstract

Many people in Tajikistan rely on medicinal plants as their traditional form of medicine to prevent and cure health disorders. Medicinal plants, in particular, have played an important role for the local people. In this review, we present a summary of the phytochemical contents of medicinal plants from Tajikistan and their uses in traditional medicine.

Keywords

Medicinal plants Tajikistan Phytochemical contents 

Abbreviations

5-LOX

5-Lipoxygenase

ABTS

2,2′-Azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) radical cation scavenging assay

Caco-2

Human colorectal adenocarcinoma cancer

CAE

Caffeic acid equivalent

CCRF-CEM

Human T-cell lymphoblastic leukemia cancer

CEM/ADR5000

Adriamycin-resistant leukemia cancer

DPPH

2,2-Diphenyl-1-picrylhydrazyl radical scavenging assay

DW

Dried weight

FRAP

Ferric reducing antioxidant power assay

HeLa

Human cervical cancer

MBC

Minimum bactericidal concentration

MCF-7

Human breast adenocarcinoma cancer

ME

Methanol extract

MIC

Minimum inhibitory concentration

MRSA

Methicillin-resistant Staphylococcus aureus

PTP

The enzyme of protein-tyrosine phosphatase

QE

Quercetin equivalent

TP

Total phenolic content

TF

Total flavonoid content

WE

Water extract

References

  1. Adams TB, Taylor SV (2010) Safety evaluation of essential oils: a constituent-based approach. In: Baser KHC, Buchbauer G (eds) Handbook of essential oils: science, technology, and applications. CRC Press, Boca Raton, p 994Google Scholar
  2. Adhami HR, Mesgarpour B, Farsam H (2007) Herbal medicine in Iran. Herb Gram 74:35–43Google Scholar
  3. Akobirshoeva A, Olennikov DN (2017) Chemical composition of the essential oil of Ziziphora pamiroalaica Lam. growing in Tajikistan. Chem Plant Resour 1:51–58Google Scholar
  4. Begenov A et al (2014) Assessment of the current status of populations of Kazakh rare plants (Berberis iliensis M. Pop.). World Appl Sci J 30:105–109Google Scholar
  5. Buckingham J, Baggaley KH, Roberts AD, Szabo LF (2010) Dictionary of alkaloids, 2nd edn. CRC Press, Taylor & Francis, Boca RatonGoogle Scholar
  6. Dadobaeva O (1972) Dictionary of scientific and local names of medicinal plants of north of Tajikistan. Irfon, DushanbeGoogle Scholar
  7. Davidyans SB, Sadikov YJ (1963) Preparation of berberine salts on the base of physiological active acids. Reports of the Tajikistan Academy of Sciences, pp 36–38Google Scholar
  8. Dudchenko LG, Kozyakov AS, Krivenko VV (1989) Priyno-aromaticheskie i pryano-vkusovie rasteniya. Naukova dumka, KievGoogle Scholar
  9. Eisenman SW, Zaurov DE, Struwe L (2013) Medicinal plants of Central Asia: Uzbekistan and Kyrgyzstan. Springer, New YorkCrossRefGoogle Scholar
  10. Gachechiladze ND, Korzinikov YS, Glazunova EM, Yusufbekov CY, Bondar BB, Krimskaya NB, Potapova KM (1981) Biochemical and morphological charakteristic form of Hippophae rhamnoides L., growing in west of Pamir. Plant Resour 17:37–42Google Scholar
  11. Glazko VI, Bautin VM (2012) N.I. Vavilov as Organizator of Sciences. Reports of the Timiryazev Agricultural Academy, pp 151–181Google Scholar
  12. Harvey AL (2008) Natural products in drug discovery. Drug Discov Today 13:894–901CrossRefGoogle Scholar
  13. Hojimatov M (1989a) Dikorastushie lekarstvennie rasteniya Tadjikistana. Tadj. Sovet. Ensclopedii, DushanbeGoogle Scholar
  14. Hojimatov M (1989b) Wild medicinal plants of Tajikistan. Tadj. Sovet. Ensclopedii, DushanbeGoogle Scholar
  15. Hojimatov M, Bobokhojaeva S (1976) Composition and contents of biological active compounds of the Conium maculatum L. Reports of Academy of Sciences of the Republic of Tajikistan, vol 63, pp 124–127Google Scholar
  16. Hojimatov M, Ermatov N, Sadikov YJ, Kurbanov M, Nuraliev YN (1979) Composition of coumarins in the some of species of Apiaceae family. Reports of Academy of Sciences of the Republic of Tajikistan, vol 75, p 64Google Scholar
  17. Jahn S, Seiwert B, Kretzing S, Abraham G, Regenthal R, Karst U (2012) Metabolic studies of the Amaryllidaceous alkaloids galantamine and lycorine based on electrochemical simulation in addition to in vivo and in vitro models. Anal Chim Acta 756:60–72CrossRefGoogle Scholar
  18. Jiang L, Numonov S, Bobakulov K, Qureshi MN, Zhao H, Aisa HA (2015) Phytochemical profiling and evaluation of pharmacological activities of Hypericum scabrum L. Molecules 20:11257–11271.  https://doi.org/10.3390/molecules200611257CrossRefPubMedGoogle Scholar
  19. Khusainova KS, Sadikov YJ (1986) Alkaloids of Mahonia aquifolium L. Reports of the Tajikistan Academy of Sciences, pp 64–69Google Scholar
  20. Kinzikaeva GK (1968) The Genius of Salsola, vol 3. Flora of Tajikistan SSR. Nauka, LeningradGoogle Scholar
  21. Kiyamidinova F, Akramov ST, Yunusov SY (1967) Alkaloids of Lindelofia stylosa. Chem Nat Compd 3:411–413Google Scholar
  22. Korzinikov YS, Golovatiy AI, Guryanov AF (1984) Morphological and biochemical importance of Hippophae rhamnoides L. in Tajikistan. Plant Resour 20:19–25Google Scholar
  23. Kurbanov B (1992) Lekarstvennie rasteniya – pomoshnik cheloveka. Irfon, Dushanbe 24Google Scholar
  24. Kurbanov M, Sadikov YJ (1978) Composition of the essential oil of the seeds of Binium persicum. Reports of Academy of Sciences of the Republic of Tajikistan, vol 21, pp 33–36Google Scholar
  25. Kurbanov M, Khusainova KS, Hojimatov M, Vezen AE, Haydarov KH, Burichenko VK (1975) Kabudin - new alkaloids of Thalictrum isopyroides C. A. Mey Reports of Academy of Sciences of the Republic of Tajikistan, vol 18, pp 20–22Google Scholar
  26. Kurbanov M, Nuraliev YN, Hojimatov M, Isobaev MJ (1988) Alkaloids of Thalictrum kuhistanicum Ovcz. et. Koczkl. Plant Resour 24:125–128Google Scholar
  27. Mamadalieva NZ, Sharopov F, Satyal P, Wink M (2017) Chemical composition of the essential oils of some Central Asian Nepeta species (Lamiaceae) by GLC-MS. Nat Prod Commun 12:1891–1893Google Scholar
  28. Margolina DL (1941) Flora and vegetation of Tajikistan (Bibliography). Academy of Sciences USSR, MoscowGoogle Scholar
  29. Monteverde NA, Hammerman AF (1927) Turkestans collection of medicinal products of the Museum of Main Boanical Garten, Main Botanical Garten Publication 26(4):291–358. [in russian]Google Scholar
  30. Narzullaev AS, Sadikov YJ, Hojimatov M (1976) Alkaloids of Delphinium ternatum и Delphinium confusum. Reports of Academy of Sciences of the Republic of Tajikistan, pp 87–88Google Scholar
  31. Narzullaev AS, Matveev BM, Sobirov SS (1981) Alkaloids os some species of Delphinum L. Plant Resour 17:45–49Google Scholar
  32. National Biodiversity and Biosafety Center of the Republic of Tajikistan (2017)Google Scholar
  33. Nazarov MN, Nazarov NM, Kholov AH, Isupov SJ, Sabzaev AR (2002) Rukovodstvo po sboru i sushke lekarstvennich rasteniy Tadjikistana. Medpress-Inform, MoscowGoogle Scholar
  34. Novikov V, Safarov N (2002) Tajikistan 2002. State of the environment report: ecosystems. Research Laboratory for Nature Protection (Tajikistan) in working partnership with UNEP/GRID-Arendal (Norway). http://www.enrin.grida.no
  35. Nowak A, Nobis M (2010) Tentative list of endemic vascular plants of the Zeravshan MTS in Tajikistan: distribution, habitat preferences and conservation status of species. Biodivers Res Conserv 19:65–80CrossRefGoogle Scholar
  36. Nowak A, Nowak S, Nobis M, Nobis A (2016) Vegetation of screes of the montane and colline zones in the Pamir-Alai Mountains in Tajikistan (Middle Asia). Tuexenia 36:223–248Google Scholar
  37. Numonov S et al (2017) Evaluation of the antidiabetic activity and chemical composition of Geranium collinum root extracts — computational and experimental investigations. Molecules 22:983–1002.  https://doi.org/10.3390/molecules22060983CrossRefPubMedCentralGoogle Scholar
  38. Nuraliev YN (1989) Medicinal Plants. Maorif, DushanbeGoogle Scholar
  39. Nuraliev YN (2008) Phytotherapy in tajik traditional medicine and its perspective for modern medicine. In: Nuraliev YN (ed) The problems of phitotherapy and phitofarmacology. Irfon, Dushanbe, p 206Google Scholar
  40. Ozturk M, Gork G (1978a) Biotic and abiotic factors effecting the distribution of Mentha species in West Anatolia. Plant 2:155–165Google Scholar
  41. Ozturk M, Gork G (1978b) Studies on the chorology and economical evaluation of Mentha species in West Anatolia. Ege Univ Sci Fac J II(4):339–356Google Scholar
  42. Ozturk M, Gork G (1979a) Ecological factors effecting the distribution and plasticity of Mentha species in West Anatolia. Plant 6:39–51Google Scholar
  43. Ozturk M, Gork G (1979b) Studies on the morphology and taxonomy of Mentha species in West Anatolia. Ege Univ Sci Fac J III:43–55Google Scholar
  44. Ozturk M, Gork G (1979c) Ecology of Mentha pulegium. Ege Univ Sci Fac J III:57–72Google Scholar
  45. Ozturk M, Gork G (1979d) Edaphic relations of Mentha species in West Anatolia. Ege Univ Sci Fac J III:95–110Google Scholar
  46. Ozturk M, Gucel S, Altundag E, Celik S (2011a) Turkish Mediterranean medicinal plants in the face of climate change, Chapter 5. In: Ahmad A et al (eds) Medicinal plants in changing environment. Capital Publishing, New Delhi, pp 50–71Google Scholar
  47. Ozturk M, Gucel S, Altundag E, Mert T, Gork C, Gork G, Akcicek E (2011b) An overview of the medicinal plants of Turkey, Chap 8. In: Singh R (ed) Genetic resources,chromosome engineering & crop improvement: medicinal plants, vol 6. CRC Press, LLC,Taylor & Francis, Boca Raton, pp 181–206Google Scholar
  48. Ozturk M, Altay V, Gucel S, Guvensen A (2014) Halophytes in the East Mediterranean-their medicinal and other economical values. In: Khan et al (eds) Sabkha ecosystems, vol IV Cash crop halophytes biodiversity & conservation. Tasks for Vegetation Science Series. Springer, New York, pp 247–272Google Scholar
  49. Ozturk M, Altay V, Gucel S (2015) Herbals from the dry lands of Southeast Anatolia. In: Khan et al (eds) Halophytes for food security in dry lands. Academic Press, Elsevier, Amsterdam, pp 1–30Google Scholar
  50. Ozturk M, Altay V, Altundag E, Gucel S (2016a) Halophytic plant diversity of unique habitats in Turkey: salt mine caves of Çankırı and Iğdır. In: Khan et al (eds) Halophytes for food security in dry lands. Academic Press, Elsevier, New York, pp 291–315CrossRefGoogle Scholar
  51. Ozturk M, Altay V, Gucel S, Altundağı E (2016b) Plant diversity of the drylands in Southeast Anatolia-Turkey: role in human health and food security. In: Ansari, Gill (eds) Plant biodiversity: monitoring, assessment and conservation. CABI, Oxfordshire, p 66Google Scholar
  52. Ozturk, M., Altay, V., Gönenç, T.M. 2017. High altitude medicinal and aromatic plants from theEast Mediterranean in the era of climate change. In: Bhojraj et al. (eds) International training workshop on ‘drug discovery from herbs-approaches and applications’. NAM S & T Centre, Daya Publishing House, New Delhi, pp 327–367Google Scholar
  53. Pareek A, Suthar M, Rathore GS, Bansal V (2011) Feverfew (Tanacetum parthenium L.): a systematic review. Pharmacogn Rev 5:103–110CrossRefGoogle Scholar
  54. Rahmonov O, Majgier L, Andrejczuk W, Banaszek J, Karkosz D, Parusel T, Szymczyk A (2013) Landscape diversity and biodiversity of Fann Mountains (Tajikistan). Ekologia 32:388–395Google Scholar
  55. Rasulova MR (1975) The genus of Vinca L., vol 5. Flora of Tajikistan SSR. Nauka, LeningradGoogle Scholar
  56. Rasulova MR, Yunusov SY (1980) Medicinal plants of the flora of Tajikistan, given in the “Canon” by Abuali ibn Sino. Reports of the Tajikistan Academy of Sciences, vol 80, pp 55–62Google Scholar
  57. Romanyuk M (2017) Pamirs. Historical Photos from the Pamir Archive.Google Scholar
  58. Sadikov YJ (1990) Chemical copmostion of Heracleum lehmannianum. Reports of the Academy of Sciences of the Republic of Tajikistan, vol 34, pp 174–177Google Scholar
  59. Sadikov YJ (2003) Biologically active substances of wild medicinal plants of Tajikistan. Institute of Chemistry of the Academy of Sciences of the Republic of TajikistanGoogle Scholar
  60. Sadikov YJ, Begavatov YM (1990) Cyperus longus L. Report of Academy of Sciences of the Republic of Tajikistan, pp 31–35Google Scholar
  61. Sadikov YJ, Hojimatov M (1977) The dynamic of alkaloid accumulation of Heliotropium losiocarpum, Reports of the Academy of Sciences of the Republic of Tajikistan, vol 20, pp 43–45Google Scholar
  62. Sadikov YJ, Hojimatov M (1981) Alkaloids of Spartium junceum. Reports of Academy of Sciences of the Republic of Tajikistan, vol 24, pp 289–292Google Scholar
  63. Sadikov YJ, Hojimatov M (1983) Alkaloids of Conium maculatum. Reports of Academy of Sciences of the Republic of Tajikistan, vol 26, pp 511–515Google Scholar
  64. Sadikov YJ, Hojimatov M (1985) Alkaloids of Papaver pavoninum. Reports of the Tajikistan Academy of Sciences, pp 73–75Google Scholar
  65. Sadikov YJ, Hojimatov M (1988) Alkaloids of Haplophyllum acutifolium (DC) G. Don. Fil. Plant Resour 24:77–81Google Scholar
  66. Sadikov YJ, Hojimatov M (1990) Alkaloids of Thermopsis dolichocarpa. Reports of Academy of Sciences of the Republic of Tajikistan, pp 65–67Google Scholar
  67. Sadikov YJ, Hojimatov M, Hafizov H, Begavatov YM (1978) Alkaloids of Datura stramonium L. Reports of the Academy of Sciences of the Republic of Tajikistan, vol 21, pp 34–37Google Scholar
  68. Sadikov YJ, Hojimatov M, Degtyarev VA (1984) Alkaloids of Verbasum songoricum Schrank. Reports of the Academy of Sciences of the Republic of Tajikistan, vol 27, pp 452–456Google Scholar
  69. Sadikov YJ, Hojimatov M, Degtyarev V (1985a) Alkaloids of Vinca major L. Report of Academy of Sciences of the Republic of Tajikistan, vol 23, pp 289–292Google Scholar
  70. Sadikov YJ, Hojimatov M, Degtyarev VA (1985b) Alkaloids of Vexibia pachycarpa from Tajikistan. Reports of Academy of Sciences of the Republic of Tajikistan, vol 28, pp 161–164Google Scholar
  71. Saeidnia S, Gohari AR, Dezfuli NM, Kuiuchi F (2011) A review on phytochemistry and medicinal properties of the genus Achillea. Daru 19:173–187PubMedPubMedCentralGoogle Scholar
  72. Saforzada RS, Khalifaev DR, Popov DM, Sharopov FS (2014) Amino acid composition of Jerusalem artichoke plant cultivated in Tajikistan. Drug Dev Registr 3:134–137Google Scholar
  73. Sagitdinova GV, Saidkhodzhaev AI, Malikov VM, Pimenov MG, Melibaev S (1990) Sesquiterpene lactones of Ferula clematidifolia and Ligularia alpigena. Chem Nat Compd 53:553–555Google Scholar
  74. Sahoo N, Manchikanti P, Dey S (2010) Herbal drugs: standards and regulation. Fitoterapia 81:462–471CrossRefGoogle Scholar
  75. Sakhobiddinov SS (1948) Wild Medicinal Plants of Central Asia. Gosizdat UzSSR, TashkentGoogle Scholar
  76. Sharopov FS (2002) Essential oil of Hyssopus seravshanicus and its sorption on bentonite clays. Chemistry Institute of the Tajikistan Academy of SciencesGoogle Scholar
  77. Sharopov FS (2015) Phytochemistry and bioactivities of selected plant species with volatile secondary metabolites. Ruperto-Carola University of HeidelbergGoogle Scholar
  78. Sharopov FS, Setzer WN (2010) Composition of the essential oil of Achillea filipendulina Lam. from Tajikistan. Pharm Chem 2:134–138Google Scholar
  79. Sharopov FS, Setzer WN (2011a) Chemical diversity of Ziziphora clinopodioides: Composition of the essential oil of Z. clinopodioides from Tajikistan. Nat Prod Commun 6:695–698PubMedGoogle Scholar
  80. Sharopov FS, Setzer WN (2011b) The essential oil of Artemisia scoparia from Tajikistan is dominated by phenyldiacetylenes. Nat Prod Commun 6:119–122PubMedGoogle Scholar
  81. Sharopov FS, Setzer WN (2011c) Thujone-rich essential oils of Artemisia rutifolia Stephan ex Spreng. growing wild in Tajikistan. J Essent Oil Bearing Plants 14:136–139CrossRefGoogle Scholar
  82. Sharopov FS, Setzer WN (2012) The essential oil of Salvia sclarea L. from Tajikistan. Rec Nat Prod 6:75–79Google Scholar
  83. Sharopov FS, Gulmurodov IS, Setzer WN (2010) Essential oil composition of Hypericum perforatum L. and Hypericum scabrum L. growing wild in Tajikistan. J Chem Pharm Res 2:284–290Google Scholar
  84. Sharopov FS, Kukaniev MA, Setzer WN (2011) Composition of the essential oil of Origanum tyttanthum from Tajikistan. Nat Prod Commun 6:1719–1722PubMedGoogle Scholar
  85. Sharopov F, Kukaniev M, Thompson RM, Satyal P, Setzer WN (2012a) Composition and antimicrobial activity of the essential oil of Hyssopus seravschanicus growing wild in Tajikistan. Pharm Chem 4:961–966Google Scholar
  86. Sharopov FS, Sulaimonova VA, Setzer WN (2012b) Essential oil composition of Mentha longifolia from wild populations growing in Tajikistan. J Med Active Plants 1:74–84Google Scholar
  87. Sharopov FS, Sulaimonova VA, Setzer WN (2012c) Composition of the essential oil of Artemisia absinthium from Tajikistan. Rec Nat Prod 6:127–134Google Scholar
  88. Sharopov FS, Wink M, Gulmurodov IS, Zhang H, Setzer WN (2013a) Composition and bioactivity of the essential oil of Anethum graveolens from Tajikistan. Int J Med Arom Plants 3:125–130Google Scholar
  89. Sharopov FS, Wink M, Khalifaev DR, Zhang H, Dosoky NS, Setzer WN (2013b) Chemical composition and antiproliferative activity of the essential oil of Galagania fragrantissima Lipsky (Apiaceae). Am J Essent Oils Nat Prod 1:11–13Google Scholar
  90. Sharopov FS, Wink M, Khalifaev DR, Zhang H, Dosoky NS, Setzer WN (2013c) Composition and bioactivity of the essential oil of Melissa officinalis L. growing wild in Tajikistan. Int J Tradit Nat Med 2:86–96Google Scholar
  91. Sharopov FS, Setzer WN, Isupov SJ, Wink M (2014a) Composition and bioactivity of the essential oil of Tanacetum parthenium from a wild population growing in Tajikistan. Am J Essent Oil Nat Prod 2:13–16Google Scholar
  92. Sharopov FS, Zhang H, Setzer WN (2014b) Composition of geranium (Pelargonium graveolens) essential oil from Tajikistan. Am J Essent Oils Nat Prod 2:13–16Google Scholar
  93. Sharopov F, Kukaniev M, Zhang H, Setzer WN (2015a) Essential oil constituents of Zira (Bunium persicum [Boiss.] B. Fedtsch.) from Tajikistan. Am J Essent Oils Nat Prod 2:24–27Google Scholar
  94. Sharopov FS, Braun MS, Isupov S, Wink M (2015b) Antimicrobial, antioxidant and anti-inflammatory activities of essential oils of the selected aromatic plants from Tajikistan. Foods 4:645–653.  https://doi.org/10.3390/foods4040645CrossRefPubMedPubMedCentralGoogle Scholar
  95. Sharopov FS, Zhang H, Wink M, Setzer WN (2015c) Tajik aromatic medicinal plants. Medicines 2:28–46CrossRefGoogle Scholar
  96. Sharopov FS, Satyal P, Wink M (2016a) Composition of the essential oil of Ferula clematidifolia. Chem Nat Compd 52:518–519CrossRefGoogle Scholar
  97. Sharopov FS, Satyal P, Wink M (2016b) Composition of the essential oil of Polychrysum tadshikorum. Chem Nat Compd 52:523–524CrossRefGoogle Scholar
  98. Sharopov FS, Wink M, Kukaniev MA, Setzer WN, Satyal P, Ali N (2016c) The essential oil compositions of Ocimum basilicum from three different regions: Nepal, Tajikistan, and Yemen. Chem Biodivers 13:241–248CrossRefGoogle Scholar
  99. Sharopov F, Valiev A, Satyal P, Setzer WN, Wink M (2017) Chemical composition and anti-proliferative activity of the essential oil of Coriandrum sativum L. Am J Essent Oils Nat Prod 5:11–15Google Scholar
  100. Sino AAI (1982) The Canon of Medicine (Канон врачебной науки), vol 2. Academy of Sciences UzSSR, TashkentGoogle Scholar
  101. Squires VR, Safarov N (2013) High altitude ecosystems and biodiversity of Tajikistan: conservation and management. High-altitude rangelands and their interfaces in the Hindu Kush Himalayas. International Centre for Integrated Mountain Development, NepalGoogle Scholar
  102. Tayjanov K, Mamadalieva NZ, Wink M (2017) Diversity of the mountain flora of Central Asia with emphasis on alkaloid-producing plants. Diversity 9:1–33CrossRefGoogle Scholar
  103. Vanselow KA (2011) The High-Mountain Pastures of the Eastern Pamirs (Tajikistan). An Evaluation of the Ecological Basis and the Pasture Potential. Universität Erlangen, NürnbergGoogle Scholar
  104. Vvedenskiy AI (1963) The Genus Ungernia, vol 2. Flora of Tajikistan SSR Nauka, LeningradGoogle Scholar
  105. Wilcock G, Howe I, Coles H, Lilienfeld S, Truyen L, Zhu Y, Bullock R (2003) A long-term comparison of galantamine and donepezil in the treatment of Alzheimers disease. Drugs Aging 20:777–789CrossRefGoogle Scholar
  106. Williams K (2010) Medicinal plants in Tajikistan: an alternative livelihood option. Int Soc Hortic Sci 954:109–116Google Scholar
  107. van Wyk BE, Wink C, Wink M (2015) Handbuch der Arzneipflanzen - Ein Bildatlas. Wissenschaftliche Verlagsgesellschaft, StuttgartGoogle Scholar
  108. Yunusov SY, Sidyakin GP (1950) About alkaloids of seed of Heliotropium losiocarpum. Report of Academy of Sciences of the Republic of Uzbekistan, pp 3–6Google Scholar
  109. Yusufbekov CY, Khusainova KS, Sadikov YJ, Aknazarov OA, Poryadina TV (1985) Berberis alkaloids. Reports of the Academy of Sciences of the Republic of Tajikistan, vol 28, pp 712–713Google Scholar
  110. Zapryagaeva VI (1975) The Genus of Berberis L., vol 4. Flora of Tajikistan SSR. Nauka, LeningradGoogle Scholar
  111. Zetlin AL, Nikonov GK (1965) Antitumor activity of natural coumarins. Plant Resour 1:507–511Google Scholar
  112. Ziyaev R, Abdusamatov A, Yunusov SY (1971) Alkaloids of Verbasсum songoricum Sch. Chem Nat Compd:853–854Google Scholar

Copyright information

© Springer Nature Switzerland AG 2018

Authors and Affiliations

  • Farukh Sharopov
    • 1
  • William N. Setzer
    • 2
  1. 1.Department of Pharmaceutical TechnologyAvicenna Tajik State Medical UniversityDushanbeTajikistan
  2. 2.Department of ChemistryUniversity of Alabama in HuntsvilleHuntsvilleUSA

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