Научные статьи (Н*):

1. Hemical composition and antimicrobial activity of the essential oil of Amomum tsao‐ko. Yang Yang, Run‐Wei Yan, Xiao‐Qiang Cai, Zhong‐Liang Zheng, Guo-Lin Zou. «Journal of the Science of Food and Agriculture» 88(12):2111 – 2116 (ссылка)

 

2. Bioactivity evaluation of ingredients identified from the fruits of Amomum tsaoko Crevost et Lemaire, a Chinese spice. Tian-Tian Zhang, Chuan-Li Lu, Jian-Guo Jiang. «Food & Function» 2014 Aug;5(8):1747-54 (ссылка)

3. Antiangiogenesis Efficacy of Ethanol Extract from Amomum tsaoko in Ovarian Cancer through Inducing ER Stress to Suppress p-STAT3/NF-kB/IL-6 and VEGF Loop. Cheng Chen, Fei You, FengHua Wu, YuShen Luo, GuoHua Zheng, HanLin Xu, Yi Liu. «Evidence-Based Complementary and Alternative Medicine» 2020 Feb 29;2020:2390125 (ссылка)

4. Amomum tsaoko fruit extract exerts anticonvulsant effects through suppression of oxidative stress and neuroinflammation in a pentylenetetrazol kindling model of epilepsy in mice. Kaina Wang, Yani Liu, Yan Shi, Mingzhu Yan, Thamaraise lvan, Rengarajan, Xin Feng. «Saudi Journal of Biological Sciences» Volume 28, Issue 8, August 2021, Pages 4247-4254 (ссылка)

5. Anti-hyperuricemic effect of Alpinia oxyphylla seed extract by enhancing uric acid excretion in the kidney. Young-Sil Lee, Yoon-Young Sung, Heung Joo Yuk, Eunjung Son, SeonJoo Lee, Jin Soo Kim, Dong-Seon Kim. «Phytomedicine» Volume 62, September 2019, 152975 (ссылка)

6. Flavonoids from the seeds of Alpinia galanga Willd. Meng-Qin Bian, Hong-Qing Wang, Jie Kang, Ruo-Yun Chen, Yan-Fang Yang, He-Zhen Wu. «Yao Xue Xue Bao» 2014 Mar;49(3):359-62. (ссылка)

7. Isolation and identification of ingredients inducing cancer cell death from the seeds of Alpinia galanga, a Chinese spice. Qiao-hui Zeng, Chuan-Li Lu, Xue-wu Zhang, Jian-Guo Jiang. «Food & Function» 2015 Feb;6(2):431-43 (ссылка)

8. «中华本草»（1999 年上海科学技术出版社出版图书）(ссылка)

9. Ephedra in perspective - a current review. Ehab A Abourashed, Abir T El-Alfy, Ikhlas A Khan, Larry Walker. «Phytotherapy Research» Volume17, Issue7, August 2003, Pages 703-712 (ссылка)

10. Nutritional and Medicinal Potential of Lagenaria siceraria. Irfan Ahmad, Md Irshad, Moshahid Rizvi. «International Journal of Vegetable Science» 17(2):157-170, April 2011 (ссылка)

11. Review of Cucurbita pepo (Pumpkin) its Phytochemistry and Pharmacology. Rosa Martha, Perez Gutierrez. Med chem, an open access journal, Volume 6(1): 012-021 (2016) (ссылка)

12. Chemical constituents of the genus Trichosanthes (Cucurbitaceae) and their biological activities: A review. Wachirachai Pabuprapap, Apichart Suksamrarn. «Science Asia» 47S (2021): 1-13 (ссылка)

13. Proximate, Phytochemicals and Antidiarrhoea Properties of Water Melon Seeds (Citrullus Lanatus). Nwachoko N., Owhonda N. «Archives of Nutrition and Public Health» Volume 1, Issue 1, 2019 (ссылка)

14. Chemical Composition, Nutritional Values and Antibacterial Activities of Watermelon Seed (Citrullus lanatus). Asoso Oluwakemi Sola, Olayinka Temitayo Ogunmefun, Adelegan Olufunke, Farida Shittu. «International Journal of Biochemistry Research & Review» August 2019 (ссылка)

15. Characterization of phytochemicals, minerals and in vitro medicinal activities of bael (Aegle marmelos L.) pulp and differently dried edible leathers. Sudipta Kumar Hazra, Tanmay Sarkar, Molla Salauddin, Hassan I. Sheikh, Siddhartha Pati, Runu Chakraborty. «Heliyon» Volume 6, Issue 10, E05382, October 1, 2020 (ссылка)

16. Bioactive compounds of Aegle marmelos L., medicinal values and its food applications: A critical review. Anshid Venthodika, Navnidhi Chhikara, Sandeep Mann, Mukesh Kumar Garg, Sajad Ahmad Sofi, Anil Panghal. «Phytotherapy Research» Volume 35, Issue 4, April 2021, Pages 1887-1907 (ссылка)

17. Citrus medica: nutritional, phytochemical composition and health benefits - a review. Navnidhi Chhikara, Ragni Kour, Sundeep Jaglan, Pawan Gupta, Yogesh Gat, Anil Panghal. «Food & Function» 2018 Apr 25; 9(4):1978-1992 (ссылка)

18. Medicinal uses, phytochemistry and pharmacology of Pongamia pinnata (L.) Pierre: a review. L.M.R. Al Muqarrabun, N.Ahmat, S.A.S. Ruzaina, N.H. Ismail, I. Sahidin. «Journal of Ethnopharmacology» Volume 150, Issue 2, 25 November 2013, Pages 395-420 (ссылка)

19. Karanjin. A Singh, G Bhatt, N Gujre, S Mitra, R Swaminathan, A M Limaye, L Rangan. «Phytochemistry» Volume 183, March 2021, 112641 (ссылка)

20. Cassane diterpenes from the seeds of Caesalpinia decapetala. Hua Wei, Jie Zheng, Yi-han Liu, Zai Zhang, Qian Pu, Jun-shan Yang, Guo-xu Ma. «Yao Xue Xue Bao» 2016 Sep;51(9):1441-4 (ссылка)

21. Studies on chemical constituents from seeds of Euryale ferox. Hai-lin Sun, Ya-qiong Zhang, Xiao-yan Xie, Yan-yun Che. «Zhong Yao Cai» 2014 Nov; 37(11):2019-21 (ссылка)

22. Antioxidant activity of extracts from Euryale ferox seed. Si Eun Lee, Eun Mi Ju, Jeong Hee Kim. «Experimental & Molecular Medicine» 2002 May 31; 34(2):100-6 (ссылка)

23. Chemical Constituents of Caesalpinia decapetala (Roth) Alston. Xiao-Hua Wei, Sheng-Jie Yang, Na Liang, De-Yu Hu, Lin-Hong Jin, Wei Xue and Song Yang. «Molecules» 2013, 18, 1325-1336 (ссылка) 

24. Analgesic, anti-inflammatory and anti-pyretic activities of Caesalpinia decapetala. Amna Parveen, Muhammad Sajid Hamid Akash, Kanwal Rehman, Qaisar Mahmood, Muhammad Imran Qadir. «BioImpacts» 2014; 4(1): 43–48 (ссылка) 

25. Anthelmintic activity of Chenopodium album (L.) and Caesalpinia crista (L.) against trichostrongylid nematodes of sheep. Abdul Jabbar. «Journal of Ethnopharmacology», 8 Oct 2007; 114(1): pp 86-91 (ссылка) 

26. Anti-amyloidogenic property of leaf aqueous extract of Caesalpinia crista. Ramesh B N, Indi S S, Rao K S. «Neurosci Lett.» 2010 May 14;475(2):110-4 (ссылка) 

27. Nootropic Activity of dried Seed Kernels of Caesalpinia crista Linn against Scopolamine-induced Amnesia in Mice. Sunil N Kshirsagar. «International Journal of PharmTech Research» Vol. 3, No.1, pp 104-109, Jan-Mar 2011 (ссылка) 

28. Hepatoprotective Potential of Caesalpinia crista against Iron-Overload-Induced Liver Toxicity in Mice. Rhitajit Sarkar, Bibhabasu Hazra, and Nripendranath Mandal. «Evidence-Based Complementary and Alternative Medicine» Volume 2012 (2012) (ссылка)

29. Antidiabetic activity of seed extracts of Caesalpinia crista Linn. in experimental animals. Nakul Gupta, Ishan Sharma, Meetu Agarwal, Safhi M. Mohammed, Prerna Chauhan, Tarique Anwer, Gyas Khan. «African Journal of Pharmacy and Pharmacology», 15 July 2013; 7(26), pp. 1808-1813 (ссылка)

30. Phytochemical Investigation of Caesalpinia crista Seed Extract for their Therapeutic Potential. Naresh Singh Gill, Ramandeep Kaur, Rashmi Arora and Manoj Bali. «Research Journal of Medicinal Plant», 2012; 6(1): pp 100-107 (ссылка)

31. Antipyretic activity of Caesalpinia crista linn. seeds extract in experimantal animals. Sharma Ishan, Gupta Nakul, Mohammed M. Safhi, Meetu Agrawal and Chauhan Prerna. «International Journal of Current Research» Vol. 5, Issue, 5, pp.1202-1205, May, 2013 (ссылка)

32. Screening the Antibacterial and Antifungal Properties of Holarrhena antidysenterica (L.) and Caesalpinia crista (L.). Joshi D M, Verma R. «International Journal for Pharmaceutical Research Scholars» V-3, I-2, 2014 (ссылка)

33. Evaluation of anti-ulcer activity of caesalpinia crista linn. seeds on pylorus ligation and indomethacine induced gastric lesions in albino rats. Chauhan P, Gupta N, Safhi MM, Nomier Y, Agarwal M, Nayem M. «International Journal of Research in Pharmacy and Science» 2015, 5(4); 9 –13 (ссылка)

34. A Review on the Pharmacological Activities and Phytochemicals of Alpinia officinarum (Galangal) Extracts Derived from Bioassay-Guided Fractionation and Isolation. Aida Maryam Basri, Hussein Taha, Norhayati Ahmad. «Pharmacognosy Reviews» 2017 Jan-Jun; 11(21): 43–56 (ссылка)

35. Phytochemical constituents from the florets of tiger grass Thysanolaena latifolia from Nepal. Sabina Shrestha, Ji-Hae Park, Jin-Gyeong Cho, Dae-Young Lee, Rak-Hun Jeong, Myoung-Chong Song, Somi Kim Cho, Dong-Sun Lee, Nam-In Baek. «Journal of Asian Natural Products Research» 2016; 18(2):206-13 (ссылка)

36. Botany, Phytochemistry, Pharmacology and Toxicity of Strychnos nux-vomica L.: A Review. Rixin Guo, Ting Wang, Guohong Zhou, Mengying Xu, Xiankuo Yu, Xiao Zhang, Feng Sui, Chun Li, Liying Tang and Zhuju Wang. «The American Journal of Chinese Medicine» Vol. 46, No. 01, pp. 1-23 (2018) (ссылка)

36. Pharmacognostic standardization with various plant parts of Desmostachya bipinnata. Anupama Singh, Vikas Anand Saharan, Anil Bhandari. «Pharmaceutical Biology» Volume 52, 2014 - Issue 3, Pages 298-307 (ссылка)

37. Chemical constituents of Strychnos nitida G. Don. Z Gu, T Li, P Xiao, J Chen, W Lian. «Zhongguo Zhong Yao Za Zhi» 1997 Jan;22(1):40-1, 62 (ссылка)

38. Antioxidant Activity, Inhibition α-Glucosidase of Ethanol Extract of Strychnos nitida G. Don and Identification of Active Compounds. Stefani Dhale Rale, Hasim, Syamsul Falah. «Current Biochemistry» Volume 5 (3): 11 - 20, 2018 (ссылка)

39. Alkaloids from the seeds of Strychnos wallichiana Steud. ex DC. (Strychnos cinnamomifolia Thwaites var. wightii A. W. Hill). N G Bisset, J D Phillipson. «Journal of Pharmacy and Pharmacology», Volume 25, Issue 7, July 1973, Pages 563–569 (ссылка)

40. Rubus ellipticus Sm. Rubus foliolosus Weihe & Nees Rubus fruticosus L. Rubus irritans Focke Rosaceae. Laxmi Khaniya, Rabindra Bhattarai, Hammad Ahmad Jan, Wahid Hussain, Arshad Mehmood Abbasi, Rainer W. Bussmann, and Narel Y. Paniagua-Zambrana. In book «Ethnobotany of the Himalayas», January 2021, pp.1-17 (ссылка)

41. An updated overview of Solanum xanthocarpum Schrad and Wendl. Paul Rita and Datta K. Animesh. «International Journal of Research in Ayurveda and Pharmacy», March 2011, 2(3):730-735 (ссылка)

42. Comparison of compounds of three Rubus species and their antioxidant activity. Rezeng Caidan, Limao Cairang, Jiumei Pengcuo, Li Tong. “Drug Discoveries & Therapeutics”,2015, 9(6):391-396 (ссылка)

43. Antitumor and Wound Healing Properties of Rubus ellipticus Smith. Blassan Plackal George, Thangaraj Parimelazhagan, Yamini T. Kumar, Thankarajan Sajeesh. “Journal of Acupuncture and Meridian Studies”, 2015, 8(3):134-141(ссылка)

44. A new pregnane glycoside from Rubus phoenicolasius and its antiproliferative activity. Chao Liu, Zhi-Xin Liao, Shi-Jun Liu, Jin-Yue Sun, Gui-Yang Yao, Heng-Shan Wang. “Natural Product Research: Formerly Natural Product Letters”,  2014, 28(21):1843–1846 (ссылка)

45.  Triterpenoids and steroids of root of Rubus biflorus. Shu-He Kang 1, Yong-Qing Shi, Cai-Xia Yang. “ Zhong Yao Cai”, November 2008, 31(11):1669-71. (ссылка)

46. Phytochemicals and potential health effects of Sambucus williamsii Hance (Jiegumu). Hui‑Hui Xiao, Yan Zhang, Raymond Cooper, Xin‑Sheng Yao4 and Man‑Sau Wong. “Chinese Medicine”, 2016. (ссылка) 

47. Total saponins from Rubus parvifolius L. inhibits cell proliferation, migration and invasion of malignant melanoma in vitro and in vivo. Jinfeng Cao, Xue Zhao, Yan Ma, Jian Yang, Fuqiang Li. “Bioscience Reports”, 2021, 41(1). (ссылка) 

48. Synopsis of the genus Saussurea DC. (Asteraceae) of Eurasia. S.V. Smirnov, A.A. Kechaykin, T.A. Sinitsyna, A.1. Shmakov. “Ukrainian Journal of Ecology”, 2018, 8(4):270-285 (ссылка)

49.  Chemical constituents from Saussurea pachyneura. Shuo Zhang, Xiao-Man Tu, Wan-Chang Zhang, Guang-Bo Xie. “Pharmacognosy magazine”, 2020,  16(71) : 564-567 (ссылка)

50.  Diversity, Distribution and Indigenous Uses of Saussurea Species in Indian Himalayan Region. Jitendra S. Butola and S.S. Saman (ссылка)

51.  Analysis of Saussurea Species from Tibet Using HPLC–DAD–ESI–MSn.  D  Z.Dawa, Y.Zhou, Y.Bai, S.Gesang, J. Liang, Andl.Ding. “Acta Chromatographica”, 2010, 22(1):141–152 (ссылка) 

52. Sesquiterpene lactones from Saussurea alata.  G. Renyz, Z. M. Yuy, Y. L. Cheny, S. H. Wuy, C. X. Fu. “Natural Product Research”, March 2007, 21(3):221–226 (ссылка) 

53.Rhaponticum uniflorum and Serratula centauroides Extracts Attenuate Emotional Injury in Acute and Chronic Emotional Stress. Larisa N. Shantanova, Daniil N. Olennikov, Irinchey E. Matkhanov, Sergey M. Gulyaev, Anyuta A. Toropova, Irina G. Nikolaeva and Sergey M. Nikolaev.  “Chemistry of Natural Compounds”, July 2018, 54(4):798-800 (ссылка) 

54. Antiinflammatory activity of Synurus deltoides. Joon Hyun Park, Kun Ho Son, Sung Wan Kim, Hyeun Wook Chang, KiHwan Bae, Sam Sik Kang, Hyun Pyo Kim. “Phytochemistry research”, November 2004, 18(11):930-933 (ссылка)

55.  Comparison of Volatile Aroma Compounds between Synurus deltoides and Aster scaber Leaves. Lee, Kyeong-Cheol; Sa, Jou-Young;Wang, Myeong-Hyeon; Han, Sang-Sup. “Korean Journal of Medicinal Crop Science”, 2012, 20(1):54-62 (ссылка) 

56. Quantitative analysis of the profiles of twelve major compounds in Gentiana straminea Maxim. Roots by LC-MS/MS in an extensive germplasm survey in the Qinghai-Tibetan plateau. Zhou D, Lv D, Zhang H, Cheng T, Wang H, Lin P, Shi S, Chen S, Shen J.  “J Ethnopharmacol”, November 2021, 280. (ссылка) 

57.Authentication of Gentiana straminea Maxim. and its substitutes based on chemical profiling of iridoids using liquid chromatography with mass spectrometry. Jinrong Wua, Zhili Zhaoa, Lihong Wub and Zhengtao Wang. “Biomedical chromatography”, December 2016, 30(12):2061-2066 (ссылка)

58.Medicinal, biological and phytochemical properties of Gentiana species. Fatemeh Mirzaeea, Amirsaeed Hosseinib, Hossein Bakhshi, Jouybaria AliDavoodia, Mohammad Azadbakhta. “Journal of Traditional and Complementary Medicine”, October 2017, 7(4):400-408 (ссылка)

59. Identification of Antifungal Bisphosphocholines from Medicinal Gentiana Species. Siyu Ren, Kejun Deng, Shi Qiu, Mei Wang, Bharathi Avula, Siddharth K. Tripathi, Melissa R. Jacob, Limin Gong, Wei Wang, Ikhlas A. Khan, and Xing-Cong Li. “Journal of Natural products”, April 22, 2022, 85(4) (ссылка)

60. New Compounds from Siberian Gentiana Species. II. Xanthone and C,O-Glycosylflavone. D. N. Olennikov1* and N. K. Chirikova. “Chemistry of Natural Compounds”, July 2021, 57(4): 681–684 (ссылка)  

61. A Review on the Ethnomedicinal Usage, Phytochemistry, and Pharmacological Properties of Gentianeae (Gentianaceae) in Tibetan Medicine. Xiaofeng Chi, Faqi Zhang, Qingbo Gao, Rui Xing and Shilong Chen. “Plants”, November 2021, 10(11):2383 (ссылка) 

62.  Caucasian Gentiana Species: Untargeted LC-MS Metabolic Profiling, Antioxidant and Digestive Enzyme Inhibiting Activity of Six Plants. Daniil N. Olennikov, Aydan I. Gadimli, Javanshir I. Isaev, Nina I. Kashchenko, Alexey S. Prokopyev, Tatyana N. Kataeva, Nadezhda K. Chirikova and Cecile Vennos. “Metabolites”, November 2019, 9(11): 271 (ссылка) 

63.Bitter Gentian Teas: Nutritional and Phytochemical Profiles, Polysaccharide Characterisation and Bioactivity. Daniil Olennikov, Nina I. Kashchenko, N. K. Chirikova, Leonid N Vladimirov “Molecules”, November 2015, 20(11):20014-20030(ссылка)

64. The Biology and Ecology of Sugarcane (Saccharum spp. hybrids) in Australia. Australian Government, Department of Health and Aging, Office of the Gene Technology Regulator. 2004. (ссылка)

65. Polygonumperfoliatum L., an Excellent Herbal Medicine Widely Used in China: A Review. Liu Junyu, Zeng Yuanlian, Sun Guojuan, Yu Shaopeng, Xu Yi, He Chao, Li Zulun, Jin Shenrui, Qin Xuhua. “Frontiers in Pharmacology”, 2020, 11 (ссылка)

66. Chemistry in Eriocaulaceae. Anne Lı´gia Dokkedala, Lourdes Campaner dos Santosb, Paulo Takeo Sanoc, and Wagner Vilegas. “Zeitschrift fur Naturforschung C”, March 2008, 63(3-4):169-175 (ссылки) 

67. Chemical analysis of Eriocaulon buergerianum and adulterating species by high-performance liquid chromatography with diode array detection and electrospray ionization tandem mass spectrometry. Xue Qiao, Guan Ye, Chun-Fang Liu, Zhi-Xiang Zhang, Qiang Tu, Jing Dong, Yue-Qi Li, De-An Guo, Min Ye. “Journal of Pharmaceutical and Biomedical Analysis”, January 2012, 57:133-142 (ссылка) 

68.  New alkaloid from the aerial parts of Codonopsis clematidea. Shunsuke Ishida, Mamoru Okasaka, Freddy Ramos, Yoshiki Kashiwada, Yoshihisa Takaishi, Olimjon K. Kodzhimatov and Ozodbek Ashurmetov. “Journal of Natural Medicines”, 2008, 62:236–238  (ссылка)

69.  Phytochemical analysis, bioassays, and the identification of drug lead compounds from the Bhutanese medicinal plants. Phurpa Wangchuk. 2014. (ссылка )  

70.Method Validation and Simultaneous Quantification of Five Triterpenoids from Codonopsis ovata by High-Performance Thin-Layer Chromatography. Alamgir A. Dar, Payare L. Sangwan, Nasseb Singh & Anil Kumar. “JPC – Journal of Planar Chromatography – Modern TLC”, 2019, 32:251–256 (ссылка) 

71. Two new aromatic derivatives from Codonopsis pilosula and their α-glucosidase inhibitory activities. Ru-Yue Wang and Pan-Jie Su and Bing Li and Xiao-Qing Zhan and Feng-Ming Qi and Chun-Wei Lv and Fang-Di Hu and Kun Gao and Zhan-Xin Zhang and Dong-Qing Fei. “Natural Product Research”, 2021, pages 1-8 (ссылка)

72.The genus Codonopsis (Campanulaceae): A review of phytochemistry, bioactivity and quality control. Jing-Yu He, Na Ma, Shu Zhu, Katsuko Komatsu, Zhi-Yuan Li, Wei-Ming Fu. “Journal of Natural Medicines”, August 2014, 69(1):1-22  (ссылка)

73. Preliminary Investigation of Resources and Medicinal Use of Codonopsis canescens / 中国实验方剂学杂志. Feng-chao LI; Hui-min LI; Chen-lei GANGHUAN; Guo-lin TANG; Yi ZHANG; Gui-hua JIANG; Li AI. “Chinese Journal of Experimental Traditional Medical Formulae”, 2021,  24:172-180, (ссылка) 

74. Flavonoid glycosides of Campanula persicifolia. L. S. Teslov “Chemistry of Natural Compounds”, 1990,  26:223 (ссылка)

75.Novel phenolic glycosides, adenophorasides A–E, from Adenophora roots. Yuka Koike, Motonori Fukumura, Yasuaki Hirai, Yumiko Hori, Shiho Usui, Toshiyuki Atsumi & Kazuo Toriizuka. “Journal of Natural Medicines”, 2010, 64:245–251 (ссылка) 

76. Chemical constituents from the aerial parts of Codonopsis nervosa. Er-Bu AGA, Hui-Jun Li, Jun Chen, Ping Li. Chinese Journal of Natural Medicines Volume 10, Issue 5, September 2012, Pages 366-369.  (ссылка)  

77.New Antimicrobial Mono- and Sesquiterpenes from Soroseris hookeriana Subsp. erysimoides. J. C. Meng, Q. X. Zhu, R. X. Tan. “Planta Med”, 2000, 66(6):541-544 (ссылка)

78.Integration of Data-Dependent Acquisition (DDA) and Data-Independent High-Definition MSE (HDMSE) for the Comprehensive Profiling and Characterization of Multicomponents from Panax japonicus by UHPLC/IM-QTOF-MS. Chunxia Zhang, Tiantian Zuo, Xiaoyan Wang, Hongda Wang, Ying Hu, Zheng Li, Weiwei Li, Li Jia, Yuexin Qian, Wenzhi Yang and Heshui Yu. “Molecules”, 2019, 24(15):2708  (ссылка) 

79. Study on Saponins of Rhizomes of Panax pseudo-ginseng subsp. himalaicus Collected at Tzatogang and Pari-la, Bhutan-Himalaya. Osamu Tanaka, Toshinopu Morita, Ryoji Kasai, Junko Kinouchi, Shuichi Sanada,” Yoshiteru Ida and Junzo Shoji. “Chem. Pharm. Bull”, 1985, 33(6):2323-2330 (ссылка) 

80. Chemical Profile and Antioxidant Activity of Zinnia elegans Jacq. Fractions. Burlec AF, Pecio Ł, Mircea C, Cioancă O, Corciovă A, Nicolescu A, Oleszek W, Hăncianu M.  “Molecules”, 2019, 24(16):2934 (ссылка) 

81. Profiling of glucosinolates and flavonoids in Rorippa indica (Linn.) Hiern. (Cruciferae) by UHPLC-PDA-ESI/HRMS(n). Lin LZ, Sun J, Chen P, Zhang RW, Fan XE, Li LW, Harnly JM. “Agric Food Chem”, Jul 2014, 62(26):6118-6129 (ссылка)

82. Studies on the chemical constituents of fresh leaf of Eruca sativa extract and its biological activity as anticancer agent in vitro. Helana Naguib Michael, Reham Ezzat Shafik, George Emad Rasmy. “Journal of Medicinal Plants Research”, April 2011, 5(7):1184-1191 (ссылка) 

83.  Isoferuloyl derivatives of five seed glucosinolates in the crucifer genus Barbarea. Niels Agerbirk, Carl Erik Olsen. “Phytochemistry”, 2011, 72(7):610-623 (ссылка)

84. Phytochemical and pharmacological aspects of Descurainia sophia Webb ex Prantl: modern and traditional applications. Majid Nimrouzi and Mohammad Mahdi Zarshenas. “Avicenna J Phytomed”, May-Jun 2016, 6(3): 266–272. (ссылка) 

85.Profiling the phenolic compounds of Artemisia pectinata by HPLC-PAD-MSn. Ma, C.-M., Hattori, M., Chen, H.-B., Cai, S.-Q. and Daneshtalab, M.   “Phytochem. Anal”, 2008, 19:294-300. (ссылка) 

86. Glucosinolates in Seeds of Arabis hirsuta (L.) Scop.: Some New, Naturally Derived Isothiocyanates. Anders Kjaer, Angelica Schuster. “Acta Chemica Scandinavica”, 1972, 26:8-14 (ссылка) 

87.  Flavonoids from Sophora moorcroftiana and their Synergistic Antibacterial Effects on MRSA. Wang, S.-Y., Sun, Z.-L., Liu, T., Gibbons, S., Zhang, W.-J. and Qing, M. “Phytother. Res”, 2014, 28(7):1071-1076. (ссылка) 

88. Davidones F and G, Two Novel Flavonoids from Sophora davidii (Franch.) Skeels.Song P, Li X, Zhou T, Peng Y, Choi H-Y, Ma Y, Yang X. “Molecules”, 2021, 26(14):4182 (ссылка) 

89. Chemical Constituents from Roots of Sophora davidii (Franch.) Skeels and Their Glucose Transporter 4 Translocation Activities. Kangdi Li, Yuanren Ma, Tongxi Zhou, Xinzhou Yang, Ho-Young Choi. “Molecules”, February 2021, 26(3):756 (ссылка) 

90. Local and traditional uses, phytochemistry, and pharmacology of Sophora japonica L.: A review. Xirui He, Yajun Bai, Zefeng Zhao, Xiaoxiao Wang, Jiacheng Fang, Linhong Huang, Min Zeng, Qiang Zhang, Yajun Zhang and Xiaohui Zheng. “Journal of Ethnopharmacology” (ссылка)

91. Two new triterpenoid saponins from Caragana microphylla seeds. Cheng-Jian Zheng, Gui-Lin Jin, Jing-Ping Zou, Yi-Ping Jiang, Pei-Xin Sun, Lu-Ping Qin. “Nat. Med.”, 2013, 67:190–195 (ссылка) 

92. Characterization and Biological Activities of Seed Oil Extracted from Berberis dasystachya Maxim. by the Supercritical Carbon Dioxide Extraction Method. Lijuan Han, Qingqing Han, Yongjing Yang, Honglun Wang, ShuLin Wang, and Gang Li. “Molecules”,  April, 2020 25(8):1836 (ссылка) 

93. An ethnobotanical survey of wild edible plants used by the Yi people of Liangshan Prefecture, Sichuan Province, China. Wang, J., Seyler, B.C., Ticktin, T. et al. “Ethnobiology Ethnomedicine”, 2020, 16(10) (ссылка) 

94.  Ethnobotanical and Biochemical Study of Berberis lycium Royle Collected from Different Areas of Azad Jammu and Kashmir. Fiaz Bukhari SM, Ali G, Abbas SR, Anjum Z, Ahmed N, Munir A, Wali A, Ayub M, Khan K, Khames A, Musthafa MM. “Evid Based Complement Alternat Med”, September 2021 (ссылка) 

95. Berberis aristata: A Review. Komal, Sharma and Ranjan, Bairwa and Neelam, Chauhan and Birendra, Shrivastava and Saini, Neeraj. “International Journal of Research in Ayurveda & Pharmacy”, February 2011, 2 (ссылка) 

96. Berberisides A-D: three novel prenylated benzoic acid derivatives and a clerodane glycoside from Berberis tsarica aherndt. Zhao-Yue Dong, Qing-Hong Zeng, Lin Wei, Xin Guo, Yan Sun, Fan-Cheng Meng, Guo-Wei Wang, Xiao-Zhong Lan, Zhi-Hua Liao & Min Chen. “Natural Product Research”, 2020 (ссылка) 

97.Berberine: Botanical Occurrence, Traditional Uses, Extraction Methods, and Relevance in Cardiovascular, Metabolic, Hepatic, and Renal Disorders. Maria A. Neag, Andrei Mocan, Javier Echeverría, Raluca M. Pop, Corina I. Bocsan, Gianina Crisan and Anca D. Buzoianu. “Frontiers in Pharmacology”, August 2018, 9 (ссылка) 

98. Comparative Analysis of Genetic and Chemical Differences between Four Berberis Herbs Based on Molecular Phylogenetic and HPLC Methods. Tu Feng, Huan Du, Hanting Chen, Qunying Xiao, Yang He and Gang Fan. “Biol. Pharm. Bull”, 2018, 41(12):1870–1873 (ссылка) 

99. Physico-chemical, phyto-chemical and elemental analysis of stem bark and roots of Berberis asiatica. Swati Patnia, Archana N Saha, Harsahay Meenab, Hemant K Pandeyb and Aarti Manchanda. “Advances in Applied Science Research”, 2012, 3 (6):3624-3628 (ссылка) 

100. The medicinal uses of the genus Mahonia in traditional Chinese medicine: An ethnopharmacological, phytochemical and pharmacological review. Jian-Ming He, Qing Mu (ссылка) 

101. Analysis of isoquinoline alkaloids from Mahonia leschenaultia and Mahonia napaulensis roots using UHPLC-Orbitrap-MSn and UHPLC-QqQLIT-MS/MS. Awantika Singh, Vikas Bajpai, Sunil Kumar, Ajay Kumar Singh Rawat, Brijesh Kumar. “Journal of Pharmaceutical Analysis”, April 2017, 7(2): 77–86 (ссылка) 

102. Chemical composition and antioxidant capacity of the aqueous extract of Phellodendron amurense. Velmurugan, N., Kalpana, D., Cho, J.Y. et al. “J. For. Res”, 2018, 29:1041–1048. (ссылка) 

103. Биологически активные вещества Atraphaxis pungens (Bieb.) Jaub. & Spach и Atraphaxis frutescens (L.) C. Koch. Костиков Д.К., Кукушкина Т.А., Банаев Е.В. 2019, 228-229 (ссылка) 

104.  Crataegus pinnatifida: chemical constituents, pharmacology, and potential applications. Wu J, Peng W, Qin R, Zhou H. “Molecules”, 2014, 19(2):1685-1712 (ссылка) 

105.  Composition and health effects of phenolic compounds in hawthorn (Crataegus spp.) of different origins. Yang, B., & Liu, P. “Journal of the Science of Food and Agriculture”, 2012, 92(8), 1578–1590. (ссылка)

106. Malus baccata var. gracilis and Malus toringoides Bark Polyphenol Studies and Antioxidant, Antimicrobial and Anticancer Activities. Hosam O. Elansary, Agnieszka Szopa, Paweł Kubica, Diaa O. El-Ansary, Halina Ekiert  and Fahed A. Al-Mana. “Processes”, 2020, 8(3), 283 (ссылка)  

107. New Constituents from the Low Polar Fraction of the Fruits o fCrataegus dahurica and Their Anti-Inflammatory Activity RAW264.7 Cells. Bo-Bo Wang, Yang Gao, Li-Ya Chen, Chang-Long Zhang, Xiao-Qing Zhang, Hai-Long Zhang. “Chemistry and Biodiversity”, 2020, 17(2) (ссылка) 

108. Iridoid Glucosides from Lamium amplexicaule. Shigeru Kobayashi, Akira Mima, Masaru Kihara, Yasuhiro Imakura. "Chem. Pharm. Bull.", 1986, 34(2):876-880 (ссылка) 

109.  Isoquinoline Alkaloids from Corydalis impatiens. Niu, XF., Xu, HB., Liu, X. et al. “Chem Nat Compd”,2013,  49:187–189 (ссылка)  

110. Alkaloids of Corydalis ramosa. Balawant S. Joshi, Syed Imtiaz Haider, and S. William Pelletier. “Planta Med”, 1990, 56(4): 418-419 (ссылка)  

111.  Anticancer Potential and Other Pharmacological Properties of Prunus armeniaca L.: An Updated Overview. Kitic D, Miladinovic B, Randjelovic M, Szopa A, Sharifi-Rad J, Calina D, Seidel V. “Plants (Basel)”, July 2022, 11(14):1885 (ссылка) 

112. Peach (PrunusPersica): Phytochemicals and Health Benefits. Catarina Bento , Ana C. Gonçalves, Branca Silva & Luís R. Silva. “Food Reviews International”, 2020, 1-32 (ссылка) 

113.  Prunus mira Koehne in Sichuan, China: Recorded History as a Medicine and Food, Modern Applications, Distribution, and Ethnobotanical Investigations. Zhang J, Chen W, Sun W, Zhou Y, Li X, Zhang J, Fan G, Yin H, Qin J, Yuan Y, Xu W, Wang Z. “Front Pharmacol”, March 2022, 13 (ссылка) 

114. Aromatic Glucosides from the Seeds of Prunus davidiana. Xiao-Yan Chen, Hong-Qing Wang, Ting Zhang, Chao Liu, Jie Kang, Ruo-Yun Chen*, and De-Quan Yu. “J. Nat. Prod”, 2013, 76(9):1528–1534 (ссылка)

115.   Antioxidant phenolic acids from the leaves of Armeniaca sibirica. Ya-Nan Wu, Wei Wang, Guo-Dong Yao, Xue-Feng Jiang, Yan Zhang & ShaoJiang Song. “Journal of Asian Natural Products Research”, 2017, 20(10):969-976 (ссылка)

116. Amygdalin isolated from Amygdalus mongolica protects against hepatic fibrosis in rats. Jia Wang, Hongbing Zhou, Tong Wu, Peisai Wu. “Acta Pharmaceutica”, September 2021, 71(3):459-471 (ссылка)   

117.  Wild almond (Amygdalus pedunculata Pall.) as potential nutritional resource for the future: studies on its chemical composition and nutritional value.  Wang, W., Wang, HL., Xiao, XZ. et al. “Food Measure”, 2019, 13:250–258. (ссылка)  

118. H NMR-Based Metabolomics Coupled With Molecular Docking Reveal the Anti-Diabetic Effects and Potential Active Components of Berberis vernae on Type 2 Diabetic Rats. Qi Li, Chengcheng Zhao, Yunsen Zhang, Huan Du, Tong Xu, Xinmei Xu, Jing Zhang, Tingting Kuang, Xianrong Lai, Gang Fan and Yi Zhang. “Frontiers in Pharmacology”, 2020; 11: 932 (ссылка)

119. Berberis dictyophylla F. inhibits angiogenesis and apoptosis of diabetic retinopathy via suppressing HIF-1α/VEGF/DLL-4/Notch-1 pathway. Xiaopeng Ai, Peiling Yu, Liuling Luo, Jiayi Sun, HonglinTao, Xiaobo Wang, Xianli Meng. “Journal of Ethnopharmacology” Volume 296, 5 October 2022, 115453 (ссылка)

120. First report of bicolour FISH of Berberis diaphana and B. soulieana reveals interspecific differences and co-localization of (AGGGTTT)3 and rDNA 5S in B. diaphana. Juncheng Liu & Xiaomei Luo. “Hereditas” volume 156, Article number: 13 (2019) (ссылка) 

121. Anti-Diabetic Effects of Berberis kansuensis Extract on Type 2 Diabetic Rats Revealed by 1H-NMR-Based Metabolomics and Biochemistry Analysis. Huan Du, Qi Li, Huan Yi, Tong Xu, Xin-Mei Xu, Ting-Ting Kuang, Jing Zhang, An-Qing Huang, Gang Fan. “Chemistry & Biodiversity” Volume 17, Issue 10, October 2020 (ссылка)

122. Extract of corydalis impatiens total alkaloids and extraction method thereof. Lǐ Huáipíng, Jī Tāo, Wèi Yǒngyì, Wáng Shuò. CN103610762B (ссылка)

123.  Variation of the Main Alkaloid Content in Equisetum palustre L. in the Light of Its Ontogeny. Müller J, Puttich PM, Beuerle T. “Toxins (Basel)”,  November 2020, 12(11):710 (ссылка) 

124. Simultaneous determination of phenolic compounds in Equisetum palustre L. by ultra high performance liquid chromatography with tandem mass spectrometry combined with matrix solid-phase dispersion extraction. Zuofu Wei,Youzhi Pan,Lu Li,Yuyang Huang,Xiaolin Qi,Meng Luo,Yuangang Zu,Yujie Fu. “Separation science”, November 2014, 37(21):3045-3051 (ссылка)

125. Characterisation of new oligoglycosidic compounds in two Chinese medicinal herbs. Sandra Apers,Ying Huang,Sabine Van Miert,Roger Dommisse,Dirk Vanden Berghe,Luc Pieters,Arnold Vlietinck. “Phytochemical analysis”, July/August 2002, 13(4):202-206 (ссылка)  

126. Comparison of Bioactive Phenolic Compounds and Antioxidant Activities of Different Parts of Taraxacum mongolicum. Duan L, Zhang C, Zhao Y, Chang Y, Guo L. “Molecules”, July 2020, 25(14):3260 (ссылка) 

127. CHEMICAL CONSTITUENTS OF Sonchus brachyotus. Chun-Xue Yu, Yi-Fan Yu, Ye Zhao, Pei-Qian Wu, Qiao-Ling Hu, Bing Li, Pan-Jie Su, Fang-Di Hu, Zhan-Xin Zhang, and Dong-Qing Fei. “Chemistry of Natural Compounds”, March 2020, 56(2):370-372 (ссылка)

128.  Antioxidant and antibacterial activity of six edible wild plants (Sonchusspp.) in China. Xia, D.-Z., Yu, X.-F., Zhu, Z.-Y., & Zou, Z.-D. “Natural Product Research”, 2011, 25(20):1893–1901. (ссылка) 

129.  Composite Constituents: Forty-Two Triterpenoids Including Eight Novel Compounds Isolated from Picris hieracioides subsp. japonica. Kenji Suiomma, Kazuo Masupa, Hideki Suzuki, Tokuhide Lin, Yako Oois, and Hiroyuki AGera. “Chem, Pharm. Bull”, 1995, 43(10):1634—1639 (ссылка) 

130.  Sesquiterpene lactones from Sonchus arvensis L. and their antibacterial activity against Streptococcus mutans ATCC 25175. Xia, Z., Qu, W., Lu, H., Fu, J., Ren, Y., & Liang, “J.  Fitoterapia”, 2010, 81(5), 424–428.(ссылка) 

131. Lignans and sesquiterpenoids from Lactuca sibirica. Wanda Kisiel, Klaudia Michalska. “Fitoterapia”, June 2008, 79(4):241-244 (ссылка) 

132. Lonicera rupicola Hook.f.et Thoms flavonoids ameliorated dysregulated inflammatory responses, intestinal barrier, and gut microbiome in ulcerative colitis via PI3K/AKT pathway.  Li C, Wang L, Zhao J, Wei Y, Zhai S, Tan M, Guan K, Huang Z, Chen C. “Phytomedicine”, September 2022, 104:154284 (ссылка)  

133. Antimicrobial assay of methanolic crude of Lonicera lanceolata. Arifullah Khan, Sadia Nazir, Kamran Tahir, Zia Ul Haq Khan, Naijin Wu, Rehana Yasmeen and Irshad Ali. “African Journal of Microbiology Research”, June 2014, 8(26):2534-2539 (ссылка) 

134. A new lignan and a new sesquiterpene from Eurotia ceratoides (L.). Bina Shaheen Siddiqui, Kalamkas Zhanarbekovna Butabayeva, Gauhar Shahmanovna Burasheva, Sobiya Perwaiz, Syed Kashif Ali, Huma Aslam Bhatti. “Tetrahedron”,2010, 66(9):1716-1720 (ссылка) 

135.  Antioxidant Activities of Ribes diacanthum Pall Extracts in the Northern Region of Mongolia. Birasuren B, Oh HL, Kim CR, Kim NY, Jeon HL, Kim MR. “Prev Nutr Food Sci.”, December 2012, 17(4):261-8 (ссылка) 

136. The Main Alkaloids in Uncaria Rhynchophylla and Their Anti-Alzheimer’s Disease Mechanism Determined by a Network Pharmacology Approach. Zeng P, Wang X-M, Ye C-Y, Su H-F, Tian Q. “International Journal of Molecular Sciences”, 2021, 22(7):3612(ссылка)

137.  Determination of six bioactive components of Saussurea katochaete by capillary electrophoresis. Yue, M.-E., Li, Y. and Shi, Y.-P. “Biomed. Chromatogr.” ,2007, 21: 376-381.(ссылка)   

138. Chemosystematics of Di- and sesquiterpenoids in polypodiaceous ferns,T. Murakami, Y. Saiki.

“Biochemical Systematics and Ecology”, 1989, 17(2):131-140 (ссылка)

139.  Cardenolides from Saussurea stella with Cytotoxicity toward Cancer Cells. Wang, T.-M., Hojo, T., Ran, F.-X., Wang, R.-F., Wang, R.-Q., Chen, H.-B., … Cai, S.-Q. “Journal of Natural Products”, 2007, 70(9):1429–1433 (ссылка) 

140.  Chemical Constituents of Uncaria scandens. Yang, A., Shi, X., Zheng, Z. et al. “Chem Nat Compd”, 2018, 54:793–794 (ссылка)

141. Antioxidant activity of extracts from Uncaria scandens. Fulu Zhang, Aimei Yang, Songyao Ma, Huilan Shang and Zhihui Wang. “Conf. Ser.: Earth Environ. Sci.”, 2019, 330 (ссылка)  

142. Nutritionally Important Components of Proso Millet (Panicum miliaceum L.). Jana Kalinová. 

“Food. Global Science Books”, 2007 pages 91-100 (ссылка) 

143.  Pharmacology of Echinochloa Crus-Galli - A Review. Ali Esmail Al-Snafi. “Indo Am. J. P. Sci”, 2017; 4(01):117-122 (ссылка) 

144. Advances in biotechnology of Emblica officinalis Gaertn. syn. Phyllanthus emblica L.: a nutraceuticals-rich fruit tree with multifaceted ethnomedicinal uses. Saikat Gantait, Manisha Mahanta, Soumen Bera, Sandeep Kumar Verma. 3 Biotech (2021) 11:62 (ссылка) 

145.A systematic review on the cardiovascular pharmacology of Emblica officinalis Gaertn. Fataneh Hashem-Dabaghian, Mojtaba Ziaee, Samad Ghaffari, Farzaneh Nabati, Saeed Kianbakht. J Cardiovasc Thorac Res. 2018; 10(3): 118–128 (ссылка) 

146.   Quantitative analysis of polymeric proanthocyanidins in birch leaves with normal-phase HPLC. Karonen, M., Ossipov, V., Sinkkonen, J., Loponen, J., Haukioja, E., & Pihlaja, K. “Phytochemical Analysis”, 2006, 17(3): 149–156 (ссылка) 

147. Characterization of phenolics, amino acids, fatty acids and antioxidant activity in pulp and seeds of high altitude Himalayan crab apple fruits ( Malus baccata). Vikas Dadwal, Himani Agrawal, Kanika Sonkhla, Robin Joshi, Mahesh Gupta. “J Food Sci Technol.” 2018 Jun; 55(6): 2160–2169 (ссылка) 

148. Chemical constituents, antioxidant and gastrointestinal transit accelerating activities of dried fruit of Crataegus dahurica. Xinrui Wang, Changlong Zhang, Yajie Peng, Haimin Zhang, Zhigang Wang, Yang Gao, Ying Liu, Hailong Zhang. “Food Chem.” 2018 Apr 25;246:41-47. Epub 2017 Nov 3 (ссылка) 

149.   Bioactivity-guided isolation of antioxidant triterpenoids from Betula platyphylla var. japonica bark. Eom, H. J., Kang, H. R., Kim, H. K., Jung, E. B., Park, H. B., Kang, K. S., & Kim, K. H. “Bioorganic Chemistry”, 2016, 66:97–101 (ссылка) 

150. Исследование биологических особенностей масла эфирного и водомасляных продуктов дальневосточных видов берез. Шемякина А.В. “Лесохозяйственная информация”, 2015. (ссылка)  

151. Identification and Characterization of Major Flavonoids in Extracts from an Unexplored Medicinal Herb Orostachys fimbriata. Jeongho Lee, Hyerim Son, Kang Hyun Lee, Seunghee Kim, Ganzorig Myagmar, Soo-Yong Kim, Youngsang Chun, Hah Young Yoo. Horticulturae 2022, 8, 1092. (ссылка)

152.  Questions and answers to edibility problem of the Canavalia ensiformis seeds – A review.Udedibie, A. B and Carlini, C.R .  Animal Feed Science and Technology, 1998, 74(2), 95–106. (ссылка)

153. Antiproliferative effects of lectins from Canavalia ensiformis and Canavalia brasiliensis in human leukemia cell lines. Glaucia V. Faheina-Martins, Alethéia Lacerda da Silveira, Bruno C. Cavalcanti, Márcio V. Ramos, Manoel O. Moraes, Cláudia Pessoa, Demetrius A.M. Araújo. Toxicology in Vitro, 2012, 26(7):1161-1169 (ссылка)  

154.  Chemical composition, antioxidant capacity and functionality of raw and processed Phaseolus lunatus. Granito, M., Brito, Y. and Torres, A. J. Sci. Food Agric., 2007, 87:2801-2809 (ссылка) 

155. Beans (Phaseolus vulgaris L.): whole seeds with complex chemical composition. Francine Gomes Basso Los, Acácio Antonio Ferreira Zielinski, José Pedro Wojeicchowski, Alessandro Nogueira, Ivo Mottin Demiate. Current Opinion in Food Science, 2018, 19:63-71 (ссылка) 

156.  Erythrina variegata Linn: A review on morphology, phytochemistry, and pharmacological aspects. Kumar A, Lingadurai S, Jain A, Barman NR. Pharmacogn Rev., 2010 Jul, 4(8):147-52 (ссылка) 

157.  Sword bean (Canavalia gladiata) as a source of antioxidant phenolics. Gan, R.-Y., Lui, W.-Y. and Corke, H. Int J Food Sci Technol, (2016), 51: 156-162 (ссылка) 

158. Erythrascine and other alkaloids in seeds of Erythrina arborescens. S. Ghosal, A. Chakraborti, R.S. Srivastava. Phytochemistry, 1972, 11(6):2101-2103 (ссылка) 

159. Erythrina arborescens Roxb. FABACEAE. Bhattarai, K.R., Kunwar, R.M., Bussmann, R.W., Paniagua-Zambrana, N.Y.  Ethnobotany of the Himalayas. Ethnobotany of Mountain Regions. Springer, Cham, 2021 (ссылка) 

160. Galloylarbutin and other polyphenols from Bergenia purpurascens. Chen Xin-Min, Takashi Yoshida, Tsutomu Hatano, Makoto Fukushima, Takuo Okuda. Phytochemistry, 1987, 26(2):515-517 (ссылка) 

161. A COMPREHENSIVE REVIEW: BERGENIA LIGULATA WALL - A CONTROVERSIAL

CLINICAL CANDIDATE. S.S. Gurav and N.S. Gurav. IJPSR, 2014, 5(5):1630-1642. (ссылка)  

162.  Biologically Active Bergenin Derivatives from Bergenia stracheyi. Siddiq, F., Fatima, I., Malik, A., Afza, N., Iqbal, L., Lateef, M., … Khan, S. W. Chemistry & Biodiversity, 2012, 9(1):91–98. (ссылка) 

163.  PHYTOCHEMICAL INGREDIENTS AND PHARMACOLOGICAL PROPERTIES OF BERGENIA CILIATA. Kour, Harpreet & Raina, Rajinder & Verma, Pawan & Pankaj, Nrip Kishore & Singh, Satya. Journal of Veterinary Pharmacology and Toxicology, June 2019, 18(1):1-10 (2019). (ссылка) 

 164. A Review on Geranium wallichianum D-Don Ex-Sweet: An Endangered Medicinal Herb from Himalaya Region. Shaheen S, Yamin B, Hussain M, Iqbal M, Saira H, et al. Med Aromat Plants (Los Angles), 2017, 6(2):288 (ссылка)

165.Chemical Constituents and Antioxidant Activity of Geranium wallichianum. Mohammad Ismail, Mohammad Ibrar, Zafar Iqbal, Javid Hussain, Hidayat Hussain, Manzoor Ahmed, Asma Ejaz and Muhammad I. Choudhary. Rec. Nat. Prod., 2009, 3(4):193-197 (ссылка)

166. An integrated medicine of Bhutan: Sowa Rigpa concepts, botanical identification, and the recorded phytochemical and pharmacological properties of the eastern Himalayan medicinal plants. Karma Yeshi, Yangbum Gyal, Katharina Sabernig, Jigme Phuntsho, Tawni Tidwell, Tenzin Jamtsho, Rinchen Dhondup, Eliot Tokar, Phurpa Wangchuk. European Journal of Integrative Medicine, 2019, Volume 29 (ссылка)  

167. A new ferulic acid ester from Rhodiola wallichiana var. cholaensis (Crassulaceae). Yaling Song, Jianming Zhou, Xuejing Wang, Xue Xie, Yiwu Zhao, Fuyong Ni, Wenzhe Huang, Zhenzhong Wang and Wei Xiao. Natural Product Research, 2018, 32(1):77-84 (ссылка) 

168.  New Compounds from Rhodiola Kirilowii. Wiedenfeld, Helmut, Monika Zych, Waldemar Buchwald, and Mirosława Furmanow. Scientia Pharmaceutica, 2007, 75(1):29-34 (ссылка) 

169. Estimation of antinociceptive and anti-inflammatory activity on Geranium pratense subsp. finitimum and its phenolic compounds. Esra Küpeli, I. Irem Tatli, Zeliha S. Akdemir, Erdem Yesilada. Journal of Ethnopharmacology, 2007, 114(2):234-240 (ссылка) 

170.  Taxonomic Revision of Geranium sect. Polyantha (Geraniaceae). Aedo, C. Annals of the Missouri Botanical Garden, (2016), 101(4);611–635.(ссылка)  

171.  Chemical composition and allelopathic activity of essential oils from Geranium wilfordii Maxim.. Wang, S.Q. & Zhang, Y.M. & Liu, F. & Wang, Q.Y. & Yang, S. & Wei, Dongsheng & Sun, J.Z. & He, Shuliang & Zhang, Y.X. & Han, J.Y. & Qin, J.C..  Allelopathy Journal, (2019,  48:59-68. 10.26651/allelo.j/2019-48-1-1244. (ссылка) 

172. Bergenia crassifolia (L.) Fritsch. Alexander N. Shikov, Olga N. Pozharitskaya, Marina N. Makarova, Valery G. Makarov, Hildebert Wagner. Pharmacology and phytochemistry, Phytomedicine, 2014, 21(12):1534-1542 (ссылка) 

173. Chemical constituents from the roots of Polygonum bistorta. Xiao-Bai Sun, Pei-Hua Zhao, Yang-Jun Xu, Li-Mei Sun, Mei-Ai Cao, and Cheng-Shan Yuan. Chemistry of Natural Compounds, 2007, 43(5) (ссылка)  

174. Antioxidant Capacities and Total Quercetin Content of Several Species of Polygonaceae in Mongolia. Tseye-oidov, Odbayar & MIKAMI, Ichiho & WATANABE, Jun & Tsushida, Tojiro & DEMBEREL, Badamhkand & KIMURA, Toshinori & Ide, Takashi.  Food Science and Technology Research, 2010, 16:169-174. (ссылка) 

175.  Phytochemical Profile and Antioxidant Activities of Coleus amboinicus Lour. Cultivated in Indonesia and Poland. Ślusarczyk S, Cieślak A, Yanza YR, Szumacher-Strabel M, Varadyova Z, Stafiniak M, Wojnicz D, Matkowski A. Molecules, 2021, 26(10):2915 (ссылка) 

176. Diterpenoid alkaloids and flavonoids from Delphinium trichophorum. Chao-Zhan Lin, Zhong-Xiang Zhao, Si-Min Xie, Ju-Hua Mao, Chen-Chen Zhu, Xiao-Hui Li, Zeren-dawa Bairi, Suolang-qimei Kangsa, Zhu Dun, Tian-Qin Xiong, Ai-Zhi Wu. Phytochemistry, 2014, 97: 88-95 (ссылка) 

177. "Chemical Composition and Biological Activity of Paris quadrifolia L." Jenett-Siems, Kristina, Krause, Nadin, Siems, Karsten, Jakupovic, Sven, Wallukat, Gerd and Melzig, Matthias F.. Zeitschrift für Naturforschung C, 2012, 67(11-12):565-570 (ссылка) 

178. Steroidal saponins with induced platelet aggregation activity from the aerial parts of Paris verticillata. Chang-Li Sun, Wei Ni, Huan Yan, Zhen-Hua Liu, Lian Yang, Yong-Ai Si, Yan Hua, Chang-Xiang Chen, Li He, Jin-Hua Zhao, Hai-Yang Liu. Steroids, 2014, 92: 90-95 (ссылка) 

179. Alkaloids and phenylpropanoids from Peganum nigellastrum. Zhong-Ze Ma, Yoshio Hano, Taro Nomura, Ying-Jie Chen. Phytochemistry, 2000, 53(8):1075-1078 (ссылка) 

180. Analgesic and Anti-Inflammatory Activities of Quercetin-3-methoxy-4′-glucosyl-7-glucoside Isolated from Indian Medicinal Plant Melothria heterophylla.  Mondal, Arijit & Maity, Tapan & Bishayee, Anupam. Medicines, 2019, 6:59 (ссылка) 

181. Rapid characterization the chemical constituents of Bergenia purpurascens and explore potential mechanism in treating osteoarthritis by ultra high performance liquid chromatography coupled with quadrupole time-of-flight mass spectrometry combined with network pharmacology. Qu Y, Zhang C, Liu R, Wu H, Sun Y, Zhang N, Nima C, Danpei Q, Zhang S, Sun Y. J Sep Sci. 2020 Aug;43(16):3333-3348. doi: 10.1002/jssc.201901284. Epub 2020 Jun 24. PMID: 32496008. (ссылка)

182. Bergenia ciliata: A comprehensive review of its traditional uses, phytochemistry, pharmacology and safety. Ahmad M, Butt MA, Zhang G, Sultana S, Tariq A, Zafar M.  Biomed Pharmacother. 2018 Jan;97:708-721. doi: 10.1016/j.biopha.2017.10.141. Epub 2017 Nov 6. PMID: 29102914. (ссылка)

183. Antibacterial, Antifungal, Cytotoxic, Phytotoxic, Insecticidal, and Enzyme Inhibitory Activities of Geranium wallichianum. Ismail M, Hussain J, Khan AU, Khan AL, Ali L, Khan FU, Khan AZ, Niaz U, Lee IJ. Evid Based Complement Alternat Med. 2012;2012:305906. doi: 10.1155/2012/305906. Epub 2012 Sep 20. PMID: 23049606; PMCID: PMC3461298. (ссылка)

184. Polyphenolic compounds from Geranium pratense and their free radical scavenging activities. Akdemir ZS, Tatli II, Saracoğlu I, Ismailoğlu UB, Sahin-Erdemli I, Caliş I. Phytochemistry. 2001 Jan;56(2):189-93. doi: 10.1016/s0031-9422(00)00367-8. PMID: 11219813. (ссылка)

185. Geranium wilfordii maxim.: A review of its traditional uses, phytochemistry, pharmacology, quality control and toxicology. He C, Chen J, Liu J, Li Y, Zhou Y, Mao T, Li Z, Qin X, Jin S. J Ethnopharmacol. 2022 Mar 1;285:114907. doi: 10.1016/j.jep.2021.114907. Epub 2021 Dec 8. PMID: 34896206. (ссылка)

186. Diterpenoid alkaloids isolated from Delphinium trichophorum alleviate pulmonary fibrosis via the TGF-β/Smad pathway in 3T6 and HFL-1 cells. Yao Y, Chen Y, Zeren D, Ma Y, Xie Y, Wang Q, Ma H, Wang M, Liu F, Zhu C, Lin C. Biomed Pharmacother. 2022 May;149:112906. doi: 10.1016/j.biopha.2022.112906. Epub 2022 Apr 4. PMID: 36068772. (ссылка)

187. FIVE IRIDOIDAL GLYCOSIDES FROM GENTIANA URNULA[J].  LlUYan-Hong LI Xing-Cong LIU Yu-Qing YANG Chong-Ren. Plant Diversity, 1994, 16(4): 1-3.(ссылка) 

188. The corrected structure of depressoside, an antioxidative iridoid glucoside extracted from the flowers of Gentiana urnula Harry Sm. Ken Kusakari and Tadao Fukuhara and Akira Motoyama and Nobuhiko Ochiai and Takashi Watanabe and Yukihiro Sugimoto. Natural Product Research, 2016, 30(8):954-959 (ссылка) 

189.  A comparative study of Mentha arvensis L. and Mentha haplocalyx Briq. by HPLC. Bing Tian Zhao, Tae In Kim, Young Ho Kim, Jong Seong Kang, Byung Sun Min, Jong Keun Son & Mi Hee Woo. Natural Product Research, 2018, 32(2):239-242 (ссылка) 

190. Malaysianol A, a new trimer resveratrol oligomer from the stem bark of Dryobalanops aromatica. A. Wibowo, N. Ahmat, A.S. Hamzah, A.S. Sufian, N.H. Ismail, R. Ahmad, F.M. Jaafar, H. Takayama. Fitoterapia, 2011, 82(4):676-681 (ссылка) 

191.  Blumea balsamifera—A Phytochemical and Pharmacological Review. Pang Y, Wang D, Fan Z, Chen X, Yu F, Hu X, Wang K, Yuan L. Molecules, 2014, 19(7):9453-9477 (ссылка) 

192. Iridoids and flavones from Gentiana depressa. Albert J. Chulia, Joseph Vercauteren, Anne Marie Mariotte. Phytochemistry, 1996, 42(1): 139-143 (ссылка)

193.  Novel and Efficient In Vitro Organogenesis Approach for Ajuga lupulina Maxim. Wu Q, Yang H, Yang Y, He J, Aer E, Ma Y, Zou L. A. Plants, 2021, 10(9):1918 (ссылка) 

194. Leonurus sibiricus L. (honeyweed): A review of its phytochemistry and pharmacology,Md. Abu Sayed, Md. Ashraful Alam, Md. Shariful Islam, Md. Taif Ali, Md. Emdad Ullah, Abu Zaffar Shibly, Md. Aslam Ali, Md. Mahdi Hasan-Olive. Asian Pacific Journal of Tropical Biomedicine, 2016, 6(12):1076-1080 (ссылка) 

195. Caffeoylglucaric Acids and Other Phenylpropanoids From Siberian Leonurus Species. Olennikov, D.N., Chirikova, N.K. Chem Nat Compd, 2016, 52:915–917 (ссылка) 

196. Anti-Toxoplasma gondii agent isolated from Orostachys malacophylla (Pallas) Fischer. Yan Piao, Lili Jin, Xu Cheng, Weifeng Yan, Changhao Zhang, Sihong Wang, Chunmei Jin. Experimental Parasitology, 2022, 242 (ссылка) 

197. Фитохимическое изучение надземной части Orostachys spinosa L. Манжигеев Петр Геннадьевич. Вестник Бурятского государственного университета. Медицина и фармация, 2017, 2 (ссылка) 

198. Chemical study of Panzerina lanata. Olennikov, D. N., & Tankhaeva, L. M. Chemistry of Natural Compounds, 2011, 47(5):802–804(ссылка) 

199.Chemical composition of essential oils from Galeopsis bifida and Phlomoides tuberosa. Olennikov, D. N., Dudareva, L. V., & Tankhaeva, L. M.  Chemistry of Natural Compounds, 2010, 46(2): 316–318 (ссылка) 

200. Anti-complementary activity of flavonoids from Gnaphalium affine D. Don, Zhongxin Xi, Wansheng Chen, Zhijun Wu, Yan Wang, Peiyuan Zeng, Guijun Zhao, Xia Li, Lianna Sun. Food Chemistry, 2012, 130(1):165-170 (ссылка) 

201. Antiglycemic and anticomplementary potential of an edible plant Gnaphalium hypoleucum DC. Qun Sun, Nai-Yu Xu, Qi-Run Li, Shi Yao, Meng Li, He-Ran Li, Jian Zhang, Dao-Feng Chen. Journal of Functional Foods, 2017, 38, Part A, Pages 321-328 (ссылка) 

202.  Phytochemical Investigation ofAnaphalis lactea. Ren, Z.-Y., Qi, H.-Y., & Shi, Y.-P. Planta Medica, 2008, 74(08):859–863. (ссылка) 

203. NEMATOCIDAL, INSECTICIDAL, ANTI-INFLAMMATORY AND CYTOTOXIC ACTIVITIES OF SELECTED MEDICINAL PLANTS. Muhammad ISMAIL, Salma JAVED, Zahra BATOOL, Kiran ZAHRA, Iffat DIN, Salma SHAHEEN, Ejaz HUSSAIN, Yupei YANG, Wei WANG. Fascicula Biologie, 2021, 28( 1):7-13 (ссылка) 

204.  Flavanones of Tanacetum sibiricum. Stepanova, T. A., Sheichenko, V. I., Smirnova, L. P., & Glyzin, V. I.  Chemistry of Natural Compounds, 1981, 17(6): 520–526 (ссылка) 

205.  "СРАВНИТЕЛЬНАЯ ХАРАКТЕРИСТИКА ХИМИЧЕСКОГО СОСТАВА VERONICA INCANA L. (PLANTAGINACEAE) В ЯКУТИИ". Чемпосов В.В., and Чирикова Н.К.. Трансформация экосистем, 2022, vol. 5, no. 4 (18),  pp. 79-82. (ссылка) 

206. Iridoid glucosides from Veronica anagallis-aquatica. Mohamed-Farid Lahloub, Mona G. Zaghloul, Mohamed S. Afifi, Otto Sticher. Phytochemistry, 1993, 33(2): 401-405 (ссылка) 

207.  New Acylated Flavone-O-Glycosides and Iridoids from the Genus Veronica. Olennikov, D.N., Chirikova, N.K. Chem Nat Compd, 2021, 57:436–444 . (ссылка)

208.  Veronica Plants—Drifting from Farm to Traditional Healing, Food Application, and Phytopharmacology. Salehi B, Shivaprasad Shetty M, V. Anil Kumar N, Živković J, Calina D, Oana Docea A, Emamzadeh-Yazdi S, Sibel Kılıç C, Goloshvili T, Nicola S, Pignata G, Sharopov F, del Mar Contreras M, C. Cho W, Martins N, Sharifi-Rad J. Molecules, 2019, 24(13):2454 (ссылка) 

209.  Chlorinated Iridoid Glucosides fromVeronica longifolia and Their Antioxidant Activity.Jensen, S. R., Gotfredsen, C. H., Harput, U. S., & Saracoglu, I.  Journal of Natural Products, 2010, 73(9):1593–1596(ссылка) 

210.  A new iridoid glycoside from Veronica sibirica. Teng, J., Zhang, F. G., Zhang, Y. W., Takaishi, Y., & Duan, H. Q. Chinese Chemical Letters, 2008, 19(4):450–452(ссылка) 

211.  Erythrina suberosa: Ethnopharmacology, Phytochemistry and Biological Activities.Patti F, Taheri Y, Sharifi-Rad J, Martorell M, Cho WC, Pezzani R. Medicines, 2019, 6(4):105 (ссылка) 

212. Phenolic compounds from parasitic Sapria himalayana f. albovinosa and Sapria myanmarensis (Rafflesiaceae) in Myanmar. Tsukasa Iwashina, Nobuyuki Tanaka, Mu Mu Aung, Hari Prasad Devkota, Takayuki Mizuno. Biochemical Systematics and Ecology, 2020, vol. 93 (ссылка) 

213. Quisqualis indica Linn : A Review of its Medicinal Properties. Jyoti Sahu, Pushpendra Kumar Patel, Balakrishna Dubey. International Journal of Pharmaceutical and Phytopharmacological Research, 2012, 1(5): 313-321 (ссылка) 

214. Inhibition of colon cancer cell growth and antioxidant activity of bioactive compounds from Poncirus trifoliata (L.) Raf. G.K. Jayaprakasha, K.K. Mandadi, Shibu M. Poulose, Y. Jadegoud, G.A. Nagana Gowda, Bhimanagouda S. Patil. Bioorganic & Medicinal Chemistry, 15 July 2007, 15(14): 4923-4932 (ссылка) 

215. Antioxidant compounds from Rosa laevigata fruits. Xi Li, Wei Cao, Ying Shen, Ning Li, Xiao-Ping Dong, Kai-Jin Wang, Yong-Xian Cheng. Food Chemistry, 1 February 2012, 130(3): 575-580 (ссылка)

216.  Chemical Constituents of the Whole Plant of Ajania tenuifolia. Zhang, ZX., Yu, CX., Yu, YF. et al. Chem Nat Compd, 2019, 55:726–728  (ссылка) 

217. Two methylated flavones from Artemisia frigida.  Liu, Y., & Mabry, T. J. Phytochemistry, 1981, 20(2), 309–311 (ссылка)  

218. Anti-inflammatory effects, nuclear magnetic resonance identification, and high-performance liquid chromatography isolation of the total flavonoids from Artemisia frigida. Qinghu Wang, Jinmei Jin, Nayintai Dai, Narenchaoketu Han, Jingjing Han, Baiyinmuqier Bao. Journal of Food and Drug Analysis, 2016, 24(2): 385-391 (ссылка)  

219.  Phytochemical composition of wormwood (Artemisia gmelinii) extracts in respect of their antimicrobial activity. Mamatova, A.S., Korona-Glowniak, I., Skalicka-Woźniak, K. et al. BMC Complement Altern Med, 2019, 19: 288 (ссылка) 

220. Sesquiterpene lactones from Artemisia mongolica. Ziwei Zhu, Ablajan Turak, Haji Akber Aisa. Phytochemistry, 2022, 199 (ссылка) 

221. Artemisia dracunculus L. (Tarragon): A Critical Review of Its Traditional Use, Chemical Composition, Pharmacology, and Safety. Dmitry Obolskiy, Ivo Pischel, Bjoern Feistel, Nikolay Glotov, and Michael Heinrich. J. Agric. Food Chem., 2011, 59(21): 11367–11384 (ссылка) 

222. Artemleucolides A−L, eudesmane-type sesquiterpenoids from Artemisia leucophylla and their antihepatoma cytotoxicity. Yuan Wang, Yun-Bao Ma, Xiao-Yan Huang, Tian-Ze Li, Xiao-Feng He, Xue-Mei Zhang, Ji-Jun Chen. Fitoterapia, March 2023, 165 (ссылка) 

223. Chemical Constituents from the Aerial Parts of Artemisia minor. Zhi-Zhou He, Ju-Fang Yan, Zhi-Jun Song, Fei Ye, Xun Liao, Shu-Lin Peng, and Li-Sheng Ding. J. Nat. Prod., 2009, 72(6): 1198–1201 (ссылка) 

224.  Variability in Fragrance Constituents of HimalayanTanacetumSpecies:. Mathela, C. S., Padalia, R. C., & Joshi, R. K.  Commercial Potential. Journal of Essential Oil Bearing Plants, 2008, 11(5): 503–513. (ссылка) 

225. Chemical compositions of essential oils from two Artemisia species used in Mongolian traditional medicine. N. Javzmaa, Sh.Altantsetseg, S.Shatar, A.Amarjargal. Mong. J. Chem., 2017, 18 (44):48-51 (ссылка) 

226. Anti-oxidative and Antibacterial Constituents from Sedum hybridum. Odontuya Gendaram, Yoen Hee Choi, Young Sup Kim, and Shi Yong Ryu. Natural Product Sciences, 2011, 17(4) : 279-284 (ссылка) 

227. Bioactivity, Compounds Isolated, Chemical Qualitative, and Quantitative Analysis of Cymbaria daurica Extracts. Xue Gong, Jie Wang, Meiying Zhang, Peng Wang, Congcong Wang, Ruyu Shi, Erhuan Zang, Mingxu Zhang1, Chunhong Zhang and Minhui Li. Front. Pharmacol., 07 February 2020, 11 (ссылка) 

228. Phytochemicals and biological activities of Artemisia sieversiana .  Liu, SJ., Liao, ZX., Tang, ZS. et al. Phytochem Rev, 2017, 16, 441–460 (ссылка) 

229. Composition of the Essential Oil ofTanacetum nubigenumWallich ex DC. Beauchamp, P., Dev, V., Kashyap, T., Melkani, A., Mathela, C., & Bottini, A. T.   Journal of Essential Oil Research, 2001, 13(5): 319–323. (ссылка) 

230.  Composition of the Essential Oil ofTanacetum nubigenumWallich ex DC. Beauchamp, P., Dev, V., Kashyap, T., Melkani, A., Mathela, C., & Bottini, A. T. Journal of Essential Oil Research, 2001, 13(5): 319–323. (ссылка

231.  Antihyperlipidemic Effect, Identification and Isolation of the Lipophilic Components from Artemisia integrifolia. Xu Y, Wang Q, Bao W, Pa B. Molecules, 2019, 24(4):725. (ссылка)

232.   Phytochemical study of Kochia prostrata. Seitimova G.A., Alzhanbayeva A.M., Burasheva G.Sh., Yeskaliyeva B.K., Choudhary M.I. International Journal of Biology and Chemistry, 2016, 9(2): 51 (ссылка)

233. . Isolation and Identification of Cytotoxic and Antimalarial Constituents from Artemisia moorcroftiana.Bhat, K. A., Naseer, S., Gani, I., Jameel, S., Amin, H., Bhat, S. A., & Gupta, A. P.  ChemistrySelect, 2021, 6(5): 962–967. (ссылка)

234. Chemical Composition and Antimicrobial Activity of the Essential Oil from Artemisia carvifolia Leaves. Y. Yang, J. Wu, J. Ma & P. Lin. Chemistry of Natural Compounds, 2015, 51: 161–163  (ссылка)  

235.  Chemical constituents from the aerial parts of Ajania fruticulosa. Author links open overlay panelJun-Yu Liang, Pei-Yu Lu, An-Qi Ning, Ying-Ying Yang, Ya-Zhou Shao, Jie Xu. Biochemical Systematics and Ecology, , October 2020, 92 (ссылка) 

236. A New Flavonoid from Artemisia commutata with an In Silico Inhibitory Potential against the SARS-CoV-2 Main Protease. Suleimen YM, Jose RA, Suleimen RN, Arenz C, Ishmuratova MY, Toppet S, Dehaen W, Alsfouk BA, Elkaeed EB, Eissa IH, Metwaly AM. Jusanin, Molecules, 2022, 27(5):1636. (ссылка) 

237. Artemisia scoparia: Traditional uses, active constituents and pharmacological effects. Jiwei Ding, Linlin Wang, Chunnian He, Jun Zhao, Lijun Si, Hua Huang.  Journal of Ethnopharmacology, 12 June 2021, 273 (ссылка) 

238. Phytochemical components and biological activities of Artemisia argyi. Xiaowan Song, Xiang Wen, Jingwen He, Hui Zhao, Shiming Li, Meiyan Wang.  Journal of Functional Foods, January 2019, 52: 648-662 (ссылка) 

239.  3′-Demethoxy-6-O-Demethylisoguaiacin and Norisoguaiacin Nematocidal Lignans from Artemisia cina against Haemonchus contortus Infective Larvae. Higuera-Piedrahita RI, Dolores-Hernández M, Cruz-Cruz HAdl, López-Arellano R, Gives PM-d, Olmedo-Juárez A, Cuéllar-Ordaz JA, González-Cortazar M, Ble-González EA, López-Arellano ME, Zamilpa A. Plants, 2023, 12(4):820 (ссылка) 

240.  Traditional application and modern pharmacological research of Artemisia annua L. Xinchi Feng, Shijie Cao, Feng Qiu, Boli Zhang. Pharmacology & Therapeutics, December 2020, 216 (ссылка) 

241. Significance of Artemisia Vulgaris L. (Common Mugwort) in the History of Medicine and Its Possible Contemporary Applications Substantiated by Phytochemical and Pharmacological Studies. Ekiert H, Pajor J, Klin P, Rzepiela A, Ślesak H, Szopa A. Molecules, 2020, 25(19):4415 (ссылка) 

242. Chemical composition and biological activity against Tribolium castaneum (Coleoptera: Tenebrionidae) of Artemisia brachyloba essential oil. Junpeng Hu, Wenxia Wang, Jiali Dai, Liang Zhu. Industrial Crops and Products, February 2019, 128: 29-37 (ссылка) 

243. Constituents ofArtemisia roxburghiana Besser essential oil. Bicchi, C., Rubiolo, P., Marschall, H., Weyerstahl, P., & Laurent, R.  Flavour and Fragrance Journal, 1998, 13(1):40–46.(ссылка) 

244.  A new guaianolide from Artemisia roxburghiana. Giang, P. M., Nhan, T. T. T., Son, P. T., Matsunami, K., & Otsuka, H. Natural Product Research, 2013, 27(20): 1856–1858(ссылка) 

245.  Identification of Floral Scent in Chrysanthemum Cultivars and Wild Relatives by Gas Chromatography-Mass Spectrometry. Sun H, Zhang T, Fan Q, Qi X, Zhang F, Fang W, Jiang J, Chen F, Chen S. Molecules, 2015, 20(4):5346-5359 (ссылка) 

246. Chemical constituents from the aerial sections of Ajania potaninii. Jun-Yu Liang, Jie Xu, Ya-Zhou Shao, Ying-Ying Yang, Pei-Yu Lu, Jun-Long Wang, Shu-Shan Du. Biochemical Systematics and Ecology, June 2019, 84: 64-66 (ссылка) 

247. Unusual sesquiterpene lactones with a new carbon skeleton and new acetylenes from Ajania przewalskii. Ying Zhu, Li-Xia Zhang, Yan Zhao, Guo-Du Huang. Food Chemistry, 15 January 2010, 118(2): 228-238 (ссылка) 

248. Secondary metabolites from Ajania salicifolia and their chemotaxonomic significance. Zhuan-Ning Shi, Hong-Ru Wu, Xiao-Yan Pang, Jing-Rong Chen, Ying Zhu. Biochemical Systematics and Ecology, February 2017, 70: 162-167  (ссылка) 

249.  Quinones and coumarins fromAjania salicifolia and their radical scavenging and cytotoxic activity. Wu, H.-R., Zhang, W., Pang, X.-Y., Gong, Y., Obulqasim, X. M. U., Li, H.-F., & Zhu, Y. Journal of Asian Natural Products Research, 2015, 17(12): 1196–1203 (ссылка) 

250. Preliminary Phytochemical Screening and Antispasmodic Activity of Artemisia macrocephala Jacquem. Ali, N., Shah, S. W. A., & Shah, I. Journal of Young Pharmacists, 2011,  3(2): 125–128 (ссылка) 

251. Essential Oil from Artemisia phaeolepis: Chemical Composition and Antimicrobial Activities. Anis Ben Hsouna, Nihed Ben Halima, Slim Abdelkafi, Naceur Hamdi. Oils and Fats, 2013, 12: 973-980 (ссылка) 

252. Chemical components, antimicrobial and antioxidant activities of essential oil from Artemisia kanashiroi in Northwest China. Hailiang Li,Yang Yang &Long Hai. Journal of Essential Oil Research, 2023, 1-14 (ссылка) 

253. Highly Oxygenated Guaianolides fromArtemisia dubia.  Huang, Z.-S., Pei, Y.-H., Liu, C.-M., Lin, S., Tang, J., Huang, D.-S., … Zhang, W.-D. Planta Medica, 2010, 76(15): 1710–1716 (ссылка) 

254.  Chemical composition and antiprolifrative activity of Artemisia persica Boiss. and Artemisia turcomanica Gand. essential oils. Nikbakht MR, Sharifi S, Emami SA, Khodaie L .Res Pharm Sci., Mar-Apr 2014 , 9(2):155-63 (ссылка) 

255. Specific characteristics of essential oils of four Artemisia species from the Mongolian Trans-Altai Gobi. N.Javzmaa, Sh.Altantsetseg, S.Shatar, T.Enkhjargal, Z.Anu. Mongolian Journal of Chemistry, 2015, 16 (42): 34-38 (ссылка) 

256. A review on polysaccharides from Artemisia sphaerocephala Krasch seeds, their extraction, modification, structure, and applications. Mohib Ullah Kakar, Ihsan Ullah Kakar, Muhammad Zubair Mehboob, Shah Zada, Hidyatullah Soomro, Muhammad Umair, Imran Iqbal, Muhammad Umer, Shabnam Shaheen, Shahid Faraz Syed, Yulin Deng, Rongji Dai.  Carbohydrate Polymers, 15 January 2021, 252: 117113 (ссылка) 

257.  Anti-Osteoarthritic Mechanisms of Chrysanthemum zawadskii var. latilobum in MIA-Induced Osteoarthritic Rats and Interleukin-1β-Induced SW1353 Human Chondrocytes. Byun J-H, Choi C-W, Jang M-J, Lim SH, Han HJ, Choung S-Y. Medicina, 2020, 56(12):685 (ссылка) 

258.  Chamomile (Matricaria chamomilla L.): An overview. Singh O, Khanam Z, Misra N, Srivastava MK. Pharmacogn Rev., 2011 Jan, 5(9):82-95(ссылка) 

259.  "Commiphora wightii". Ved, D.; Saha, D.; Ravikumar, K.; Haridasan, K. IUCN Red List of Threatened Species, 2015 (ссылка) 

260. Anti-inflammatory and analgesic activity of different extracts of Commiphora myrrha.  Su, S., Wang, T., Duan, J.-A., Zhou, W., Hua, Y.-Q., Tang, Y.-P., … Qian, D.-W. .Journal of Ethnopharmacology, 2011, 134(2): 251–258. (ссылка) 

261. Antibacterial, anti-biofilm and anticancer potentials of green synthesized silver nanoparticles using benzoin gum (Styrax benzoin) extract.  Du, J., Singh, H. & Yi, TH. Bioprocess Biosyst Eng, 2016, 39: 1923–1931 (ссылка) 

262.  Triterpenes and lignans from the leaves of Styrax tonkinensis. Hu, W.-L., Li, Z.-L., Chen, Q.-J., Sun, Y.-W., Zhai, S., Lu, F., … Zhang, C.-F. Biochemical Systematics and Ecology, 2019, 86, 103891(ссылка) 

263.  Chemistry and antioxidant activity of essential oil and oleoresins of black caraway (Carum bulbocastanum) fruits: Part 69. Kapoor, I.P.S., Singh, B., Singh, G., De Heluani, C.S., De Lampasona, M.P. and Catalan, C.A.N. J. Sci. Food Agric.,(2010), 90: 385-390 (ссылка) 

264. The pharmacological importance of Anethum graveolens. A review. Ali Esmail Al-Snafi. International Journal of Pharmacy and Pharmaceutical Sciences, 2014, 6(4):11-13 (ссылка) 

265. Antimicrobial and antioxidant activities of the essential oil of Chaerophyllum libanoticum Boiss. et Kotschy. B. Demirci, M. Koşar, F. Demirci, M. Dinç, K.H.C. Başer. Food Chemistry, 2007, 105(4): 1512-1517(ссылка) 

266. Semecarpus anacardium Linn.: A review. Mona Semalty, Ajay Semalty, Ashutosh Badola, Geeta Pant Joshi, M. S. M. Rawat. Pharmacology reviews, Jan-Jun 2010, 4(7): 88-94 (ссылка) 

267. Composition of European chestnut (Castanea sativa Mill.) and association with health effects: fresh and processed products. De Vasconcelos, M.C., Bennett, R.N., Rosa, E.A. and Ferreira-Cardoso, J.V. J. Sci. Food Agric.,  (2010), 90: 1578-1589 (ссылка) 

268.  Cistanche deserticola Y. C. Ma, “Desert Ginseng”: A Review. Wang, T., Zhang, X., & Xie, W. The American Journal of Chinese Medicine, 2012, 40(06): 1123–1141. (ссылка) 

269.  New Glycosides from Cistanche salsa. Lei, L., Jiang, Y., Liu, X.-M., Tu, P.-F., Wu, L.-J. and Chen, F.-K. HCA, (2007), 90: 79-85 (ссылка) 

270.  Studies on a Medicinal Parasitic Plant: Lignans from the Stems of Cynomorium songaricum. Zhi-Hong JIANG, Takashi TANAKA, Masafumi SAKAMOTO, Tong JIANG and Isao KOUNO, Chem. Pharm. Bull., 2001,  49(8): 1036—1038 (ссылка) 

271. Flavonol mono-and diglycosides from leaves of Caragana spinosa. D. N. Olennikov, L. M. Tankhaeva, and V. V. Partilkhaev. Chemistry of Natural Compounds, July, 2012, 48(3) (ссылка)

272. Chemical constituents from bark of Caragana opulens.  Yang ZD, Xiao AR, Zhang X, Li T, Li S.  Journal of Chinese Medicinal Materials, 01 Jun 2008, 31(6):855-857 (ссылка)  

273.  New cycloartane type-triterpenoids from the aerial parts of Caragana sukiensis and their biological activities. Reddy, S. D., Siva, B., Phani Babu, V. S., Vijaya, M., Nayak, V. L., Mandal, R., … Babu, K. S. European Journal of Medicinal Chemistry, 2017, 136: 74–84.(ссылка)

274. Flavonoids of Caragana pygmaea. A. E. Polovinko & G. P. Yakovlev. Chemistry of Natural Compounds, 1985, 21: 252–253 (ссылка) 

275. Chemical Investigation of Caragana arborescens Shoots. Daniil N. Olennikov, Larisa M. Tankhaeva and Vyacheslav V. Partilkhaev. Natural Product Communications, 2013, 8(5): 585-586  (ссылка) 

276.  Flavonol derivatives from Caragana leucophloea and their antimicrobial and antioxidant activities. Gao, Haifeng & Zheng, Bingbing & Wang, Jihua & Shan, Tijiang & Zhao, Sifeng & Zhou, Ligang. Nat. Prod/ Res. Dev., 2011, 23: 853-856. (ссылка)

277. CHEMICAL RESEARCH OF Caragana microphylla SeedsYan Huo, Cheng Guo, Shan Lu,Qiao-Yan Zhang, and Lu-Ping Qin. Chemistry of Natural Compounds, 2007, 43(2): 214-215 (ссылка)  

278.  Bioactive-guided isolation and identification of oligostilbenes as anti-rheumatoid arthritis constituents from the roots of Caragana stenophylla. Pan, L., Zhang, T., Yu, M., Shi, M., Jia, X., Jia, X., & Zou, Z. Journal of Ethnopharmacology, 2021, 280: 114134. (ссылка)

279. ISOLATION AND PURIFICATION OF A LECTIN FROM SEEDS OF A DROUGHT RESISTANT PLANT, CARAGANA GERARDIANA AND EVALUATION OF ITS ANTIMICROBIAL AND ANTIOXIDANT ACTIVITIES. Aijaz Ahmad Ganaie, Ravi Prakash Mishra and Aashiq Hussain Allaie. World Journal of Pharmaceutical Research, 2017, 6(15): 493-506 (ссылка) 

280. Cytotoxic and apoptotic effects of constituents from Millettia pachycarpa Benth. Ye, H., Fu, A., Wu, W., Li, Y., Wang, G., Tang, M., … Chen, L.  Fitoterapia, 2012: 83(8), 1402–1408. (ссылка) 

281. "Antiviral Activity of Some Plants Used in Nepalese Traditional Medicine". M. Rajbhandari, R. Mentel, P. K. Jha, R. P. Chaudhary, S. Bhattarai, M. B. Gewali, N. Karmacharya, M. Hipper, U. Lindequis. Evidence-Based Complementary and Alternative Medicine, 2009,  6 (ссылка)  

282. “7 - Aniseed” M. Özgüven. In Woodhead Publishing Series in Food Science, Technology and Nutrition, Handbook of Herbs and Spices (Second Edition), Woodhead Publishing, 2012, Pages 138-150, ISBN 9780857090409 (ссылка)  

283.  Lipids from Seeds of Matricaria matricarioides . Khidoyatova, S.K., Ul’chenko, N.T. & Gusakova, S.D.Chem Nat Compd, 2015, 51, 224–227. (ссылка) 

284. Herbal remedies used against arthritis in Kishtwar High Altitude National Park. Kumar, Satish Hamal, Irshad Ahmed. Indian Journal of Traditional Knowledge, April 2011, 10 (2): 358-361 (ссылка) 

285.  Resveratrol-type oligostilbenes from Iris clarkei antagonize 20-hydroxyecdysone action in the Drosophila melanogaster BII cell line . Keckeis, K., Sarker, S. & Dinan, L. CMLS, Cell. Mol. Life Sci., 2000, 57: 333–336 (ссылка)

286.  A Clinical Trial to Evaluate the Efficacy of α-Viniferin in Staphylococcus aureus - Specific Decolonization without Depleting the Normal Microbiota of Nares. Rahim MA, Seo H, Kim S, Jeong YK, Tajdozian H, Kim M, Lee S, Song HY. Pol J Microbiol., 2021 Mar, 70(1):117-130. (ссылка) 

287. Antioxidative Caffeoylquinic Acids and Flavonoids from Hemerocallis fulva Flowers. Yun-Lian Lin, Chung-Kuang Lu, Yeh-Jeng Huang, and Hong-Jhang Chen. J. Agric. Food Chem., 2011, 59(16): 8789–8795 (ссылка) 

288.  New acetylated flavone C -glycosides from Iris lactea. Whaley, A. K., Ebrahim, W., El-Neketi, M., Ancheeva, E. U., Özkaya, F. C., Pryakhina, N. I., … Proksch, P.  Tetrahedron Letters, 2017, 58(22): 2171–2173(ссылка) 

289.  Two new C-glycosylflavones from the leaves of Iris lactea var. chinensis. Shen, W. J., Qin, M. J., Shu, P., & Zhang, C. F.  Chinese Chemical Letters, 2008, 19(7): 821–824 (ссылка) 

290.  Chemical Composition and Biological Activities of Essential Oil from the Rhizomes of Iris bulleyana. DENG, G., ZHANG, H., XUE, H., CHEN, S., & CHEN, X. .Agricultural Sciences in China, 2009, 8(6): 691–696 (ссылка) 

291. Studies on α-glucosidase inhibition and anti-glycation potential of Iris loczyi and Iris unguicularis. Mosihuzzman, M., Naheed, S., Hareem, S., Talib, S., Abbas, G., Khan, S. N., … Israr, M.  Life Sciences, 2013, .92(3): 187–192 (ссылка) 

292.  Analysis of Flavonoids and Phenolic Acids in Iris tectorum by HPLC-DAD-ESI-MSn. SHU, P., HONG, J.-L., WU, G., YU, B.-Y., & QIN, M.-J. Chinese Journal of Natural Medicines, 2010, 8(3): 202–207. (ссылка) 

293.  Iridals from Iris tectorum and Belamcanda chinensis.Takahashi, K., Hoshino, Y., Suzuki, S., Hano, Y., & Nomura, T. . Phytochemistry, 2000, 53(8): 925–929 (ссылка) 

294.  Ethnobotanical studies on medicinal plants used by the Red-headed Yao People in Jinping, Yunnan Province, China. Long, C., & Li, R. .Journal of Ethnopharmacology, 2004, 90(2-3): 389–395. (ссылка) 

295. Exploring the Extraction Methods of Phenolic Compounds in Daylily (Hemerocallis citrina Baroni) and Its Antioxidant Activity. Hao Z, Liang L, Liu H, Yan Y, Zhang Y. Molecules, 2022, 27(9):2964. (ссылка) 

296. Chemical Diversity of Iridal-Type Triterpenes in Iris Delavayi Collected in Yunnan Province of China. Yu Hasegawa, Xun Gong and Chiaki Kuroda. Natural Product Communications, Jun 2011, 6(6) (ссылка) 

297. Chemical composition of the essential oil of several Iris species. Olha Mykhailenko, Volodymyr Kovalyov, Tetyana Orlova. TJPS 2020, 44 (3): 179-185 (ссылка) 

298. Phenolic constituents of Iris milesii rhizomes. Agarwal, V. K., Thappa, R. K., Agarwal, S. G., & Dhar, K. L.  Phytochemistry, 1984, 23(6): 1342–1343 (ссылка) 

299.  New Isoflavonoid Glycosides from the Rhizomes of Iris leptophylla Lingelsh. Qin, M.-J., Li, R., Wang, X., & Ye, W.-C. . Journal of Integrative Plant Biology, 2007, 49(2): 213–217 (ссылка)

300.  Flavonoids fromIris songaricaand their Antioxidant and Estrogenic Activity. Moein, M., Khan, S., Ali, Z., Ayatollahi, S., Kobarfard, F., Nasim, S., … Khan, I. .Planta Medica, 2008, 74(12): 1492–1495 (ссылка)

301. К биологии редкого вида Iris humilis Georgi в Башкортостане. А. В. Крюкова, Л. М. Абрамова. ВЕСТНИК ОРЕНБУРГСКОГО ГОСУДАРСТВЕННОГО ПЕДАГОГИЧЕСКОГО УНИВЕРСИТЕТА, 2016, 2(18): 58-63 (ссылка)

302. Phytochemical analysis and total antioxidant capacity of rhizome, above-ground vegetative parts and flower of three Iris species.  Kostić, A. Ž., Gašić, U. M., Pešić, M. B., Stanojević, S. P., Barać, M. B., Mačukanović-Jocić, M. P., … Tešić, Ž. L. .Chemistry & Biodiversity, 2019 (ссылка) 

303.  Содержание некоторых групп соединений в вегетативных органах Iris ruthenica(Iridaceae). Седельникова Людмила Леонидовна, Кукушкина Татьяна Абдулхаиловна. Химия растительного сырья, 2017, 3: 141-146.(ссылка) 

304.  Qualitative and Quantitative Evaluation of Phenolic Compounds in Iris dichotoma Pall. Wei, Y., Shu, P., Hong, J., & Qin, M..Phytochemical Analysis,  2011, 23(3): 197–207 (ссылка) 

305.  Isolation and Structure Determination of a New Iridal from Iris sibirica. Marner, F.-J., Simic, K., Scholz, B., & Küster, B. .Journal of Natural Products, 1995, 58(2): 299–301 (ссылка)

306.  Flavanones from Iris tenuifolia. Kojima, K., Gombosurengyin, P., Ondognyi, P., Begzsurengyin, D., Zevgeegyin, O., Hatano, K., & Ogihara, Y. Phytochemistry, 1997, 44(4), 711–714. (ссылка)  

307. Flavans from Iris tenuifolia and their effects on β-amyloid aggregation and neural stem cells proliferation in vitro.  Cui, Y.-M., Wang, H., Liu, Q.-R., Han, M., Lu, Y., & Zhao, C.-Q. Bioorganic & Medicinal Chemistry Letters, 2011, 21(15): 4400–4403 (ссылка)

308.  Four New Flavones and a New Isoflavone fromIris bungei. Choudhary, M. I., Nur-e-Alam, M., Baig, I., Akhtar, F., Khan, A. M., Ndögnii, P. Ö., … Atta-ur-Rahman.  Journal of Natural Products, 2001, 64(7): 857–860 (ссылка)  

309. Antioxidant activity of compounds from the medicinal herb Aster tataricus. T.B. Ng, Fang Liu, Yanhua Lu, C.H.K. Cheng, Zhengtao Wang. Comparative Biochemistry and Physiology Part C: Toxicology & Pharmacology, October 2003, 136(2): 109-115 (ссылка) 

310. Chemical constituents of Triticum aestivum and their effects on adipogenic differentiation of 3T3-L1 preadipocytes. Bui Thi Thuy Luyen, Nguyen Phuong Thao, Bui Huu Tai, Ji Young Lim, Hyeon Hui Ki, Dae Ki Kim, Young Mi Lee, Young Ho Kim. Arch. Pharm. Res., 2015, 38: 1011–1018 (ссылка) 

311. Phenolic acids composition, total polyphenols content and antioxidant activity of Triticum monococcum, Triticum turgidum and Triticum aestivum: A two-years evaluation. Andrea Brandolini, Paolo Castoldi, Luca Plizzari, Alyssa Hidalgo. Journal of Cereal Science, July 2013, 58(1): 123-131 (ссылка) 

312.  Chemical investigation on Potentilla griffithii var. velutina. Zhong Haijun, Chen Jijun, Wang Huiying, Luo Shide. Chinese Traditional and Herbal Drugs, 2000, 31(7):488-490 (ссылка) 

313. ANTIOXIDANT AND ANTI-INFLAMMATORY ACTIVITY OF POTENTILLA REPTANS L. MARINA T. TOMOVIC1, SNEZANA M. CUPARA, MARIJA T. POPOVIC-MILENKOVIC, BILJANA T. LJUJIC, MARINA J. KOSTIC and SLOBODAN M. JANKOVIC. Acta Poloniae Pharmaceutica - Drug Research, 2015, 72(1): 137-145 (ссылка) 

314.  Metabolites of Geum aleppicum and Sibbaldianthe bifurca: Diversity and α-Glucosidase Inhibitory Potential. Kashchenko NI, Olennikov DN, Chirikova NK. Metabolites, 2023; 13(6):689. (ссылка) 

315.  Chemical constituents from Orobanche cernua Loefling. Qu, Z., Zhang, Y., Yao, C., Jin, Y., Zheng, P., Sun, C., … Wang, Y. .Biochemical Systematics and Ecology, 2015, 60: 199–203. (ссылка) 

316. Phenylpropanoid Glycosides from Orobanche coerulescens.  Lie-Chwen Lin , Wen-Fei Chiou, Cheng-Jen Chou. Planta Medica, 2004, 70(1), 50–53

317. GC-MS aspect of moss Funaria hygrometrica Hedw. Wankhede TB. Int. Res. J. of Science & Engineering, 2020, 8 (3)  (ссылка)

318. Antimicrobial activity of Bryum argenteum. Aneta Sabovljevic, Marina Sokovic, Marko Sabovljevic, Dragoljub Grubisic. Fitoterapia,2006, 77:  144 – 145 (ссылка)

319. CHEMOSYSTEMATICS OF BRYOPHYTES III. TERPENOIDS OF THE PRIMITIVE HEPATICAE, TAKAKIA AND HAPLOMITRIUM. Y OSHINORI ASAKAWA, SINSKE HATIORI, MASAMI MIZUTANI, NOBUKO TOKUNAGA AND TSUNEMATSU TAKEMOTO. Journ. Hattori Bot. Lab., Sept. 1979, 46: 77- 90 (ссылка) 

320. Chemical Constituents of Moss Macromitrium orthostichum Nees ex Schwägr. Consolacion Ragasa Maria Carmen Tan, Virgilio Linis, chien-chang Shen. Asian Journal of Chemistry, June 2019, 31(7):1626-1628 (ссылка)

321. Constituents of the MossPolytrichum commune. Fu, P., Lin, S., Shan, L., Lu, M., Shen, Y.-H., Tang, J., … Zhang, W.-D. Journal of Natural Products, 2009, 72(7): 1335–1337 (ссылка) 

322. Identification of antioxidant compounds of Mucuna sempervirens by high-speed counter-current chromatographic separation–DPPH radical scavenging detection and their oestrogenic activity. Qizhen Du, Bo Li. Food Chemistry, 15 April 2012, 131(4): 1181-1186 (ссылка)

323. Inhibitors of Prostaglandin Biosynthesis from Mucuna birdwoodiana. YUKIHIRO GODA, MASAAKI SHIBUYA and USHIO SANKAWA. Chem. Pharm. Bull., 1987, 35(7): 2675-2677 (ссылка)  

324. In-vivo Screening for Mucuna imbricata Plant and its Synergism with Rifampicin against Mycobacterium tuberculosis. A.G. Barua, Bapan Banik, C.C. Barua, Biswajit Dutta, Archana Singh. THE PHARMA INNOVATION - JOURNAL, 2014, 3(2): 85-91 (ссылка)

325. Systematic enhancement of L-DOPA and Secondary metabolites from Mucuna imbricata: Implication of precursors and elicitors in Callus culture. Suresh Suryawanshi, Parthraj Kshirsagar, Prajakta Kamble, Vishwas Bapat, Jyoti Jadhav. South African Journal of Botany, January 2022, 144: 419-429 (ссылка) 

326. Genus Terminalia: A phytochemical and Biological Review. Fahmy NM, Al-Sayed E and Singab AN. Fahmy et al., Med Aromat Plants 2015, 4: 5 (ссылка) 

327. Phenolic Glycosides from the Chinese Liverwort Reboulia hemisphaerica. Li-Ning Wang, Dong-Xiao Guo, Shu-Qi Wang, Chang-Sheng Wu, Mujeeb Ur Rehman, Hong-Xiang Lou. Helvetica, June 2011, 94(6): 1146-1152 (ссылка) 

328.  Phytocompounds of Bistorta macrophylla (D. Don) Sojak. as bioavailability enhancers of fluconazole and amphotericin B to better manage Candida species infections. Rajan Rolta, Shivani Shukla, Anjali Kashyap et al. 03 January 2022, PREPRINT (ссылка) 

329. Phytochemical Constituents of Bistorta manshuriensis. Sang Wook Chang, Ki Hyun Kim, Il Kyun Lee, Sang Un Choi, Shi Yong Ryu, and Kang Ro Lee. Natural Product Sciences, 2009, 15(4): 234-240 (ссылка) 

330. Screening of antioxidant capacity of Nepali medicinal plants with a novel singlet oxygen scavenging assay. Chan Seo,· Hyun Woo An, Won Han, Joo Won Lee,· Krishna K. Shrestha,· Won‑Kyo Jung,· Joong Ho Shin, Sang Gil Lee. Food Science and Biotechnology, 2023, 32:221–228 (ссылка) 

331. Comparative essential oil analysis of Geranium sylvaticum extracted by hydrodistillation and microwave distillation. KAHRİMAN, NURAN; TOSUN, GONCA; GENÇ, HASAN; and YAYLI, NURETTİN. Turkish Journal of Chemistry, 2010, 34(6) (ссылка)

332. Chemical constituents of Geranium dahuricum DC. Lei, H. & Wei, L. & Lin, W., 2000, 35: 67-69. (ссылка)

333. Chemical constituents from the rhizome of Polygonum paleaceum and their antifungal activity. Yi-Xi Yang, Mao-Mao An, Yong-Sheng Jin & Hai-Sheng Chen. Journal of Asian Natural Products Research, 2017, 19(1): 47-52 (ссылка) 

334. CHEMICAL CONSTITUENTS, THERAPEUTIC USES, BENEFITS AND SIDE EFFECTS OF BISTORTA VIVIPARA: A REVIEW Amandeep Paul, Antul Kumar and Nirmaljit Kaur. PLANTICA – Journal of Plant Science, 2018,  2 (3): 180 – 199 (ссылка)

335. Prospects of Development and Challenges of Modern Botany Phenolic compounds of Bistorta alopecuroides (Turcz. ex Meissn.) Kom. (Polygonaceae) from different populations of Siberia and the Far East. Maria Voronkova1, and Galina Vysochina. BIO Web of Conferences 11, 2018 (ссылка)

336. Chemical constituents from the roots of Fallopia convolvulus (L.) A. Löve. Keming Li, Zhongxin Zhang, Guoliang Zhao, Ping Sun, Bingbing Cui, Shumei Chi. Biochemical Systematics and Ecology, June 2019, 84:26-28 (ссылка) 

337. Evaluation of the chemical composition and antimicrobial activity of Mentha pulegium, Juniperus phoenicea, and Cyperus longus essential oils from Morocco. Abdenour Ait-Ouazzou, Susana Lorán, Abdelhay Arakrak, Amin Laglaoui, Carmen Rota, Antonio Herrera, Rafael Pagán, Pilar Conchello. Food Research International, January 2012, 45(1): 313-319 (ссылка) 

338. Chemical constituents from Salix oritrepha Schneid. Feng SI, Su C, Duan SY, Chen LR. China Journal of Chinese Materia Medica, 2001 Sep, 26(9): 607-608 (ссылка) 

339. Phytochemical Research and Antimicrobial Properties of Lipophylic Extracts of Some Species of Salix L. Genus from Ukraine. Natalia Borodina, Ain Raal, Volodimir Kovalyov, Tetiana Osolodchenko, Оleh Koshovyi, Hoai Thi Nguyen, Andrey Komissarenko. The open agriculture journal,  2020, 14: 136-144 (ссылка) 

340. Lignan, phenylpropanoid and iridoid glycosides from Pedicularis torta. Wang Changzeng, & Jia Zhongjian. Phytochemistry, 1997, 45(1): 159–166 (ссылка) 

341. Chemical Constituents of Pedicularis kansuensis .  Ma, S., Yang, A., Yang, L., Guo, W., Li, C., & Shang, Q. Chemistry of Natural Compounds, 2017, 53(3), 586–588 (ссылка) 

342.  Phenylpropanoid and iridoid glycosides fromPedicularis spicata. Zhongjian, J., Zimin, L., & Changzeng, W. Phytochemistry, 1991, 30(11): 3745–3747 (ссылка) 

343. Iridoid Derivatives with Cytotoxic Activity from Pedicularis uliginosa Bunge. L.-F. Liu, M.-J. Yao, M.-Y. Li, X.-Z. Wu, C.-S. Yuan, C&B,  2019, 16(2). (ссылка) 

344. Constituents of Pedicularis resupinata var. oppositifolia. Yim, Dong-Sool; Yoo, Seung-Jo; Lee, Sook-Youn. Korean Journal of Pharmacognosy, 1995, 26(2): 109-115 (ссылка) 

345.  Bioactivity evaluation and HPLC UV-VIS based quantification of antioxidant secondary metabolites from extract and fractions of Bistorta amplexicaulis rhizome. Tabassam, S., Anwar, M. A., Gulfraz, M., Arshad, M., Sabitaliyevich, U. Y., Nurmurzayevich, S. B., & Ahmad, M. S. Cellular and Molecular Biology, 2019, 65(1), 19–26 (ссылка) 

346. Antiviral Activity of Some Plants Used in Nepalese Traditional Medicine. M. Rajbhandari, R. Mentel, P. K. Jha, R. P. Chaudhary, S. Bhattarai, M. B. Gewali, N. Karmacharya, M. Hipper, and U. Lindequist Evidence-Based Complementary and Alternative Medicine, 2009, 6 (ссылка) 

347.  Fatty Acids and Flavonoids of Salix lindleyana. Thapliyal, R. P., & Bahuguna, R. P. International Journal of Pharmacognosy, 1993, 31(2), 165–166 (ссылка) 

348. Studies on the Constituents of Impatiens noli-tangere L. Choi, Bok-Ja; Kim, Chong-Won. Korean Journal of Pharmacognosy, 2002, 33(4): 263-266 (ссылка)

349. Anti-inflammatory and antioxidant activities of the Impatiens noli-tangere and Stachys officinalis polyphenolic-rich extracts. Gabriela Paun, Elena Neagu, Veronica Moroeanu, Camelia Albu, Tudor-Mihai Ursu, Anca Zanfirescu, Simona Negres, Cornel Chirita, Gabriel Lucian Radu. Rev. bras. farmacogn, Jan-Feb 2018, 28 (1) (ссылка) 

350. Triterpenoids of Pedicularis pectinata. K. S. Khetwal, R. P. Pathak. Fitoterapia, 1987, 58(4), 287 ref. 6 (ссылка)