Fangfang Liu’s research while affiliated with Guangzhou University of Traditional Chinese Medicine and other places

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Medicinal Angiosperms of Styracaceae, Symplocaceae, and Loganiaceae

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January 2022

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This chapter introduces 16 species of medicinal plants in three families, mainly including Alniphyllum fortunei and Styrax tonkinensis of Styracaceae; Symplocos anomala, Symplocos chinensis, Symplocos dolichotricha, Symplocos glauca, Symplocos lancifolia, Symplocos laurina, Symplocos paniculata, and Symplocos sumuntia of Symplocaceae; and Buddleja asiatica, Buddleja davidii, Buddleja lindleyana, Buddleja officinalis, Gelsemium elegans, and Strychnos nux-vomica of Loganiaceae.

Medicinal Angiosperms of Alangiaceae, Nyssaceae, and Araliaceae

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January 2022

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This chapter introduces 26 species of medicinal plants in 3 families, mainly including Alangium chinense and Alangium faberi of Alangiaceae, Camptotheca acuminata of Nyssaceae, and Aralia chinensis, Aralia cordata, Aralia dasyphylla, Aralia echinocaulis, Macropanax rosthornii, Dendropanax dentiger, Dendropanax proteus, Eleutherococcus trifoliatus, Hedera nepalensis, Kalopanax septemlobus, Panax ginseng, Panax pseudoginseng, Schefflera delavayi, Schefflera heptaphylla, Schefflera kwangsiensis, and Tetrapanax papyriferus of Araliaceae.

Medicinal Angiosperms of Umbelliferae

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January 2022

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This chapter introduces 36 species of medicinal plants in one family, mainly including Angelica dahurica, Angelica sinensis, Apium graveolens, Bupleurum chinense, Bupleurum scorzonerifolium, Centella asiatica, Chuanminshen violaceum, Cnidium monnieri, Coriandrum sativum, Cryptotaenia japonica, Daucus carota, Eryngium foetidum, Glehnia littoralis, Foeniculum vulgare, Hydrocotyle chinensis, Hydrocotyle sibthorpioides, Ligusticum chuanxiong, Ligusticum sinense, Notopterygium franchetii, Oenanthe benghalensis, Ostericum citriodorum, Peucedanum decursivum, Peucedanum praeruptorum, Sanicula chinensis, Sanicula lamelligera, Sanicula orthacantha, Saposhnikovia divaricata, and Torilis japonica of Umbelliferae.

Medicinal Angiosperms of Asclepiadaceae and Periplocaceae

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January 2022

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This chapter introduces 26 species of medicinal plants in two families, mainly including Asclepias curassavica, Calotropis gigantea, Ceropegia trichantha, Cynanchum atratum, Cynanchum versicolor, Cynanchum auriculatum, Cynanchum bungei, Cynanchum corymbosum, Cynanchum glaucescens, Cynanchum paniculatum, Dischidanthus urceolatus, Dischidia chinensis, Dregea volubilis, Graphistemma pictum, Gymnema sylvestre, Heterostemma alatum, Hoya carnosa, Jasminanthes mucronata, Metaplexis hemsleyana, Telosma procumbens, Tylophora floribunda, Tylophora kerrii, Tylophora koi, and Tylophora ovata of Asclepiadaceae and Cryptolepis sinensis of Periplocaceae.

Medicinal Angiosperms of Clethraceae, Ericaceae, Pyrolaceae, Vacciniaceae, and Ebenaceae

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January 2022

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This chapter introduces 12 species of medicinal plants in five families, mainly including Clethra cavaleriei of Clethraceae; Gaultheria yunnanensis, Lyonia ovalifolia, Rhododendron kwangtungense, Rhododendron mariae, Rhododendron mariesii, and Rhododendron molle of Ericaceae; Pyrola elegantula of Pyrolaceae; Vaccinium bracteatum of Vacciniaceae; Diospyros kaki, Diospyros kaki var. silvestris, and Diospyros rhombifolia of Ebenaceae.

Medicinal Angiosperms of Myrsinaceae

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January 2022

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This chapter introduces 36 species of medicinal plants in one family, mainly including Ardisia affinis, Ardisia alyxiaefolia, Ardisia brevicaulis, Ardisia brunnescens, Ardisia caudata, Ardisia crenata, Ardisia crispa, Ardisia japonica, Ardisia lindleyana, Ardisia maclurei, Ardisia mamillata, Embelia laeta, Embelia parviflora, Embelia ribes, Embelia rudis, Embelia scandens, Maesa japonica, Maesa perlarius, and Rapanea neriifolia of Myrsinaceae.

Medicinal Angiosperms of Sabiaceae, Staphyleaceae, Anacardiaceae, Connaraceae, Juglandaceae, and Cornaceae

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January 2022

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This chapter introduces 29 species of medicinal plants in five families, mainly including Meliosma rigida, Sabia discolor, and Sabia japonica of Sabiaceae; Euscaphis japonica, Turpinia affinis, and Turpinia arguta of Staphyleaceae; Choerospondias axillaris, Dracontomelon duperreanum, Rhus chinensis, and Toxicodendron vernicifluum of Anacardiaceae; Rourea microphylla of Connaraceae; Cyclocarya paliurus, Engelhardia roxburghiana, Juglans cathayensis, and Platycarya longipes of Juglandaceae; and Bothrocaryum controversum, Cornus chinensis, Dendrobenthamia angustata, Helwingia himalaica, and Swida macrophylla of Cornaceae.

Medicinal Angiosperms of Oleaceae

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January 2022

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This chapter introduces 14 species of medicinal plants in one family, mainly including Forsythia suspensa, Fraxinus chinensis, Jasminum elongatum, Jasminum grandiflorum, Jasminum lanceolarium, Jasminum nervosum, Jasminum pentaneurum, Jasminum sambac, Jasminum sinense, Ligustrum amamianum, Ligustrum lucidum, Ligustrum quihoui, Ligustrum sinense, and Osmanthus fragrans of Oleaceae.

Medicinal Angiosperms of Simaroubaceae, Burseraceae, Meliaceae, Sapindaceae, Hippocastanaceae, and Aceraceae

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January 2022

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This chapter introduces 25 species of medicinal plants in 6 families, mainly including Ailanthus altissima, Brucea javanica, and Picrasma quassioides of Simaroubaceae; Canarium album and Canarium tramdenum of Burseraceae; Aglaia odorata, Aphanamixis grandifolia, Cipadessa cinerascens, Melia azedarach, Munronia hainanensis, Toona ciliata, and Turraea pubescens of Meliaceae; Allophylus viridis, Cardiospermum halicacabum, Dimocarpus longan, Dodonaea viscosa, Litchi chinensis, and Sapindus saponaria of Sapindaceae; Aesculus chinensis of Hippocastanaceae; and Acer davidii of Aceraceae.

Medicinal Angiosperms of Apocynaceae

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January 2022

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This chapter introduces 25 species of medicinal plants in one family, mainly including Alyxia levinei, Alyxia sinensis, Apocynum venetum, Carissa spinarum, Catharanthus roseus, Ervatamia divaricata, Ervatamia hainanensis, Ervatamia officinalis, Holarrhena antidysenterica, Melodinus fusiformis, Melodinus suaveolens, Plumeria rubra, Pottsia laxiflora, Rauvolfia tetraphylla, Strophanthus divaricatus, Trachelospermum axillare, Trachelospermum jasminoides, Urceola huaitingii, Urceola micrantha, Urceola quintaretii, Urceola rosea, and Wrightia pubescens of Apocynaceae.

... The roots of Asclepiadoideae species are tuberous and have medicinally potential secondary metabolites (Ye et al. 2022). There is widespread recognition of the aromatic and woody rootstock of Hemidesmus indicus (L.) R. Br. in the Indian traditional medical practices. ...
Reference:
Synseeds of in vitro roots as inoculum for storage and mass production of adventitious roots in Hemidesmus indicus (L.) R. Br.

Medicinal Angiosperms of Asclepiadaceae and Periplocaceae

Citing Chapter
January 2022

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... Across diverse cultures globally, the therapeutic potential of these plants has long been acknowledged, offering relief for a spectrum of ailments. [4] The assimilation of Anacardiaceae remedies into homoeopathic Materia Medica signifies a convergence of traditional wisdom and modern therapeutic approaches. Delving into historical contexts provides a nuanced understanding of the evolution of Anacardiaceae within the broader landscape of healing practices. ...
Reference:
Exploring the Clinical Significance of Anacardiaceae Family in Homoeopathic Management of Arthritis

Medicinal Angiosperms of Sabiaceae, Staphyleaceae, Anacardiaceae, Connaraceae, Juglandaceae, and Cornaceae

Citing Chapter
January 2022

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... However, this is the first time the use of V. bicolor and V. basalis for a medicinal liquor has been documented. This is also true for X. dissimilis, as this species is generally used with herbs to treat aphtha, sore throat, and convulsions in infants [70]. These uses may be due to the presence of the complex compounds of wasp venom, which have beneficial functions, including antimicrobial [71,72], anticancer [73], and anti-inflammatory effects [74]. ...
Reference:
Entomophagy and entomo-therapeutic practices in a mountainous territory in southeast Guangxi Zhuang Autonomous Region, China

Medicinal Angiosperms of Columbidae, Megascolecidae, Apidae, Buthidae, Cicadidae, Ostreae, Geoemydidae, Phasianidae, and Blattellidae

Citing Chapter
January 2022

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... Moreover, solar radiation levels between 14,800 and 17,550 kJ m −2 day −1 may suit the growth requirements of C. polycephalum. These conditions align with C. polycephalum's preference for light, its strong adaptability and tolerance to the environment, and its relatively low soil requirements (Ye et al., 2022). Precipitation may be related to the synthesis of phenolic compounds in Hyptis Jacq. ...
Reference:
Effect of climate change on Clinopodium polycephalum (Vaniot) C. Y. Wu & S. J. Hsuan distribution adopting temporal data, ArcGIS, and the MaxEnt model

Medicinal Angiosperms of Labiatae

Citing Chapter
January 2022

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... Among the various species, C. pilosula is particularly well-known. As one of the 50 fundamental herbs in Chinese medicine, C. convolvulacea features extensively in herbal formulations, as a tonic adaptogen and a treatment for qi, blood, yin, and yang deficiencies [2,5]. ...
Reference:
Elucidating the Phytochemical Landscape of Leaves, Stems, and Tubers of Codonopsis convolvulacea through Integrated Metabolomics

Medicinal Angiosperms of Campanulaceae, Lobeliaceae, Boraginaceae

Citing Chapter
January 2022

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... We observed salt crystals on the soil surface during Kratai Cham's growth in medium-saline regions, particularly during the fruit development phase from November to February. Notably, the plant demonstrated resilience to high soil sodium concentrations, (2020), and Ye et al. (2022) observed flowering from September to November. In contrast, the World Health Organization. ...
Reference:
Food Agricultural Sciences and Technology (FAST)

Medicinal Angiosperms of Scrophulariaceae

Citing Chapter
January 2022

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... P. puberula have the effect of strengthening kidneys Yang and dispelling wind dampness and are used to treat kidney deficiency, hypertrophic spondylitis, scapulohumeral periarthritis, and irregular menstruation (Chen and Gilbert, 1994;Chinese Materia Medica Editorial Committee, 1999;Ye et al., 2022). Its leaf is utilized in the treatment of irregular menstruation, edema, malignant sores, burns, tendon injuries, and fractures; besides, its bark is boiled in water to treat toothache (Chen and Gilbert, 1994;Chinese Materia Medica Editorial Committee, 1999). ...
Reference:
Premna puberula root petroleum ether extract inhibits proliferation, migration and invasion, and induces apoptosis through mitochondrial pathway in non-small cell lung cancer A549 cells

Medicinal Angiosperms of Verbenaceae

Citing Chapter
January 2022

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... Typically, dried tuber slices are used in TCM formulations, while by-products and scraps are utilized to extract BSP [19]. In Yunnan, China, fresh B. striata is also used to prepare stew, which has a slightly bitter taste [20]. The production of B. striata tubers is described in the Chinese Pharmacopoeia as follows: fresh tubers are boiled or steamed and then dried through solar exposure [21]. ...
Reference:
Ultrasound-assisted metabolite detection in different extraction processes of Bletilla striata and bitter metabolite detection

Medicinal Angiosperms of Orchidaceae

Citing Chapter
January 2021

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... Both seeds and fruits are edible. The plant grows best in deep moist soil with sufficient sun exposure (Ibrar et al. 2017;Ye et al. 2021). This plant has been reported from the warmer valleys of India (Kala et al. 2005). ...
Reference:
A review on pharmacological activities and phytochemical constituents of Zanthoxylum armatum DC

Medicinal Angiosperms of Rutaceae

Citing Chapter
January 2021

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... Pilea notata (Pilea notata C. H. Wright_ C. H. Wright, 1899) is a perennial juice-rich herb in the Pilea Lindl of Urticaceae (Wang and Li 2005;Ye et al. 2021), it is a dioecious plant, alias water hemp leaf, goat grass, soil licorice, white goat, sweet grass, etc. It is a well-known herbal medicine for the Hmong in Guizhou, and is called 'SHUI WU DA' in Guizhou Miao language (Wang and Li 2005), and functions on treating many diseases, such as hot and humid jaundice, red and white belt, shower turbidity, urine blood, children summer heat, malaria mother, indigestion, fall, injury, trauma infection and so on (Ye et al. 2021). ...
Reference:
The complete chloroplast genome of Pilea notata C. H. Wright, 1899 (Urticaceae)

Medicinal Angiosperms of Urticaceae

Citing Chapter
January 2021

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