Chemical constituents isolated from the roots of Sanguisorba officinalis L. and their chemotaxonomic significance

Phytochemical investigation of the roots of Sanguisorba officinalis L. led to the isolation of thirty-eight compounds, including seventeen triterpenoids (1–17), six monoterpenoid glycosides (18–23), six flavonoids (24–29), six phenols (30–35), two glycosides (36–37), and one lignan (38). The chemical structures of these compounds were elucidated on the basis of spectral data and by comparisons of spectroscopic data with reported values in the literature. Compounds 18, 29, and 36–37 were the first to be reported in the family Rosaceae, compounds 10, 12, 15, 27–28, and 38 were firstly identified from the genus Sanguisorba, and compound 11 was obtained from S. officinalis for the first time. The chemotaxonomic significance of these isolated compounds has also been discussed.     

Chemical constituents from Dendropanax morbiferus H. Lév. Stems and leaves and their chemotaxonomic significance

The phytochemical investigation of Dendropanax morbiferus H. Lév. Led to the isolation of 28 known compounds: 4 alkaloids (1–4), 1 pyranoglucoside (5), 1 benzoic acid and 5 benzoic acid derivatives (6–11), 10 phenylpropanoids (12–21), 4 flavone glucoside derivatives (22–25), 1 neolignan (26) and 2 sesquiterpenes (27–28). The structures of these compounds were identified using spectroscopic methods; their nuclear magnetic resonance spectra were compared with those previously reported. This is the first report on compounds 2–4, 10, and 12 isolated from D. morbiferus. Compounds 5 and 26 from the genus Dendropanax and 1, 6–9, 11, 13, 14–25, 27 and 28 from the family Araliaceae were isolated for the first time. Additionally, to the best of our knowledge, this is the first comprehensive chemical investigation of D. morbiferus stems and leaf compounds. Chemotaxonomic relationship between D. morbiferus and other Dendropanax species is also discussed.     

Secondary metabolites from Corispermum mongolicum Iljin and their chemotaxonomic significance

A phytochemical investigation of the whole plant of Corispermum mongolicum Iljin (Chenopodiaceae) led to the isolation of thirty-eight compounds, including thirteen phenylpropanoids (1–13), six megastigmane-type norsesquiterpenoids (14–19), eight sterols (20–27), two flavonoid glycosides (28, 29), one alkaloid (30), two aromatic glycosides (31, 32), one aliphatic glycoside (33), one triterpenoid (34), one diterpenoid (35), two cerebrosides (36, 37) and one monogalactosyldiacyl glycerol (38). The chemical structures of these compounds were elucidated on the basis of spectral data and by comparisons of spectroscopic data with reported values in the literature. Twenty-eight compounds (1, 2, 4–16, 19, 20, 23–27, 30, 32–35, 37) were first found in the family Chenopodiaceae. The chemotaxonomic significance of these compounds is discussed.     

Chemical constituents from Ficus natalensis hochst (Moraceae) and their chemophenetic significance

Phytochemical investigation of the stem bark of Ficus natalensis afforded eleven compounds including one ceramide (1), two anthraquinones (2, 3), four triterpenes (4–7), two polyols (8, 9) and two steroids (10, 11). The structures of the compounds were determined by spectroscopic analyses including IR, UV, MS, 1D- and 2D- NMR (¹H, ¹³C, ¹H–¹H COSY, HMQC, HMBC and NOESY), as well as by comparison with literature data. The antibacterial activity and the cytotoxicity of the extract, fractions and some isolated compounds (3, 5, 8 and 9) were evaluated. Some fractions and sub-fractions from various column chromatography displayed moderate antibacterial activity with diameter zone of inhibition (DZI) ranging from 7 to 10 mm. None of the compounds tested had activity. In the present study, all the compounds are isolated for the first time from the species F. natalensis. Compounds 2, 4–7, 10 and 11 were previously reported from the genus Ficus. The chemophenetic significance of the isolated compounds is discussed.     

Phytochemical and chemotaxonomic study on the leaves of Rhododendron dauricum L

The phytochemical study of the leaves of Rhododendron dauricum L. (Ericaceae) led to the isolation and identification of 44 compounds, including fourteen triterpenoids (1–14), thirteen flavonoids (15–27), eight phenols (28–35), four grifolin derivatives (36–39), two diterpenoids (40–41), two megastigmanes (42–43) and one sesquiterpenoid (44). The chemical structures of these compounds were identified by spectroscopic data and compared with those previously reported. This is the first report on compounds 25, 31, 34, 40, 43, and 44 from the family Ericaceae, compound 42 from the genus Rhododendron, and compounds 24, 28, 30, 32, 33 and 35 from R. dauricum. The chemotaxonomic significance of these compounds was discussed.     

Phytochemical and chemotaxonomic studies on Dioscorea collettii

A chemical investigation of Dioscorea collettii led to the isolation of twenty-nine compounds, including six steroid saponins (1–6), thirteen monocyclic phenols (7–19), two flavonoids (20–21), three sterols (22–24), and five cyclodipeptides (25–29). The chemical structures of these compounds were elucidated using spectroscopic methods and by comparing their data to that reported in the literature. This study is the first report of compounds 2–4, 7, 14–17, 21, and 23–24 in D. collettii, while compounds 8–13, 18–20, and 25–29 were first isolated from the genus Dioscorea and the family Dioscoreaceae. The chemotaxonomic significance of the isolated compounds is discussed.     

Phytochemical investigation on the roots of Juglans mandshurica and their chemotaxonomic significance

Phytochemical research of the roots of Juglans mandshurica Maxim. (Juglandaceae) verified 37 secondary metabolites, including thirteen diarylheptanoids (1–13), five naphthoquinones (14–18), five tetralones (19–23), three lignans (24–26), three phenols (27–29), two anthraquinones (30–31), two triterpenoids (32–33), two secoiridoids (34–35), one naphthalenyl glycoside (36), and one flavonoid (37). The chemical structures of these constituents were elucidated by NMR spectroscopy and compared with data from the literature. This is the first confirmation of the presence of ten compounds (6, 12, 16, 18, 24–26, 30, 32–33) isolated from the family Juglandaceae, two compounds (1 and 8) from the genus Juglans, and four compounds (27, 31, 34–35) from J. mandshurica. The isolation and chemotaxonomic significance of the metabolites from the roots of J. mandshurica were described in this study.     

Constituents from the pseudofruits of Hovenia dulcis and their chemotaxonomic significance

Sixteen compounds, including six flavonoids (1–6), one lignan (7), three megastigmanes (8–10), three triterpenoids (11–13), and three benzoic acid derivatives (14–16) were isolated and structurally elucidated from the pseudo-fruits of Hovenia dulcis. Their structures were analyzed by NMR spectroscopic and data comparison. Among them, compounds 4, 7–11, 13, 15, and 16 were isolated from the Hovenia genus for the first time. The chemotaxonomic significance of the isolates was also described, which revealed a relationship between H. dulcis and H. acerbar as well as other species belonging to the Rhamnaceae family.     

Flavonoids,megastigmanes and other constituents from Ardisia incarnata

Phytochemical investigation of the leaves and twigs of Ardisia incarnata Pit. (syn. Ardisia hanceana Mez, Primulaceae) led to the isolation of one bicyclic monoterpene (1), five phenolic compounds (2–5, 8), two megastigmanes (6–7) and one glyceroglycolipid (9). Their structures were established based on analysis of their spectroscopic data and comparison with literature. The compounds 1 and 6–9, isolated for the first time from Ardisia genus, may constitute chemomarkers of A. incarnata within Primulaceae family. Moreover, the flavonoid fingerprint may also be of chemotaxonomic significance.     

Chemical constituents from Piper boehmeriifolium (Miq.) Wall. ex C. DC

The chemical investigation of whole plants Piper boehmeriifolium (Miq.) Wall. ex C. DC. led to the isolation of 22 compounds, including two lignans (1–2), sixteen amide alkaloids (3–18), one diterpene (19), two monoterpenes (20–21), and one phenylpropanoid (22). Their structures were elucidated by extensive spectroscopic analyses including NMR, MS, and by comparison with the literature. Compounds 1–2, 6–7, 11–12, 14, and 17–22 were firstly isolated from P. boehmeriifolium, while compounds 2, and 19–20 were isolated from Piper genus for the first time. The chemotaxonomic significance of these isolated compounds is discussed.     

Chemical constituents from Euphorbia stracheyi Boiss

The chemical investigation of whole plants Euphorbia stracheyi Boiss. led to the isolation of 14 compounds, including eight diterpenes (1–8), one monoterpene (9), three coumarins (10–12), and two phenols (13–14). Their structures were elucidated by extensive spectroscopic analyses and by comparison with the literature. Compounds 1–6, and 8–12 were firstly isolated from E. stracheyi, while compounds 6, and 9 were isolated from Euphorbia genus for the first time. The chemotaxonomic significance of these isolated compounds is discussed.     

Alkaloids and monoterpenes from the leaves of Isatis tinctoria Linnaeus and their chemotaxonomic significance

Phytochemical investigation of the leaves of Isatis tinctoria Linnaeus led to the isolation of thirty compounds, including thirteen indole alkaloids (1–13), seven quinazolinone alkaloids (14–20), two quinoline alkaloids (21–22), one quindoline alkaloid (23), one simple amide alkaloid (24) and six monoterpenes (25–30). According to spectroscopic data analysis and comparison with the previously reported literature, their structures were elucidated. Among them, six compounds (12, 13, 17, and 22–24) have not been reported from the family Brassicaceae and eight compounds (3, 7, and 25–30) were isolated from the genus Isatis for the first time. Furthermore, the chemotaxonomic significance of isolated compounds has also been elaborated.     

Chemical constituents from Stenosolenium saxatile (Pall.) Turcz. (Boraginaceae)

Chemical investigation on the whole plants of Stenosolenium saxatile led to the isolation of three naphthoquinones (1–3), five pyrrolizidine alkaloids (PAs) (4–8), and six phenolic acids (9–14). The structure of the isolated compounds was elucidated by different spectrometric methods (¹H NMR, ¹³C NMR and ESI-MS). These results are the first chemical data on constituents of this genus. The chemotaxonomic relationships between the genera Stenosolenium, Onosma, Arnebia, Echium and Lithospermum are also discussed.     

Chemical constituents from the leaves of Cinnamomum parthenoxylon (Jack) Meisn. (Lauraceae)

Phytochemical investigation of the ethanolic extract from the leaves of Cinnamomum parthenoxylon (Jack) Meisn. led to the isolation of (3R, 4R, 3′R, 4′R)-6,6′-dimethoxy-3, 4, 3′, 4′-tetrahydro-2H, 2′H-[3, 3′]bichromenyl-4, 4′-diol (1), 4-hydroxybenzaldehyde (2), 1,2,4-trihydroxybenzene (3), kaempferol-3-O-α-l-rhamnoside (4), herbacetin (5), quercetin-3-O-α-l-rhamnoside (6), daucosterol (7), and β-sitosterol (8). The structures were established by extensive analysis of their MS and NMR spectroscopic data and comparison with literature data. In the present research, all of the isolated compounds 1–8 are reported for the first time in the species C. parthenoxylon. Compounds 1–6 were firstly isolated from genus Cinnamomum. Compounds 1, 3, 5 and 6 have not been reported from any species in Lauraceae family. The chemotaxonomic significance of the isolated compounds is discussed.     

Chemical constituents from Lagopsis supina (Steph.) Ik.-Gal. ex Knorr

Phytochemical investigation of the whole plants of Lagopsis supina (Steph.) Ik.-Gal. ex Knorr. led to the isolation of 18 compounds (1–18), including ten phenylethanoid glycosides (1–10), one phenylmethanoid glycoside (11), four megastigmane glycosides (12–15), and three monoterpenoid glycosides (16–18). Lagopsides A (1) and B (2) were identified as new phenylethanoid glycosides. This is the first report of compounds 7, 11, 12, 15, and 16 from the Labiatae family, while compounds 4–6, 8–10, 13–14, and 17–18 were isolated from the genus Lagopsis for the first time. The chemotaxonomic significance of these isolated compounds was summarized.     

Chemical constituents from Cistanche sinensis (Orobanchaceae)

Phytochemical investigation of 70% aqueous EtOH extract of Cistanche sinensis led to the isolation of fifteen compounds (1–15), including nine phenylethanoid glycosides (PhGs, 1–9), five iridoid glycosides (10–14), and one lignan glycoside (15). Their structures were determined on the basis of 1D- and 2D-NMR experiments and by comparison with physical data of known compounds. Among the isolated compounds, 1 was identified as a new compound, three compounds (9, 14, and 15) were firstly reported from the genus Cistanche, and seven compounds (2–6, 11, and 12) were isolated from C. sinensis for the first time. PhGs with a 6′-O-rhamnosyl moiety such as cistansinenside B (1), poliumoside (7), and 2′-O-acetylpoliumoside (9) could serve as chemotaxonomic markers to differentiate C. sinensis from other species of Cistanche.     

Chemical constituents of Chimaphila japonica Miq

A phytochemical study of the whole plants of Chimaphila japonica Miq. led to the isolation of 23 compounds, including ten triterpenoids (1–10), six flavonoids (11–16), two sterols (17 and 18), two quinonoids (19 and 20), one saccharide derivative (21), one phenolic glycoside (22), and one megastigmane glycoside (23). The structures of these isolated compounds were identified using NMR spectroscopy (¹H and ¹³C) by comparison with previously reported data. All compounds, except 19 and 22, were reported from C. japonica for the first time. Among them, 16 compounds (1–4, 6–9, 12, 13, 15, 16, 18, 20, 21, and 23) were reported from genus Chimaphila for the first time, while compounds 12, 16, and 23 were isolated from the Ericaceae family for the first time. The chemotaxonomic significance of the isolates was also discussed.     

Chemical constituents isolated from Clematis akebioides (Maximowicz) Veitch

A phytochemical investigation of the aerial parts of Clematis akebioides (Maximowicz) Veitch led to the isolation of eighteen compounds, including two benzenoids (1, 2), one linear monoterpene glycoside (3), and fifteen triterpenoid saponins (4–18). The structural elucidation of these compounds was determined by using spectroscopic methods and comparison with the literature. All of these compounds were obtained from C. akebioides for the first time, and compounds 1, 2 and 18 were isolated from the Ranunculaceae family for the first time. Furthermore, the chemotaxonomic significance of these compounds was discussed.     

A new diterpene from the fungal mycelia of Hericium erinaceus

One new diterpene (1) and new compound (2), along with four known compounds (3–6) were isolated from the fungal mycelia of Hericium erinaceus by the tracking method of antibacterial activity. The structures of compounds (1–6) were elucidated on the basis of spectral data. Compound (3) showed strong antibacterial activity against Helicobacter pylori (ATCC43504) and compounds (1), (2) and (4) showed moderate antibacterial activity. Compound (1) exhibited good cytotoxicity against three human cancer cell lines (K562, LANCAP, HEP2).     

Chemical constituents from Schefflera leucantha R.Vig. (Araliaceae)

Processive phytochemistry and pharmacological investigation of Schefflera leucantha R.Vig. (Araliaceae) led to the isolation of fifteen known compounds: a nucleobase (1), six small aromatic molecules (2–7), three phenylpropanoids (8–10), four lignans (11–14) and a fatty acid derivative (15). Spectroscopic methods were used to establish the structure and configuration of isolates, followed by their unambiguous confirmation with literature data. We report for the first time (to the best of our knowledge), the isolation of β-amino-3-methoxy-4-hydroxybenzene-ethanol (4) from a natural source. Furthermore, compounds 1, 5, 9–15 are being reported from Araliaceae family for the first time, whereas compounds 2, 3, 6–8 from the genus Schefflera for the first time. The biological screening results show that compounds 9 and 10 induce a moderate inhibitory effect on aldose reductase, while compounds 3, 5, and 8 display significantly high neuroprotective activities.