1.Chemical Constituents from Leaves of Pileostegia viburnoides Hook.f.et Thoms.
Xiao Jun LI ; Zu Zhen LIU ; Kwan Woo KIM ; Xiang WANG ; Zhi LI ; Youn Chul KIM ; Chang Soo YOOK ; Xiang Qian LIU
Natural Product Sciences 2016;22(3):154-161
Phytochemical investigation on the leaves of Pileostegia viburnoides Hook.f.et Thoms led to the isolation of twenty-five compounds, and their structures were identified as n-dotriacontane (1), taraxeryl acetate (2), friedelin (3), epifriedelinol (4), canophyllal (5), stigmast-4-en-3-one (6), stigmasterol (7), (24R)-5A-stigmastane-3,6-dione (8), ursolic acid (9), pomolic acid (10), umbelliferone (11), 4-epifriedelin (12), n-octatriacontanol (13), β-amyrin (14), α-amyrin (15), taraxerol (16), nonadecanol (17), friedelane (18), arachic acid (19), protocatechuic acid (20), n-pentatriacontanol (21), hexadecanoic acid (22), vincosamide (23), daucosterol (24), and skimming (25), respectively. To our best knowledge, compounds 1, 2, 12, 13, 17 - 19 and 21-23 were new within Saxifragaceae family. Compounds 15, 16, and 20 were produced from this genus for the first time. Compounds 4, 14 and 25 were first obtained from species P. viburnoides and compounds 3, 5 - 11, and 24 were achieved from the leaves of P. viburnoides for the first time. Furthermore, the anti-neuroinflammatory activity of these isolates was evaluated.
Coumarins
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Humans
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Palmitic Acid
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Saxifragaceae
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Stigmasterol
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Triterpenes
2.The Effect of Tetracaine.HCl on Rotational Mobility of n-(9-Anthroyloxy) Stearic Acid in Outer Monolayers of Neuronal and Model Membranes.
Hyung Jin JOO ; Jong Hyo RYU ; Chin U PARK ; Sun Il JUNG ; Yun Seok CHA ; Sang Young PARK ; Jung Un PARK ; Soon Gun KWON ; Moon Kyung BAE ; Soo Kyoung BAE ; Hye Ock JANG ; Il YUN
International Journal of Oral Biology 2010;35(4):159-167
To provide a basis for studying the pharmacological actions of tetracaine.HCl, we analyzed the membrane activities of this local anesthetic. The n-(9-anthroyloxy) stearic and palmitic acid (n-AS) probes (n = 2, 6, 9, 12 and 16) have been used previously to examine fluorescence polarization gradients. These probes can report the environment at a graded series of depths from the surface to the center of the membrane bilayer structure. In a dose-dependent manner, tetracaine.HCl decreased the anisotropies of 6-AS, 9-AS, 12-AS and 16-AP in the hydrocarbon interior of synaptosomal plasma membrane vesicles isolated from bovine cerebral cortex (SPMV), and liposomes derived from total lipids (SPMVTL) and phospholipids (SPMVPL) extracted from the SPMV. However, this compound increased the anisotropy of 2-AS at the membrane interface. The magnitude of the membrane rotational mobility reflects the carbon atom numbers of the phospholipids comprising SPMV, SPMVTL and SPMVPL and was in the order of the 16, 12, 9, 6, and 2 positions of the aliphatic chains. The sensitivity of the effects of tetracaine.HCl on the rotational mobility of the hydrocarbon interior or surface region was dependent on the carbon atom numbers in the descending order 16-AP, 12-AS, 9-AS, 6-AS and 2-AS and on whether neuronal or model membranes were involved in the descending order SPMV, SPMVPL and SPMVTL.
Anisotropy
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Carbon
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Cell Membrane
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Cerebral Cortex
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Fluorescence Polarization
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Liposomes
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Membranes
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Neurons
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Palmitic Acid
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Palmitic Acids
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Phospholipids
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Stearic Acids
3.Serum Phospholipid Fatty Acids in Benign Breast Tumor and Breast Cancer.
Eugene SHIM ; Sei Hyun AHN ; You Jeong HWANG ; Yang Cha LEE-KIM
The Korean Journal of Nutrition 2009;42(3):213-220
Studies on the relationship between blood fatty acids and the risk of breast cancer have not yielded definite conclusions. The role of fatty acids in the development and progression of breast cancer is unclear. We conducted a case-control study to determine serum phospholipid fatty acid composition in benign breast tumor and breast cancer. Subjects consisted of 27 benign breast tumor and 68 breast cancer patients, and 28 matched controls. The levels of fatty acids were measured by gas chromatography. Higher arachidonic and palmitic acids were observed in breast cancer patients as compared with control and benign breast tumor patients. The percentage of total saturated fatty acids in breast cancer was higher than in control and benign breast tumor patients. The level of stearic acid was lower in benign breast tumor and breast cancer patients. Saturation index, the ratio of stearic to oleic acid, was lower in benign breast tumor and breast cancer patients compared to the control. Moreover, stearic acid was negatively and arachidonic acid was positively correlated with the cancer stage. In conclusion, our results support that serum phospholipid compositions of specific fatty acids are associated with the risk of benign breast tumor as well as breast cancer. Further studies are necessary to investigate mechanisms linked to the breast cancer etiology.
Arachidonic Acid
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Breast
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Breast Neoplasms
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Case-Control Studies
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Chromatography, Gas
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Fatty Acids
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Humans
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Oleic Acid
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Palmitic Acid
;
Palmitic Acids
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Stearic Acids
4.Evaluation of the BACTEC 460TB for detection of Mycobacterium tuberculosis from Clinical Specimens.
Korean Journal of Clinical Pathology 1997;17(1):89-98
BACKGROUND: The recent surge of tuberculosis in association with AIDS and multi-drug resistant tuberculosis in the world has made even apparent the need for more rapid and accurate technologies of detecting and characterizing mycobacteria in the clinical microbiology laboratory. The BACTEC radiometric method which is known rapid alternative to traditional culture methods has been reported to be useful for the rapid detection and identification of mycobacteria from clinical specimens. I report the experience for the use of the BACTEC 460TB for detection of mycobacteria from clinical specimens. METHODS: All clinical specimens received in the department of clinical pathology from July 1993 through August 1994 were used for this study. Smears were prepared and stained for acid-fast bacilli(AFB) by Ziehl-Neelson method Middlebrook 7H12 medium(BACTEC 12A) containing a 14C-labeled palmitic acid was used as the basal medium. Quantitation of the liberated 14CO2 was used as a measure of cell growth. A BACTEC 460TB instrument was used for the detection and quantitation of 14CO2 liberated in the culture bottle. NAP tests for differentiating the M. tuberculosis complex from mycobacteria other than tuberculosis(MOTT) were performed. RESULTS: A total of 111(9.6%) mycobacterial isolates were recovered from 1.151 clinical specimens. The sensitivity of the BACTEC 460TB for detecting M. tuberculosis in acid-fast smear-positive specimens was 93.8%. The mean time required for the primary isolation of mycobacteria(GI of > or =10) was 9.8 days and the mean detection time of M. tuberculosis complex was 19.3 days. In according to the acid-fast smear results, the mean detection times of M tuberculosis complex in smear-positive and smear-negative specimens were 14.9 days and 20.9 days, respectively. The mean detection time of M. tuberculosis complex in smear-positive specimens was better for respiratory specimens(14.7 days) than for extrapulmonary specimens(21 days). All 111 isolates were susceptible to rho-nitro-alpha-acetylamino-beta-hydroxypropiophenone(NAP) and the contamination rate was 4%. CONCLUSIONS: The BACTEC radiometric method for detecting and characterizing mycobacteria requires expensive instrument and reagents using radioisotope and additional expenditure of time and effort, but The BACTEC 460TB is extremely useful for the rapid detection, isolation and identification of clinically important mycobacteria in clinical laboratory.
Health Expenditures
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Indicators and Reagents
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Mycobacterium tuberculosis*
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Mycobacterium*
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Palmitic Acid
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Pathology, Clinical
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Tuberculosis
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Tuberculosis, Multidrug-Resistant
5.Bioactive Constituents from the Leaves of Zanthoxylum schinifolium.
Su Yang JEONG ; Phi Hung NGUYEN ; Bing Tian ZHAO ; Byung Sun MIN ; Eun Sook MA ; Mi Hee WOO
Natural Product Sciences 2015;21(1):1-5
Activity-guided separation of the methylene chloride-soluble fraction of the leaves of Zanthoxylum schinifolium, resulted in the isolation of four coumarinoids (1 - 4), two triterpenoids (5, 6) and three fatty acid derivatives (7 - 9) as active principles. Their chemical structures were identified as collinin (1), 8-methoxyanisocoumarin (2), 7-(6'R-hydroxy-3',7'-dimethylocta-2',7'-dienyloxy)-coumarin (3), (E)-4-methly-6-(coumarin-7'-yloxy) hex-4-enal (4), lupeol (5), epi-lupeol (6), phytol (7), hexadec-3-enoic acid (8) and palmitic acid (9), on the basis of spectroscopic (1D, 2D and MS) data analyses and comparing with the data published in the literatures. Compounds 1 and 7 showed potent cytotoxicity against Jurkat T cells with IC50 values of 45.58 and 47.51 microM, respectively. The others showed moderate activity with IC50 values ranging around 80.58 to 85.83 microM, while the positive control, auraptene, possessed an IC50 value of 55.36 microM.
Inhibitory Concentration 50
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Palmitic Acid
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Phytol
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Rutaceae
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Statistics as Topic
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T-Lymphocytes
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Zanthoxylum*
6.Lipopolysaccharide inhibits lipophagy in HepG2 cells via activating mTOR pathway.
Zheng-Ping HOU ; Yan-Ping LI ; Lei ZHAO ; Ya-Xi CHEN ; Xiong-Zhong RUAN
Acta Physiologica Sinica 2021;73(5):813-820
This study aimed to investigate the effect of lipopolysaccharide (LPS) on lipophagy in hepatocytes and the underlying mechanism. Human hepatoma cell line HepG2 was cultured in vitro, treated with 0.1 mmol/L palmitic acid (PA), and then divided into control group (0 μg/mL LPS), LPS group (10 μg/mL LPS), LPS+DMSO group and LPS+RAPA (rapamycin, 10 μmol/L) group. Lipid accumulation in hepatocytes was observed by oil red O staining. The autophagic flux of the cells was assessed using confocal laser scanning microscope after being transfected with autophagy double-labeled adenovirus (mRFP-GFP-LC3). The level of intracellular lipophagy was visualized by the colocalization of lipid droplets (BODIPY 493/503 staining) and lysosomes (lysosome marker, lysosomal associated membrane protein 1, LAMP1). The expression levels of mammalian target of rapamycin (mTOR), phosphorylated mTOR (p-mTOR), ribosome protein subunit 6 kinase 1 (S6K1), p-S6K1, LC3II/I and P62 protein were examined by Western blot. The results showed that the number of red lipid droplets stained with oil red O was significantly increased in LPS group compared with that in control group (P < 0.001). Moreover, in LPS group, the number of autophagosomes was increased, while the number of autophagolysosomes and the colocalization rate of LAMP1 and BODIPY were significantly decreased (P < 0.05). Meanwhile, the ratios of p-mTOR/mTOR and p-S6K1/S6K1, the ratio of LC3II/LC3I and the protein expression of P62 were significantly increased (P < 0.05) in LPS group. Furthermore, compared with LPS+DMSO group, RAPA treatment obviously reduced the number of lipid droplets and autophagosomes, and raised the number of autophagolysosomes and the colocalization rate of LAMP1 and BODIPY (P < 0.05). In conclusion, the results demonstrate that LPS inhibits lipophagy in HepG2 cells via activating mTOR signaling pathway, thereby aggravating intracellular lipid accumulation.
Autophagy
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Hep G2 Cells
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Humans
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Lipopolysaccharides
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Palmitic Acid
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Signal Transduction
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TOR Serine-Threonine Kinases
7.Period circadian clock 3 inhibits palmitic acid-induced oxidative stress and inflammatory factor secretion in podocytes.
Lin PENG ; Keke ZHANG ; Ke CHEN
Journal of Central South University(Medical Sciences) 2021;46(11):1177-1186
OBJECTIVES:
High fat-induced podocyte injury is one of the important factors leading to obesity related nephropathy (ORG), but the mechanism is not clear. This study aims to explore the mechanism of period circadian clock 3 (PER3) in the oxidative stress and inflammation induced by palmitic acid (PA) in podocytes.
METHODS:
The C57BL/6J mice were fed with chow and high-fat diet for 16 weeks. The PER3 expression in kidney tissues were detected in the normal body weight group and the obesity group. The PER3 mRNA and protein expression were detected after the podocytes were induced with different concentrations (0, 50, 150 and 300 μmol/L) of PA for 48 h. The PER3 mRNA and protein expression were detected after the podocytes were induced with 150 μmol/L PA for 0, 24, 36, and 48 h. Triglyceride (TG) levels were examined in the PA group, the adenovirus (ad)-PER3+PA group, and the siRNA-PER+PA group after the podocytes were transfected by Ad-PER3 or small interfering RNA (siRNA)-PER3 for 48 h and subsequently were induced with 150 μmol/L PA for 48 h. The differential gene expression was detected using RNA sequencing (RNA-seq) after podocytes were transfected by siRNA-PER3 (siRNA-PER3 group) and siRNA-control (siRNA-control group), respectively. The mRNA levels of nephrin, podocin, podocalyxin, podoplanin, superoxide dismutase 1 (SOD1), glutathione peroxidase 1 (GPX1), catalase (CAT), and the levels of malondialdehyde (MDA), glutathione (GSH), tumor necrosis factor-α (TNF-α), interleukin-6 (IL-6), interleukin-1β (IL-1β) and interleukin-2 (IL-2) were detected after podocytes were transfected with Ad-PER3 or Ad-control for 48 h and then they were induced by 150 μmol/L PA for 48 h.
RESULTS:
The PER3 was down-regulated in the obesity group compared with the normal body weight group (
CONCLUSIONS
PER3 can decrease the PA-induced oxidative stress and inflammatory factor secretion via inhibiting the lipogenesis in podocytes.
Animals
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Circadian Clocks
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Mice
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Mice, Inbred C57BL
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Oxidative Stress
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Palmitic Acid/toxicity*
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Podocytes/metabolism*
8.Palmitic acid suppresses autophagy in neonatal rat cardiomyocytes via the cGAS-STING-IRF3 pathway.
Hui Lin YU ; Qian LIU ; Yong Zheng GUO ; Yong XIA ; Su Xin LUO
Journal of Southern Medical University 2022;42(1):36-44
OBJECTIVE:
To investigate the effect of palmitic acid (PA) on autophagy in neonatal rat cardiomyocytes (NRCMs) and explore the underlying mechanism.
METHODS:
NRCMs were isolated and cultured for 24 h before exposure to 10% BSA and 0.1, 0.3, 0.5, or 0.7 mmol/L PA for 24 h. After the treatments, the expressions of Parkin, PINK1, p62, LC3Ⅱ/ LC3Ⅰ, cGAS, STING and p-IRF3/IRF3 were detected using Western blotting and the cell viability was assessed with CCK8 assay, based on which 0.7 mmol/L was selected as the optimal concentration in subsequent experiments. The effects of cGAS knockdown mediated by cGAS siRNA in the presence of PA on autophagy-related proteins in the NRCMs were determined using Western blotting, and the expressions of P62 and LC3 in the treated cells were examined using immunofluorescence assay.
RESULTS:
PA at different concentrations significantly lowered the expressions of Parkin, PINK1, LC3 Ⅱ/LC3 Ⅰ and LC3 Ⅱ/LC3 Ⅰ+Ⅱ (P < 0.05), increased the expression of p62 (P < 0.05), and inhibited the viability of NRCMs (P < 0.05). Knockdown of cGAS obviously blocked the autophagy-suppressing effect of PA and improved the viability of NRCMs (P < 0.05).
CONCLUSION
PA inhibits autophagy by activating the cGAS-STING-IRF3 pathway to reduce the viability of NRCMs.
Animals
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Animals, Newborn
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Autophagy
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Myocytes, Cardiac
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Nucleotidyltransferases/pharmacology*
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Palmitic Acid/pharmacology*
;
Rats
9.Analysis of volatile constituents and chemical relationship of cultivated and wild Angelica dahurica.
En Wei TIAN ; Xin CHENG ; Yin Rong LIU ; Jian Ling CHEN ; Zhi CHAO
Journal of Southern Medical University 2022;42(3):360-366
OBJECTIVE:
To determine the volatile constituents and their contents in the roots of 5 cultivated Angelica dahurica and one wild A. dahurica and analyze the chemical relationship among the plants of A. dahurica.
METHODS:
The essential oil was extracted from the roots of 5 cultivated plants of Angelica dahurica and one wild A. dahurica by water steam distillation. Gas chromatography-mass spectrometry (GC-MS) was used to separate and identify all the volatile oil components in the extracts, and their relative contents were calculated with area normalization method. We also conducted clustering analysis and principal component analysis of the volatile oil components.
RESULTS:
We identified a total of 81 compounds from the roots of the 6 plants of Angelica dahurica, including 27 in Chuanbaizhi (Angelica dahurica cv. 'Hangbaizhi'), 34 in Hangbaizhi (Angelica dahurica cv. 'Hangbaizhi'), 24 in Qibaizhi (Angelica dahurica cv. 'Qibaizhi'), 32 in Yubaizhi (Angelica dahurica cv.'Qibaizhi'), 28 in Bobahizhi (Angelica dahurica cv.'Qibaizhi'), and 34 in Xinganbaizhi (Angelica dahuirca). These compounds included, in the order of their relative contents (from high to low), alkanes, olefins, esters, organic acids and alcohols. Among the common components found in the roots of all the plants of A. dahurica, nonylcyclopropane, cyclododecane and hexadecanoic acid were identified as the volatile oil components that showed the highest relative contents. Clustering analysis of the volatile oil components showed that wild Angelica dahurica (Xing'anbaizhi) and the 5 cultivated Angelica dahurica (Chuanbaizhi, Hangbaizhi, Qibaizhi, Yubaizhi, Bobaizhi) could be divided into two groups, and the cultivated Angelica dahurica could be divided into two subgroups: Chuanbaizhi, Yubaizhi and Hangbahizhi were clustered in one subgroup, and Qibaizhi and Bobaizhi in another. The results of principal component analysis was consistent with those of clustering analysis.
CONCLUSION
The main volatile oil components and their contents vary among the 6 plants of A. dahurica. Nonylcyclopropane, cyclododecane and hexadecanoic acid are the most abundant volatile oil components in all the plants of A. dahurica, which can be divided into two clusters.
Angelica/chemistry*
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Gas Chromatography-Mass Spectrometry
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Oils, Volatile/analysis*
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Palmitic Acid/analysis*
;
Plant Roots/chemistry*
10.Studies on chemical constituents from roots of Pterospermum heterophyllum.
Yan SHI ; Shuai LI ; Hong-yu LI ; Bao-song CUI ; Yi YUAN
China Journal of Chinese Materia Medica 2008;33(16):1994-1996
OBJECTIVETo study the chemical constituents from the roots of Pterospermum heterophyllum.
METHODThe chemical constituents of P. heterophyllum were isolated and purified by silica gel and sephadex LH-20 column chromatography. Their structures were identified on the basis of spectroscopic data and physicochemical properties.
RESULTNine compounds were isolated and identified as taraxerol (1), betulin (2), betulinic acid (3), sumaresinolic acid (4), 2-methoxy-5-hydroxy-1, 4-naphthoquinone (5), 5, 7-dihydroxy-6, 8-dimethylchromone (6), alpha-monpalmitin (7), palmitic acid (8), beta-sitosterol (9).
CONCLUSIONCompounds 2-7 were isolated from this genus for the first time.
Chromatography ; Malvaceae ; chemistry ; Naphthoquinones ; chemistry ; Oleanolic Acid ; analogs & derivatives ; chemistry ; Palmitic Acid ; chemistry ; Plant Roots ; chemistry ; Sitosterols ; chemistry ; Triterpenes ; chemistry