[Objective] This study was conducted to establish a near-infrared diffuse reflectance spectroscopy of Guizhou Aspidistra plants. [Method] Twenty three batch- es of Guizhou Aspidistra plants including A. chishuiensis, ...[Objective] This study was conducted to establish a near-infrared diffuse reflectance spectroscopy of Guizhou Aspidistra plants. [Method] Twenty three batch- es of Guizhou Aspidistra plants including A. chishuiensis, A. spinula, A. Caespitosa, A. sichuanensis, A. ebianensis, A. retusa, A. guizhouensis and A. liboensis were subjected to drying, pulverization and sieving and then directly determined for near- infrared reflectance spectrums; and the plants in this genus were classified by clus- ter analysis and principal component analysis (PCA). [Result] The near-infrared re- flectance spectrums of the 23 batches of Guizhou Aspidistra plants showed very high similarity. The spectrums were processed by first derivative method, and the spectral range of 4 000-7 500 cm-1 was selected as the analytical range. Cluster analysis and PCA were employed to mass spectrum variables of plants in Aspidis- tra, fewer new variables became the linear combination of primary variables, and small differences between different varieties were enlarged, thereby facilitating intu- itive classification of plants in this genus. [Conclusion] Near-infrared diffuse re- flectance spectroscopy is nondestructive and rapid for determination of solid sam- pies, and provides a new method for the classification of Guizhou Aspidistra plants combined by information processing techniques.展开更多
Background:The genera Paris,Trillium,Aspidistra,and Polygonatum originally belonged to the family Liliaceae;however,recently,in the APG system,the genera Polygonatum and Aspidistra were placed in the family Asparagace...Background:The genera Paris,Trillium,Aspidistra,and Polygonatum originally belonged to the family Liliaceae;however,recently,in the APG system,the genera Polygonatum and Aspidistra were placed in the family Asparagaceae and the genera Paris and Trillium were placed in the family Melanthiaceae.Methods:To study the application of polysaccharide chemotaxonomy in Asparagaceae and Melanthiaceae,we extracted polysaccharides from the rhizomes of plants,including Paris polyphylla var.yunnanensis,Paris daliensis,Paris polyphylla var.chinensis,Trillium tschonoskii,Aspidistra elatior,Aspidistra sichuanensis,Aspidistra caespitosa,Polygonatum sibiricum,Polygonatum cyrtonema,and Polygonatum kingianum.Physicochemical and structural characterization of these polysaccharides was performed using molecular weight,monosaccharide composition,Fourier-transform infrared spectroscopy,nuclear magnetic resonance spectroscopy,and scanning electron microscopy.The immunomodulatory activities were evaluated using the macrophage cell line,RAW264.7.Results:In this study,we found that the polysaccharides from the genus Polygonatum and Aspidistra were mainly comprised of fructose and glucose;the molecular weights were mostly concentrated between 4.6-6.2 kDa.The polysaccharides from species of genus Polygonatum differed in that they contained acetyl groups,while polysaccharides from species of genus Aspidistra did not.Paris and Trillium species polysaccharides mainly consisted of glucose and mannose;the molecular weights of the two major peaks were 6.3-13 kDa and 1-1.5 kDa,respectively;the main differences between polysaccharides were the ratio of glucose and mannose and the degree of branching.These results suggest that fructans might be the main feature of the family Asparagaceae and fructans with acetyl groups might be the main feature of the genus Polygonatum which is consistent with the results of previous studies.Additionally,all polysaccharides from the 10 plants promoted phagocytic activity.Some of them exhibited strong activity,including nitrogen monoxide release and TNF-αsecretion by RAW264.7 macrophages,indicating that they could be used as potential immunomodulatory agents.Conclusion:The molecular weight distribution,monosaccharide composition,and surface morphology of the polysaccharides of the Polygonatum and Aspidistra plants were similar,while those of Paris and Trillium plants were similar.These results support the APG classification system,which placed the genera Polygonatum and Aspidistra in the Asparagaceae family and placed the genera Paris and Trillium in the Melanthiaceae family.展开更多
[Objectives]This study was conducted to investigate the antitussive and anti-inflammatory effects of Miao medicine Aspidistra caespitosa C.Pei.[Methods]A mouse cough model was made by the SO 2 cough induction method,a...[Objectives]This study was conducted to investigate the antitussive and anti-inflammatory effects of Miao medicine Aspidistra caespitosa C.Pei.[Methods]A mouse cough model was made by the SO 2 cough induction method,and the antitussive effects of different extraction fractions of A.caespitosa were observed.The inflammation models of acute inflammatory ear swelling in mice caused by xylene,granuloma in mice caused by cotton balls,and footpad swelling in mice caused by carrageenan were made,and the different extraction fractions were used to observe the effects of different extraction fractions on mouse ear swelling,granuloma and footpad swelling.And the levels of interleukin 6(IL-6)and tumor necrosis factor(TNF-a)in the serum of different groups of mice were detected to screen out the extraction fractions of A.caespitosa with good antitussive and anti-inflammatory activity.[Results]Antitussive experiments on mice showed that the water layer extraction fraction,ethyl acetate extraction fraction and petroleum ether extraction fraction of Miao medicine A.caespitosa could prolong the incubation period of cough in mice and reduce the number of coughs within 2 min to varying degrees,and its different extraction fractions all had different inhibitory effects on mouse ear swelling,granuloma and footpad swelling.Compared with the blank control group,the different extraction fractions could reduce IL-6,TNF-a and other indicators to different degrees.[Conclusions]Ethyl acetate extraction fraction of A.caespitosa has good antitussive and anti-inflammatory effects.展开更多
In the present investigation, we carried a phytochemical study of an ethanol-soluble extract from the root barks of Aspidistra typica Baill., a traditional food and herb medicine, leading to the isolation of four diff...In the present investigation, we carried a phytochemical study of an ethanol-soluble extract from the root barks of Aspidistra typica Baill., a traditional food and herb medicine, leading to the isolation of four different kinds of compounds, including one benzene substituted coumarin, two organic phosphonic compounds, and one xanthone. The novel benzene substituted coumarin typicacoumarin A(1) was a new type of coumarin, and the two new organic phosphonic compounds, typicalphosphine A(2) and typicalphosphine B(3) were isolated for the first time, and their structures were elucidated by spectral techniques, viz.1 D, 2 D NMR spectra and HR-ESI-MS. The xanthone compound typicaxanthone A(4) was discovered from nature for the first time. The two new organic phosphonic chlorides(2, 3) showed stronger antibacterial activities, which were comparable to berberine hydrochloride. And typicaxanthone A(4) showed much stronger antibacterial activity against Escherichia coli ATCC-25922 bacterial strain, while typicacoumarin A(1) showed moderate antibacterial activities, weaker than berberine hydrochloride.展开更多
A novel homoisoflavone typicalvone A (1), together with two known compounds, n-heneicosane and p-hydroxy benzoic acid, were isolated from Aspidistra typica Baill. The structure of the new compound was elucidated by ...A novel homoisoflavone typicalvone A (1), together with two known compounds, n-heneicosane and p-hydroxy benzoic acid, were isolated from Aspidistra typica Baill. The structure of the new compound was elucidated by sepctral techniques, viz. 1D, 2D NMR spectra and HR-ESI-MS. Compared with berberine hydrochloride, typicalvone A showed moderate anti-bacterial activities, especially against the Gram-negative Paeudomonas aeruginosa ATCC-9027 and Escherichia coli ATCC-25922, with MBC values of 1000 and 500 μg/mL, respectively. In addition, it exhibited weak inhibitory activities against the tumour cells.展开更多
基金Supported by National Natural Science Foundation of China(81360623)~~
文摘[Objective] This study was conducted to establish a near-infrared diffuse reflectance spectroscopy of Guizhou Aspidistra plants. [Method] Twenty three batch- es of Guizhou Aspidistra plants including A. chishuiensis, A. spinula, A. Caespitosa, A. sichuanensis, A. ebianensis, A. retusa, A. guizhouensis and A. liboensis were subjected to drying, pulverization and sieving and then directly determined for near- infrared reflectance spectrums; and the plants in this genus were classified by clus- ter analysis and principal component analysis (PCA). [Result] The near-infrared re- flectance spectrums of the 23 batches of Guizhou Aspidistra plants showed very high similarity. The spectrums were processed by first derivative method, and the spectral range of 4 000-7 500 cm-1 was selected as the analytical range. Cluster analysis and PCA were employed to mass spectrum variables of plants in Aspidis- tra, fewer new variables became the linear combination of primary variables, and small differences between different varieties were enlarged, thereby facilitating intu- itive classification of plants in this genus. [Conclusion] Near-infrared diffuse re- flectance spectroscopy is nondestructive and rapid for determination of solid sam- pies, and provides a new method for the classification of Guizhou Aspidistra plants combined by information processing techniques.
基金National Natural Science Foundation of China(No.81373904 and No.81673535)National Key Research and Development Project(2019YFC1710604)Tianjin Science and Technology Plan Project(19YFZCSY00170).
文摘Background:The genera Paris,Trillium,Aspidistra,and Polygonatum originally belonged to the family Liliaceae;however,recently,in the APG system,the genera Polygonatum and Aspidistra were placed in the family Asparagaceae and the genera Paris and Trillium were placed in the family Melanthiaceae.Methods:To study the application of polysaccharide chemotaxonomy in Asparagaceae and Melanthiaceae,we extracted polysaccharides from the rhizomes of plants,including Paris polyphylla var.yunnanensis,Paris daliensis,Paris polyphylla var.chinensis,Trillium tschonoskii,Aspidistra elatior,Aspidistra sichuanensis,Aspidistra caespitosa,Polygonatum sibiricum,Polygonatum cyrtonema,and Polygonatum kingianum.Physicochemical and structural characterization of these polysaccharides was performed using molecular weight,monosaccharide composition,Fourier-transform infrared spectroscopy,nuclear magnetic resonance spectroscopy,and scanning electron microscopy.The immunomodulatory activities were evaluated using the macrophage cell line,RAW264.7.Results:In this study,we found that the polysaccharides from the genus Polygonatum and Aspidistra were mainly comprised of fructose and glucose;the molecular weights were mostly concentrated between 4.6-6.2 kDa.The polysaccharides from species of genus Polygonatum differed in that they contained acetyl groups,while polysaccharides from species of genus Aspidistra did not.Paris and Trillium species polysaccharides mainly consisted of glucose and mannose;the molecular weights of the two major peaks were 6.3-13 kDa and 1-1.5 kDa,respectively;the main differences between polysaccharides were the ratio of glucose and mannose and the degree of branching.These results suggest that fructans might be the main feature of the family Asparagaceae and fructans with acetyl groups might be the main feature of the genus Polygonatum which is consistent with the results of previous studies.Additionally,all polysaccharides from the 10 plants promoted phagocytic activity.Some of them exhibited strong activity,including nitrogen monoxide release and TNF-αsecretion by RAW264.7 macrophages,indicating that they could be used as potential immunomodulatory agents.Conclusion:The molecular weight distribution,monosaccharide composition,and surface morphology of the polysaccharides of the Polygonatum and Aspidistra plants were similar,while those of Paris and Trillium plants were similar.These results support the APG classification system,which placed the genera Polygonatum and Aspidistra in the Asparagaceae family and placed the genera Paris and Trillium in the Melanthiaceae family.
基金Scientific and Technological Research Project of Traditional Chinese Medicine and Ethnic Medicine of Guizhou Administration of Traditional Chinese Medicine(QZYY2017-116)Scientific Research Project of Guizhou University of Traditional Chinese Medicine(GZYKYN[2017]28).
文摘[Objectives]This study was conducted to investigate the antitussive and anti-inflammatory effects of Miao medicine Aspidistra caespitosa C.Pei.[Methods]A mouse cough model was made by the SO 2 cough induction method,and the antitussive effects of different extraction fractions of A.caespitosa were observed.The inflammation models of acute inflammatory ear swelling in mice caused by xylene,granuloma in mice caused by cotton balls,and footpad swelling in mice caused by carrageenan were made,and the different extraction fractions were used to observe the effects of different extraction fractions on mouse ear swelling,granuloma and footpad swelling.And the levels of interleukin 6(IL-6)and tumor necrosis factor(TNF-a)in the serum of different groups of mice were detected to screen out the extraction fractions of A.caespitosa with good antitussive and anti-inflammatory activity.[Results]Antitussive experiments on mice showed that the water layer extraction fraction,ethyl acetate extraction fraction and petroleum ether extraction fraction of Miao medicine A.caespitosa could prolong the incubation period of cough in mice and reduce the number of coughs within 2 min to varying degrees,and its different extraction fractions all had different inhibitory effects on mouse ear swelling,granuloma and footpad swelling.Compared with the blank control group,the different extraction fractions could reduce IL-6,TNF-a and other indicators to different degrees.[Conclusions]Ethyl acetate extraction fraction of A.caespitosa has good antitussive and anti-inflammatory effects.
基金supported by the Research Platform for the project of the application basic plan in Sichuan Province(No.2014JY0113)the project of Department of Science in Sichuan Province,China(No.14ZA0003)
文摘In the present investigation, we carried a phytochemical study of an ethanol-soluble extract from the root barks of Aspidistra typica Baill., a traditional food and herb medicine, leading to the isolation of four different kinds of compounds, including one benzene substituted coumarin, two organic phosphonic compounds, and one xanthone. The novel benzene substituted coumarin typicacoumarin A(1) was a new type of coumarin, and the two new organic phosphonic compounds, typicalphosphine A(2) and typicalphosphine B(3) were isolated for the first time, and their structures were elucidated by spectral techniques, viz.1 D, 2 D NMR spectra and HR-ESI-MS. The xanthone compound typicaxanthone A(4) was discovered from nature for the first time. The two new organic phosphonic chlorides(2, 3) showed stronger antibacterial activities, which were comparable to berberine hydrochloride. And typicaxanthone A(4) showed much stronger antibacterial activity against Escherichia coli ATCC-25922 bacterial strain, while typicacoumarin A(1) showed moderate antibacterial activities, weaker than berberine hydrochloride.
基金The Project of Department of Science in Sichuan Province(Grant No.14ZA0003)
文摘A novel homoisoflavone typicalvone A (1), together with two known compounds, n-heneicosane and p-hydroxy benzoic acid, were isolated from Aspidistra typica Baill. The structure of the new compound was elucidated by sepctral techniques, viz. 1D, 2D NMR spectra and HR-ESI-MS. Compared with berberine hydrochloride, typicalvone A showed moderate anti-bacterial activities, especially against the Gram-negative Paeudomonas aeruginosa ATCC-9027 and Escherichia coli ATCC-25922, with MBC values of 1000 and 500 μg/mL, respectively. In addition, it exhibited weak inhibitory activities against the tumour cells.
