Two new iridoids (1 and 2) were isolated from the roots of Patrinia rupestris (Pail.) Juss. Their structures were elucidated by spectroscopic methods. Compounds 1 and 2 exhibited strong antibacterial activities ag...Two new iridoids (1 and 2) were isolated from the roots of Patrinia rupestris (Pail.) Juss. Their structures were elucidated by spectroscopic methods. Compounds 1 and 2 exhibited strong antibacterial activities against Eschecichia coli and Staphylococcus aureus, respectively.展开更多
Vitis vinifera 87-1 plants infected by grapevine fleck virus(GFkV) and grapevine rupestris stem pitting-associated virus(GRSPaV) were used as the plant materials for virus elimination treatment. This study evaluated t...Vitis vinifera 87-1 plants infected by grapevine fleck virus(GFkV) and grapevine rupestris stem pitting-associated virus(GRSPaV) were used as the plant materials for virus elimination treatment. This study evaluated the effects of ribavirin at different concentrations(15 and 25 μg mL^(–1);R15 and R25, respectively), thermotherapy(37°C;T), and the combination of ribavirin and thermotherapy(R15+T and R25+T) on eliminating viruses from grapevine plants in vitro. Both R15 and R25 had phytotoxic effects and weakened plant growth. Thermotherapy positively affected the growth of grapevine plants. Plant height was significantly greater in T, R15+T, and R25+T than in CK, R15 and R25. The proportion of dead plants after T, R15+T, and R25+T was 51.4, 11.4, and 8.6%, respectively. The survival rates of regenerated plants after all treatments were >68.0%. Ribavirin concentration and treatment time were related to the regeneration of shoot tips and elimination efficiencies of the two viruses. The survival rates of plants after R15+T for 30, 40, and 50 days were 97.3, 90.7, and 74.4%, respectively. The elimination rates of GRSPaV from plants in the three time quantum were 55.6, 84.6, and 93.8%, respectively. The elimination rate of GFkV was 23.9% higher in R25(35/44) than in R15(25/45), and that of GRSPaV was 7.0% higher in R25 than in R15. The combination of thermotherapy and chemotherapy was found to have a positive effect on the eradication of GFkV and GRSPaV, and R25+T for 50 days was able to completely eliminate the two viruses from in vitro grapevines.展开更多
The goal of this work was to analyze the phenological and physiological responses of Brassica rupestris Raf. subsp. hispida Raimondo & Mazzola and Brassica rupestris Raf. subsp. rupestris to environmental factors ...The goal of this work was to analyze the phenological and physiological responses of Brassica rupestris Raf. subsp. hispida Raimondo & Mazzola and Brassica rupestris Raf. subsp. rupestris to environmental factors also in consideration of global change. We used seedlings of the two subspecies originated from wild plants from the natural habitats in Sicily and cultivated in the Botanical Garden of Rome. Leaf morphological and physiological traits and growth dynamic were analyzed as well as the response to an imposed water stress experiment. The results underlined a higher relative growth rate in plant height (RGRH, cm·cm-1·d-1) in B. rupestris subsp. rupestris also attested by the highest plant height (H, cm), leaf area (LA, cm2), specific leaf area (SLA, cm·g-1), total leaf area per plant (TLA, cm2) and total plant dry mass (PDM, g plant-1). Moreover, the significantly highest net photosynthetic rates (A, μmol CO2 m-2·s-1) during the study period of this subspecies was related to the high Chlorophyll content (Chl, SPAD units). B. rupestris subsp. rupestris was also the most tolerant subspecies to imposed water stress showing the highest relative water content (RWC, %), A and water use efficiency (WUE, μmol·mmol-1).展开更多
Objective:We aimed to develop a novel Artemisia rupestris L.flavonoid nano-encapsulation(AFN)preparation and evaulate its anti-hepatitis B virus(HBV)activityin vitro.Methods:First,the AFN was prepared using polylactic...Objective:We aimed to develop a novel Artemisia rupestris L.flavonoid nano-encapsulation(AFN)preparation and evaulate its anti-hepatitis B virus(HBV)activityin vitro.Methods:First,the AFN was prepared using polylactic-co-glycolic acid(PLGA).Then,after verification of the AFN,in vitro anti-virus assays were conducted by:(1)assessing the inhibitory effect of AFN on the secretion of hepatitis B surface antigens(HBsAg),hepatitis B e-antigens(HBeAg),and the replication of HBV DNAin HepG2.2.15 cells;(2)analyzing the influence of AFN on the activation rate of NF-κB positive cells;and(3)evaluating the effect of AFN on the function of glutathione peroxidase(GSH-PX)enzymes located onthe HepG2.2.15 cell membrane.Results:Compared to the original total flavonoids extract of Artemisia rupestris L.(withoutnano-encapsulation),AFN preparation under the maximum nontoxic concentration effectively inhibited the secretion of HBsAg,HBeAg,and HBV DNA from HepG2.2.15 cells.At the same time,AFN preparation promoted not only the activation rate of NF-κB positive cells,but also antiviral GSH-PX enzyme function.In conclusion,nano-encapsulation of the flavonoids extract of Artemisia rupestris L.showed an enhanced anti-HBV effect in vitro compared to the original total flavonoids extract(without nanoencapsulation);therefore,nano-encapsulation has great potential for the development of a novel antiviral herbal medicine preparation with improved efficacy.展开更多
Studies In model plants showed that SEPALLATA (SEP) genes are required for the Identification of floral organs and the determination of floral meristems In Arabidopsis. In this paper a SEP homolog, TrSEP3, was Isola...Studies In model plants showed that SEPALLATA (SEP) genes are required for the Identification of floral organs and the determination of floral meristems In Arabidopsis. In this paper a SEP homolog, TrSEP3, was Isolated from a China-specific species, Taihangla rupestrisi Yü et LI. Phylogenetlc analysis showed that the gene belongs to the SEP3-clade of SEP (previous AGL2) subfamily. In situ hybridization was used to reveal the potential functional specification, and the results showed that TrSEP3 expression was first observed in floral meristems and then confined to the floral primordla of the three inner whorls. In the matured flower, TrSEP3 was strongly expressed In the tips of pistils and weak In stamens and petals. The evolution force analysis shows that TrSEP3 might undergo a relaxed negative selection. These results suggested that TrSEP3 may not only function In determining the identity of floral merlstems and the primordia of three inner whorls, but also function In matured reproductive organs.展开更多
Objective To research the anti-influenza effect of active ingredients in Compound Yizhihao Granule (CYG). Methods The cytotoxicity and cytopathic effects (CPE) were observed under the phase-contrast microscope, be...Objective To research the anti-influenza effect of active ingredients in Compound Yizhihao Granule (CYG). Methods The cytotoxicity and cytopathic effects (CPE) were observed under the phase-contrast microscope, besides 50% toxicity concentration (TC50) and 50% inhibitory concentration (IC50) were also calculated using Reed-Muench method, then the antiviral activity in vitro according to Selection Index (SI = TC50/IC50) was evaluated. In PR8 virus-infected mice, survival time, death rate, and lung index were observed in order to evaluate the protective effect. Besides, the effective ingredients were determined using HPLC method, and their contents were calculated by external standard method. Results CYG could inhibit the influenza virus-induced CPE, with ICso of 4.6 mg/mL (equal to herbal extracts 262.2 μg/mL), and no direct cytotoxic effect at this concentration. PR8-infected mice were ig given CYG, the lung index and mortality were significantly reduced, and survival time was obviously prolonged. HPLC analysis indicated CYG contained many kinds of antivirus active components, including rupestonic acid, epigoitrin, and adenosine. Conclusion CYG is an effective natural anti-influenza medicine, its antiviral effect should be the synergic effect of a variety of antiviral active ingredients.展开更多
文摘Two new iridoids (1 and 2) were isolated from the roots of Patrinia rupestris (Pail.) Juss. Their structures were elucidated by spectroscopic methods. Compounds 1 and 2 exhibited strong antibacterial activities against Eschecichia coli and Staphylococcus aureus, respectively.
基金supported by the National Key R&D Program of China (2019YFD1001800)the China Agricultural Research System of MOF and MARA (CARS-29)。
文摘Vitis vinifera 87-1 plants infected by grapevine fleck virus(GFkV) and grapevine rupestris stem pitting-associated virus(GRSPaV) were used as the plant materials for virus elimination treatment. This study evaluated the effects of ribavirin at different concentrations(15 and 25 μg mL^(–1);R15 and R25, respectively), thermotherapy(37°C;T), and the combination of ribavirin and thermotherapy(R15+T and R25+T) on eliminating viruses from grapevine plants in vitro. Both R15 and R25 had phytotoxic effects and weakened plant growth. Thermotherapy positively affected the growth of grapevine plants. Plant height was significantly greater in T, R15+T, and R25+T than in CK, R15 and R25. The proportion of dead plants after T, R15+T, and R25+T was 51.4, 11.4, and 8.6%, respectively. The survival rates of regenerated plants after all treatments were >68.0%. Ribavirin concentration and treatment time were related to the regeneration of shoot tips and elimination efficiencies of the two viruses. The survival rates of plants after R15+T for 30, 40, and 50 days were 97.3, 90.7, and 74.4%, respectively. The elimination rates of GRSPaV from plants in the three time quantum were 55.6, 84.6, and 93.8%, respectively. The elimination rate of GFkV was 23.9% higher in R25(35/44) than in R15(25/45), and that of GRSPaV was 7.0% higher in R25 than in R15. The combination of thermotherapy and chemotherapy was found to have a positive effect on the eradication of GFkV and GRSPaV, and R25+T for 50 days was able to completely eliminate the two viruses from in vitro grapevines.
文摘The goal of this work was to analyze the phenological and physiological responses of Brassica rupestris Raf. subsp. hispida Raimondo & Mazzola and Brassica rupestris Raf. subsp. rupestris to environmental factors also in consideration of global change. We used seedlings of the two subspecies originated from wild plants from the natural habitats in Sicily and cultivated in the Botanical Garden of Rome. Leaf morphological and physiological traits and growth dynamic were analyzed as well as the response to an imposed water stress experiment. The results underlined a higher relative growth rate in plant height (RGRH, cm·cm-1·d-1) in B. rupestris subsp. rupestris also attested by the highest plant height (H, cm), leaf area (LA, cm2), specific leaf area (SLA, cm·g-1), total leaf area per plant (TLA, cm2) and total plant dry mass (PDM, g plant-1). Moreover, the significantly highest net photosynthetic rates (A, μmol CO2 m-2·s-1) during the study period of this subspecies was related to the high Chlorophyll content (Chl, SPAD units). B. rupestris subsp. rupestris was also the most tolerant subspecies to imposed water stress showing the highest relative water content (RWC, %), A and water use efficiency (WUE, μmol·mmol-1).
基金supported by the Science and Technology International Cooperation Project of Xinjiang Uygur Autonomous Region of China(No.20166015)the National Natural Science Foundation of China(No.81773175)the China Postdoctoral Science Foundation(No.2018M630839).
文摘Objective:We aimed to develop a novel Artemisia rupestris L.flavonoid nano-encapsulation(AFN)preparation and evaulate its anti-hepatitis B virus(HBV)activityin vitro.Methods:First,the AFN was prepared using polylactic-co-glycolic acid(PLGA).Then,after verification of the AFN,in vitro anti-virus assays were conducted by:(1)assessing the inhibitory effect of AFN on the secretion of hepatitis B surface antigens(HBsAg),hepatitis B e-antigens(HBeAg),and the replication of HBV DNAin HepG2.2.15 cells;(2)analyzing the influence of AFN on the activation rate of NF-κB positive cells;and(3)evaluating the effect of AFN on the function of glutathione peroxidase(GSH-PX)enzymes located onthe HepG2.2.15 cell membrane.Results:Compared to the original total flavonoids extract of Artemisia rupestris L.(withoutnano-encapsulation),AFN preparation under the maximum nontoxic concentration effectively inhibited the secretion of HBsAg,HBeAg,and HBV DNA from HepG2.2.15 cells.At the same time,AFN preparation promoted not only the activation rate of NF-κB positive cells,but also antiviral GSH-PX enzyme function.In conclusion,nano-encapsulation of the flavonoids extract of Artemisia rupestris L.showed an enhanced anti-HBV effect in vitro compared to the original total flavonoids extract(without nanoencapsulation);therefore,nano-encapsulation has great potential for the development of a novel antiviral herbal medicine preparation with improved efficacy.
基金Supported by the State Key Basic Research and Development Plan of China (2006CB100202) and the National Natural Science Foundation of China (30170093).Acknowledgements The authors would like to thank Dr Gui-Sheng Li (Institute of Genetics and Developmental Biology, the Chinese Academy of Sciences) for his helping on the analysis of selection force Dr Shihua Shen (Institute of Botany, the Chinese Academy of Sciences) for providing background information of Taihangia, and Dr Chun-Ming Liu for critical reading.
文摘Studies In model plants showed that SEPALLATA (SEP) genes are required for the Identification of floral organs and the determination of floral meristems In Arabidopsis. In this paper a SEP homolog, TrSEP3, was Isolated from a China-specific species, Taihangla rupestrisi Yü et LI. Phylogenetlc analysis showed that the gene belongs to the SEP3-clade of SEP (previous AGL2) subfamily. In situ hybridization was used to reveal the potential functional specification, and the results showed that TrSEP3 expression was first observed in floral meristems and then confined to the floral primordla of the three inner whorls. In the matured flower, TrSEP3 was strongly expressed In the tips of pistils and weak In stamens and petals. The evolution force analysis shows that TrSEP3 might undergo a relaxed negative selection. These results suggested that TrSEP3 may not only function In determining the identity of floral merlstems and the primordia of three inner whorls, but also function In matured reproductive organs.
基金National Natural Science Foundation of China-NSFC-Xinjiang Joint Fund Project(No.U1303224)
文摘Objective To research the anti-influenza effect of active ingredients in Compound Yizhihao Granule (CYG). Methods The cytotoxicity and cytopathic effects (CPE) were observed under the phase-contrast microscope, besides 50% toxicity concentration (TC50) and 50% inhibitory concentration (IC50) were also calculated using Reed-Muench method, then the antiviral activity in vitro according to Selection Index (SI = TC50/IC50) was evaluated. In PR8 virus-infected mice, survival time, death rate, and lung index were observed in order to evaluate the protective effect. Besides, the effective ingredients were determined using HPLC method, and their contents were calculated by external standard method. Results CYG could inhibit the influenza virus-induced CPE, with ICso of 4.6 mg/mL (equal to herbal extracts 262.2 μg/mL), and no direct cytotoxic effect at this concentration. PR8-infected mice were ig given CYG, the lung index and mortality were significantly reduced, and survival time was obviously prolonged. HPLC analysis indicated CYG contained many kinds of antivirus active components, including rupestonic acid, epigoitrin, and adenosine. Conclusion CYG is an effective natural anti-influenza medicine, its antiviral effect should be the synergic effect of a variety of antiviral active ingredients.
