To estimate genetic variation in rhizome lotus (Nelumbo nucifera Gaertn. ssp. nucifera) germplasms in China, a total of 94 rhizome lotus germplasms collected from 18 provinces in China were assessed. The RAPD (rand...To estimate genetic variation in rhizome lotus (Nelumbo nucifera Gaertn. ssp. nucifera) germplasms in China, a total of 94 rhizome lotus germplasms collected from 18 provinces in China were assessed. The RAPD (randomly amplified polymorphic DNA) marker was employed. The selected 17 random primers detected 139 polymorphic alleles out of a total 207 (67.15%). Nei's gene diversity statistics and region differentiation parameters indicated that all germplasms had a relatively high level of genetic diversity with ne = 1.3202, h = 0.1937, I= 0.2982 and the gene flow among all regions was Nrn = 5.5742. The UPGMA dendrogram clustered all 94 germplasms into two clusters: One contained eight commercial cultivars and major landraces, and the other included the wild and some special landraces from five regions, and the PCA analysis exhibited the similar result. Those germplasms from southwestern and eastern China had higher genetic diversity than those from the southern, northern and central China. Predominant proportion of genetic variation (95.61%) was found significant within rather than among (4.39%) regions, as revealed by AMOVA analysis. The data analysis also revealed that the genetic diversity of rhizome lotus germplasms among different regions is positively related to their geographic distances, though it is ambiguous to find the trend from the UPGMA dendrogram and the PCA analysis. A relatively high genetic diversity and gene flow resided in the root lotus germplasms; about 96% of the variation was found within region; accessions from southwest and eastern China have higher genetic diversity than those from the southern, northern and central China.展开更多
Diversity and regeneration of woody species were investigated in two ecological niches viz. gap and intact vegetation in old-growth seasonally dry Shorea robusta (Gaertn. f.) forests in Nepal. We also related variet...Diversity and regeneration of woody species were investigated in two ecological niches viz. gap and intact vegetation in old-growth seasonally dry Shorea robusta (Gaertn. f.) forests in Nepal. We also related varieties of diversity measures and regeneration at- tributes to gap characteristics. Stem density of tree and shrub components is higher in the gap than in the intact vegetation. Seedling densities of S. robusta and Terminalia alata (B. Heyne ex Roth.) are higher in the gap than in the intact vegetation, while contrary result is observed for T. bellirica (Gaertn. ex Roxb.) and Syzigium cumini (L. Skeels) in term of seedling density. The complement of Simpson index, Evenness index, and species-individual ratio in the seedling layer are lower in the gap than the intact vegetation. Gap size can explain species richness and species establishment rate. Gaps created by multiple tree falls in different years have higher seedling density of S. robusta than gaps created by single and/or multiple tree falls in the same year. In conclusion, gaps maintain species diversity by increasing seedling density, and favor regeneration of Sal forests. In addition to gap size, other gap attributes also affect species diversity and regeneration.展开更多
Two new epimeric pairs of iridoid scyphiphin A1 (la), A2 (lb) and scyphiphin B 1 (2a), B2 (2b) were isolated from Scyphiphora hydrophyllacea Gaertn. F. Their structures were elucidated by spectroscopic methods...Two new epimeric pairs of iridoid scyphiphin A1 (la), A2 (lb) and scyphiphin B 1 (2a), B2 (2b) were isolated from Scyphiphora hydrophyllacea Gaertn. F. Their structures were elucidated by spectroscopic methods. The mixture of scyphiphin B 1 and scyphiphin B2 showed moderate cytotoxicity against human hepatoma SMMC-7721 cell line in vitro by MTT method.展开更多
In order to study the structure of lotus (Nelumbo nucifera Gaertn) seed oligosaccharides and their effect on the proliferation ofBifidobacterium adolescentis, we extracted the oligosaccharides from seeds collected f...In order to study the structure of lotus (Nelumbo nucifera Gaertn) seed oligosaccharides and their effect on the proliferation ofBifidobacterium adolescentis, we extracted the oligosaccharides from seeds collected from Jianning County, China. We preliminarily characterized the groups, molecular weights, molecular formulae, component monosaccharides and glycosidic bonds using mass spectrometry (MS) and nuclear magnetic resonance (NMR) after isolation and purification. The lotus seed oligosaccharides contained glycosidic bonds Manp-(1→), Galp-(1→), α(1→6)-Glup and α(1→6)-Manp; and mannose was the chief component monosaccharide. NMR analyses showed that ~t-glycosidic bonds and pyranoid rings were predominant in the oligosaccharides. The MS analyses showed that lotus seed oligosaccharides consisted of three oligosaccharides of different polymerization degree, with relative molecular weights of 342, 504 and 666 Da, and corresponding molecular formulae C12H22O11, C18H32O16 and C24H42O21. Research on the effect of lotus seed oligosaccharides on the proliferation orB. adolescentis showed that they effectively promoted the production of acetic, propionic and butyric acids by B. adolescentis through fermentation, and their effect was stronger than that of fructo-, xylo- and isomalto-oligosaccharides. Lotus seed oligosaccharides have potential as a new functional probiotic and lotus seeds should be further explored and utilized as a source of oligosaccharides.展开更多
A manganese superoxide dismutase (Mn-SOD) gene, NnMSD1, was identified from embryonic axes of the sacred lotus (Nelumbo nucifera Gaertn.). The NnMSD1 protein contains all conserved residues of the Mn-SOD protein f...A manganese superoxide dismutase (Mn-SOD) gene, NnMSD1, was identified from embryonic axes of the sacred lotus (Nelumbo nucifera Gaertn.). The NnMSD1 protein contains all conserved residues of the Mn-SOD protein family, including four consensus metal binding domains and a signal peptide for mitochondrial targeting. Southern blot analysis suggests the existence of two Mn.SOD genes in sacred lotus. NnMSD1 was highly expressed in developing embryonic axes during seed development, but appeared in cotyledons only at the early stage of development and became undetectable in the cotyledons during late embryogenesis. The expression of the NnMSD1 gene in germinating embryonic axes, in response to various stresses such as heat shock, chilling, and exposure to stress-related chemicals, was also studied. Heat shock strongly inhibited the expression of the NnMSD1 gene, whereas the NnMSD1 transcript level increased strongly in chilling stress treatment. An increase in expression was also highly induced by H2O2 in germinating embryonic axes. The results suggest that the expression pattern of the NnMSD1 gene differed between developing axes and cotyledons, and that the NnMSD1 gene expression responds strongly to chilling and oxidative stress.展开更多
Objective:To increase biomass and saponin production in hairy root culture of Talinum paniculatum Gaertn.(T.paniculatum)in balloon-type bubble bioreactor(BTBB).Methods:Hairy roots which were collected from leaf explan...Objective:To increase biomass and saponin production in hairy root culture of Talinum paniculatum Gaertn.(T.paniculatum)in balloon-type bubble bioreactor(BTBB).Methods:Hairy roots which were collected from leaf explants of T.paniculatum were infected by Agrobacterium rhizogenes strain LB510.The hairy roots were cultivated at400 m L Murashige and Skoog liquid medium without growth regulator(MS0)in1 000 m L BTBB.Each BTBB had 2 g hairy roots as initial inoculum and these cultures were treated with various concentrations of sucrose(3%,4%,5%,6%w/v)and potassium nitrate(0.5,1.0,1.5 and 2.0 strength of MS medium).Cultures were maintained for 14days.Fresh and dry weights of hairy roots at the end of culture were investigated.Results:Various concentrations of sucrose influenced the biomass accumulation of hairy roots.Maximum biomass was reached by MS medium supplemented with 6%sucrose and it was approximately threefold higher than control.Culture supplemented with potassium nitrate at 2.0 strength of MS0 could increase biomass accumulation of hairy roots until 0.14 g dry weight and it was almost threefold higher than control.However,the maximum saponin content was obtained by MS medium supplemented with 5%sucrose and 2.0 strength potassium nitrate of MS.Conclusions:Based on this research,those conditions can be used to produce biomass and saponin of hairy root of T.paniculatum in the large scale.展开更多
Visnagin is a furanochromone and one of the most important compound in the Ammi visnaga(L.)Lam(a synonym of Visnaga daucoides Gaertn.)plant,which is used to cure various ailments.Many investigations into the bioactive...Visnagin is a furanochromone and one of the most important compound in the Ammi visnaga(L.)Lam(a synonym of Visnaga daucoides Gaertn.)plant,which is used to cure various ailments.Many investigations into the bioactive properties of visnagin have been studied to date.The literature on visnagin demonstrates its biological properties,including anti-inflammatory,anti-diabetic,and beneficial effects in cardiovascular and renal diseases.Moreover,visnagin improves sperm quality parameters,stimulates steroidogenesis,and increases serum gonadotropins and testosterone levels,while decreasing proinflammatory cytokines,oxidative damage,genomic instability,and it modulates apoptosis.Thus,visnagin has emerged as an exciting lead for further research,owing to its potential in various unmet clinical needs.The current review summarized its basic structure,pharmacokinetics,and pharmacological effects,focusing on its mechanisms of action.The review will help to understand the potential of visnagin as an alternative treatment strategy for several diseases and provide insight into research topics that need further exploration for visnagin’s safe clinical use.展开更多
文摘To estimate genetic variation in rhizome lotus (Nelumbo nucifera Gaertn. ssp. nucifera) germplasms in China, a total of 94 rhizome lotus germplasms collected from 18 provinces in China were assessed. The RAPD (randomly amplified polymorphic DNA) marker was employed. The selected 17 random primers detected 139 polymorphic alleles out of a total 207 (67.15%). Nei's gene diversity statistics and region differentiation parameters indicated that all germplasms had a relatively high level of genetic diversity with ne = 1.3202, h = 0.1937, I= 0.2982 and the gene flow among all regions was Nrn = 5.5742. The UPGMA dendrogram clustered all 94 germplasms into two clusters: One contained eight commercial cultivars and major landraces, and the other included the wild and some special landraces from five regions, and the PCA analysis exhibited the similar result. Those germplasms from southwestern and eastern China had higher genetic diversity than those from the southern, northern and central China. Predominant proportion of genetic variation (95.61%) was found significant within rather than among (4.39%) regions, as revealed by AMOVA analysis. The data analysis also revealed that the genetic diversity of rhizome lotus germplasms among different regions is positively related to their geographic distances, though it is ambiguous to find the trend from the UPGMA dendrogram and the PCA analysis. A relatively high genetic diversity and gene flow resided in the root lotus germplasms; about 96% of the variation was found within region; accessions from southwest and eastern China have higher genetic diversity than those from the southern, northern and central China.
基金supported by Swedish International Development Cooperation Agency (SIDA)
文摘Diversity and regeneration of woody species were investigated in two ecological niches viz. gap and intact vegetation in old-growth seasonally dry Shorea robusta (Gaertn. f.) forests in Nepal. We also related varieties of diversity measures and regeneration at- tributes to gap characteristics. Stem density of tree and shrub components is higher in the gap than in the intact vegetation. Seedling densities of S. robusta and Terminalia alata (B. Heyne ex Roth.) are higher in the gap than in the intact vegetation, while contrary result is observed for T. bellirica (Gaertn. ex Roxb.) and Syzigium cumini (L. Skeels) in term of seedling density. The complement of Simpson index, Evenness index, and species-individual ratio in the seedling layer are lower in the gap than the intact vegetation. Gap size can explain species richness and species establishment rate. Gaps created by multiple tree falls in different years have higher seedling density of S. robusta than gaps created by single and/or multiple tree falls in the same year. In conclusion, gaps maintain species diversity by increasing seedling density, and favor regeneration of Sal forests. In addition to gap size, other gap attributes also affect species diversity and regeneration.
文摘Two new epimeric pairs of iridoid scyphiphin A1 (la), A2 (lb) and scyphiphin B 1 (2a), B2 (2b) were isolated from Scyphiphora hydrophyllacea Gaertn. F. Their structures were elucidated by spectroscopic methods. The mixture of scyphiphin B 1 and scyphiphin B2 showed moderate cytotoxicity against human hepatoma SMMC-7721 cell line in vitro by MTT method.
基金Supported by the Natural Science Foundation of Fujian Province(No.2011J05123)Scientific and Technological Innovation Team Support Plan of Institution of Higher Learning in Fujian Province([2012]03)the Scientific and Technological Innovation Team Support Plan of Fujian Agriculture and Forestry University(cxtd12009)
文摘In order to study the structure of lotus (Nelumbo nucifera Gaertn) seed oligosaccharides and their effect on the proliferation ofBifidobacterium adolescentis, we extracted the oligosaccharides from seeds collected from Jianning County, China. We preliminarily characterized the groups, molecular weights, molecular formulae, component monosaccharides and glycosidic bonds using mass spectrometry (MS) and nuclear magnetic resonance (NMR) after isolation and purification. The lotus seed oligosaccharides contained glycosidic bonds Manp-(1→), Galp-(1→), α(1→6)-Glup and α(1→6)-Manp; and mannose was the chief component monosaccharide. NMR analyses showed that ~t-glycosidic bonds and pyranoid rings were predominant in the oligosaccharides. The MS analyses showed that lotus seed oligosaccharides consisted of three oligosaccharides of different polymerization degree, with relative molecular weights of 342, 504 and 666 Da, and corresponding molecular formulae C12H22O11, C18H32O16 and C24H42O21. Research on the effect of lotus seed oligosaccharides on the proliferation orB. adolescentis showed that they effectively promoted the production of acetic, propionic and butyric acids by B. adolescentis through fermentation, and their effect was stronger than that of fructo-, xylo- and isomalto-oligosaccharides. Lotus seed oligosaccharides have potential as a new functional probiotic and lotus seeds should be further explored and utilized as a source of oligosaccharides.
基金Supported by the National Natural Science Foundation of China (30370912)the Natural Science Foundation of Guangdong Province (04009773 and 2006B20101010).
文摘A manganese superoxide dismutase (Mn-SOD) gene, NnMSD1, was identified from embryonic axes of the sacred lotus (Nelumbo nucifera Gaertn.). The NnMSD1 protein contains all conserved residues of the Mn-SOD protein family, including four consensus metal binding domains and a signal peptide for mitochondrial targeting. Southern blot analysis suggests the existence of two Mn.SOD genes in sacred lotus. NnMSD1 was highly expressed in developing embryonic axes during seed development, but appeared in cotyledons only at the early stage of development and became undetectable in the cotyledons during late embryogenesis. The expression of the NnMSD1 gene in germinating embryonic axes, in response to various stresses such as heat shock, chilling, and exposure to stress-related chemicals, was also studied. Heat shock strongly inhibited the expression of the NnMSD1 gene, whereas the NnMSD1 transcript level increased strongly in chilling stress treatment. An increase in expression was also highly induced by H2O2 in germinating embryonic axes. The results suggest that the expression pattern of the NnMSD1 gene differed between developing axes and cotyledons, and that the NnMSD1 gene expression responds strongly to chilling and oxidative stress.
基金Supported by Grant from Universitas Airlangga,Surabaya,Indonesia with Grant No.8714/UN3/KR/2013
文摘Objective:To increase biomass and saponin production in hairy root culture of Talinum paniculatum Gaertn.(T.paniculatum)in balloon-type bubble bioreactor(BTBB).Methods:Hairy roots which were collected from leaf explants of T.paniculatum were infected by Agrobacterium rhizogenes strain LB510.The hairy roots were cultivated at400 m L Murashige and Skoog liquid medium without growth regulator(MS0)in1 000 m L BTBB.Each BTBB had 2 g hairy roots as initial inoculum and these cultures were treated with various concentrations of sucrose(3%,4%,5%,6%w/v)and potassium nitrate(0.5,1.0,1.5 and 2.0 strength of MS medium).Cultures were maintained for 14days.Fresh and dry weights of hairy roots at the end of culture were investigated.Results:Various concentrations of sucrose influenced the biomass accumulation of hairy roots.Maximum biomass was reached by MS medium supplemented with 6%sucrose and it was approximately threefold higher than control.Culture supplemented with potassium nitrate at 2.0 strength of MS0 could increase biomass accumulation of hairy roots until 0.14 g dry weight and it was almost threefold higher than control.However,the maximum saponin content was obtained by MS medium supplemented with 5%sucrose and 2.0 strength potassium nitrate of MS.Conclusions:Based on this research,those conditions can be used to produce biomass and saponin of hairy root of T.paniculatum in the large scale.
文摘Visnagin is a furanochromone and one of the most important compound in the Ammi visnaga(L.)Lam(a synonym of Visnaga daucoides Gaertn.)plant,which is used to cure various ailments.Many investigations into the bioactive properties of visnagin have been studied to date.The literature on visnagin demonstrates its biological properties,including anti-inflammatory,anti-diabetic,and beneficial effects in cardiovascular and renal diseases.Moreover,visnagin improves sperm quality parameters,stimulates steroidogenesis,and increases serum gonadotropins and testosterone levels,while decreasing proinflammatory cytokines,oxidative damage,genomic instability,and it modulates apoptosis.Thus,visnagin has emerged as an exciting lead for further research,owing to its potential in various unmet clinical needs.The current review summarized its basic structure,pharmacokinetics,and pharmacological effects,focusing on its mechanisms of action.The review will help to understand the potential of visnagin as an alternative treatment strategy for several diseases and provide insight into research topics that need further exploration for visnagin’s safe clinical use.
