Several organic acids accumulated in Kochia Scoparia shoots and roots were studied by means of reverse-phase high performance liquid chromatography with a C18 column. Five types of binary organic acids were separated....Several organic acids accumulated in Kochia Scoparia shoots and roots were studied by means of reverse-phase high performance liquid chromatography with a C18 column. Five types of binary organic acids were separated. The organic acid concentrations were determined in K. Scoparia seedlings stressed by saline (NaCI) and alkaline (NaHCO3) at the same Na^+ concentration. Concentrations of organic acids are stimulated by alkaline because the cells will adjust their pH values through the accumulation of organic acids, when the environment is basic. The concentrations of oxalic acid and succinic acid are higher than those of other organic acids, including tartaric acid and malic acid, and the concentration of citric acid is the lowest. The concentrations of the organic acids in the roots are higher than those in the shoots under salt(NaCI) stress, but the results are opposite while the roots are under alkali ( NaHCO3 ) stress. This indicates that there are different adaptive strategies for K. Scopar/a seedlings in organic acid metabolism under salt and alkali stress.展开更多
Kochia (Kochia scoparia L. Schrad.), also known as tumbleweed, is an economically important annual C4 broadleaf weed found throughout the US Great Plains. Several herbicides with different modes of action are used in ...Kochia (Kochia scoparia L. Schrad.), also known as tumbleweed, is an economically important annual C4 broadleaf weed found throughout the US Great Plains. Several herbicides with different modes of action are used in the management of kochia. The effect of commonly used herbicides on the expression of their target site(s) and photosynthetic/chloroplastic genes is poorly understood in weed species, including kochia. The objective of this research was to characterize the expression profiles of herbicide target-site genes, KspsbA, KsALS, and KsEPSPS upon treatment with PSII- (e.g. atrazine), ALS- (e.g. chlorsulfuron), and EPSPS- (e.g. glyphosate)-inhibitors, respectively, in kochia. Furthermore, the expression of genes involved in photosynthesis (e.g. KsRubisco, KsCAB, and KsPPDK) was also determined in response to these herbicide treatments. KspsbA was strongly upregulated (>200-fold) 24 h after atrazine treatment. Transcript levels of the KsALS or KsEPSPS genes were 7 and 3-fold higher 24 h after chlorsulfuron or glyphosate treatment, respectively. KsRubisco, a Calvin cycle gene important for CO2 fixation, was upregulated 7 and 2.6-fold 8 and 24 h after glyphosate and chlorsulfuron treatments, whereas it downregulated 8 and 24 h after atrazine treatment. The transcript levels of KsPPDK remained unchanged after glyphosate treatment but increased 1.8-fold and decreased 2-fold at 24 h after chlorsulfuron and atrazine treatments, respectively. KsCAB remained unchanged after chlorsulfuron treatment, but was downregulated after glyphosate and atrazine treatments. The results show that herbicide treatments not only affect the respective target-site gene expression, but also influence the genes involved in the critical photosynthetic pathway.展开更多
In order to examine the most appropriate collecting time, HPLC\|ELSD and colorimetric methods were respectively used to determine the content of momordin Ic and total saponins in \%Kochia scoparia \%(L.) Schrad. fruit...In order to examine the most appropriate collecting time, HPLC\|ELSD and colorimetric methods were respectively used to determine the content of momordin Ic and total saponins in \%Kochia scoparia \%(L.) Schrad. fruit at different collecting times. It was shown that the best collecting time was when fruit just matured.展开更多
文摘Several organic acids accumulated in Kochia Scoparia shoots and roots were studied by means of reverse-phase high performance liquid chromatography with a C18 column. Five types of binary organic acids were separated. The organic acid concentrations were determined in K. Scoparia seedlings stressed by saline (NaCI) and alkaline (NaHCO3) at the same Na^+ concentration. Concentrations of organic acids are stimulated by alkaline because the cells will adjust their pH values through the accumulation of organic acids, when the environment is basic. The concentrations of oxalic acid and succinic acid are higher than those of other organic acids, including tartaric acid and malic acid, and the concentration of citric acid is the lowest. The concentrations of the organic acids in the roots are higher than those in the shoots under salt(NaCI) stress, but the results are opposite while the roots are under alkali ( NaHCO3 ) stress. This indicates that there are different adaptive strategies for K. Scopar/a seedlings in organic acid metabolism under salt and alkali stress.
文摘Kochia (Kochia scoparia L. Schrad.), also known as tumbleweed, is an economically important annual C4 broadleaf weed found throughout the US Great Plains. Several herbicides with different modes of action are used in the management of kochia. The effect of commonly used herbicides on the expression of their target site(s) and photosynthetic/chloroplastic genes is poorly understood in weed species, including kochia. The objective of this research was to characterize the expression profiles of herbicide target-site genes, KspsbA, KsALS, and KsEPSPS upon treatment with PSII- (e.g. atrazine), ALS- (e.g. chlorsulfuron), and EPSPS- (e.g. glyphosate)-inhibitors, respectively, in kochia. Furthermore, the expression of genes involved in photosynthesis (e.g. KsRubisco, KsCAB, and KsPPDK) was also determined in response to these herbicide treatments. KspsbA was strongly upregulated (>200-fold) 24 h after atrazine treatment. Transcript levels of the KsALS or KsEPSPS genes were 7 and 3-fold higher 24 h after chlorsulfuron or glyphosate treatment, respectively. KsRubisco, a Calvin cycle gene important for CO2 fixation, was upregulated 7 and 2.6-fold 8 and 24 h after glyphosate and chlorsulfuron treatments, whereas it downregulated 8 and 24 h after atrazine treatment. The transcript levels of KsPPDK remained unchanged after glyphosate treatment but increased 1.8-fold and decreased 2-fold at 24 h after chlorsulfuron and atrazine treatments, respectively. KsCAB remained unchanged after chlorsulfuron treatment, but was downregulated after glyphosate and atrazine treatments. The results show that herbicide treatments not only affect the respective target-site gene expression, but also influence the genes involved in the critical photosynthetic pathway.
文摘In order to examine the most appropriate collecting time, HPLC\|ELSD and colorimetric methods were respectively used to determine the content of momordin Ic and total saponins in \%Kochia scoparia \%(L.) Schrad. fruit at different collecting times. It was shown that the best collecting time was when fruit just matured.