Genetic transformation is a useful technique to complement conventional breeding in crop improvement. Although carrot has been a model organism for in vitro embryogenesis study, genetic transformation of carrot is sti...Genetic transformation is a useful technique to complement conventional breeding in crop improvement. Although carrot has been a model organism for in vitro embryogenesis study, genetic transformation of carrot is still lengthy and labor intensive. An efficient transformation and detection system is desirable. Direct infection of Agrobacterium to carrot calli has provided an easy way for carrot genetic transformation. To improve the efficiency of antibiotic selection in this method, we report the combined use of an improved green-fluorescent protein, referred to as smGFP, to establish a versatile selection method for carrot callus transformation system. By combining antibiotic selection with the bright fluorescence observed in the callus tissue, we were able to easily identify stable transformants in early stage of the transformation process. In addition to the GFP expression of the callus cells, the transgenic nature of callus cells was confirmed with Southern and Western analysis. We found we can link the simplicity of carrot-callus-cell transformation, early detection of stable transformants with antibiotic selection, visualization of GFP fluorescence, and molecular analysis (Southern and Western) of callus tissue (non-photosynthetic tissue) to provide a more efficient way in identifying stable transformants at early stage of carrot transformation.展开更多
Objective:To assess the In vivo anlioxid Fanl and hepaloproleclive activity of metlianolic exlracl of Daucus carota(D.carota) seeds in experimental animals.Methods:Methanolic extracts of D.carota seeds is used for hep...Objective:To assess the In vivo anlioxid Fanl and hepaloproleclive activity of metlianolic exlracl of Daucus carota(D.carota) seeds in experimental animals.Methods:Methanolic extracts of D.carota seeds is used for hepatoproleclion assessment.Oxidative stress were induced in rats by thioacetamide 100 nig/kg s.c.in four groups of rats(two test,standard and toxic control). Two test groups received D.carota seeds extract[DCSE) at doses of 200 mg/kg and 400 mg/kg. Standard group received silymarin(25 mg/kg) and toxic control received only thioacetamide. Control group received only vehicle.On the 8th day animals were sacrificed and liver enzyme like serum glutamic pyruvic transaminase(SGPT),serum glutamic-oxaloacetic transaminase(SCOT) and alkaline phosphatase(ALP)were estimated in blood serum and antioxidant enzyme like superoxide disnuituse(SOD),cululase(CAT),glutathione reductase(CKD),glutathione peroxidase(GPX),glutalhione-S-transferase(GST)and lipid peroxidation(LPO)were estimated in liver homogcnatc.Results:A significant decrease in SGPT,SCOT and ALP levels was observed in all drug treated groups as compared to thioacetamide group(P<0.001) and in case of antioxidant enzyme a significant(P<0.001) increase in SOD.CAT,GRD,GPX and GST was observed in all dmg treated groups as compared with thioacetamide group.But in case of LPO a significant(P <0.001) reduction was observed as compared to toxic control group.Conclusions:DCSE has contributed lo the reduction of oxidative stress and the protection of liver in experimental rals.展开更多
The components of the essential oils obtained from different parts of Daucus carota L. var. sativa Hoffm were analyzed. The percentages of the essential oils extracted are 0.27%(mL/100 g material) for the flowers, 0.0...The components of the essential oils obtained from different parts of Daucus carota L. var. sativa Hoffm were analyzed. The percentages of the essential oils extracted are 0.27%(mL/100 g material) for the flowers, 0.07% for the stems and leaves and 0.01% for the roots. Fifty-four, Sixty-six and Thirty-three compounds were,respectively,separated and identified from the flowers, the stems and leaves and the roots, among which unsaturated alkene compounds are thirty-nine, thirty-nine and twenty-one, respectively, accounting in turn for up to 90.21%, 90.49% and 72.65% of the total essential oils. Because alkene compounds have double bonds that are easily oxidized, it can be inferred that the components of the essential oils in the different parts of Daucus carota L. var. sativa Hoffm should show an activity of the anti-formation of free radicals to some extent.展开更多
Asymmetric reduction of the heteroaryl prochiral ketones to corresponding chiral alcohols by Daucus carota was studied. The study highlights selective bioreduction of different substituted heteroaryl ketones (1a - 1j)...Asymmetric reduction of the heteroaryl prochiral ketones to corresponding chiral alcohols by Daucus carota was studied. The study highlights selective bioreduction of different substituted heteroaryl ketones (1a - 1j) to their respective chiral alcohols (2a - 2j) using plant dehydrogenase enzymes present in Daucus carota in good yields (60% - 95%) and enantioselectivity (76% - 99%) with S-form configuration. The results obtained confirm that the membrane bound dehydrogenase enzyme has broad substrate specificity and selectivity in catalyzing both six and five membered heteroaryl methyl ketones. The present methodology demonstrates promising and alternative green route in the synthesis secondary chiral alcohols of biologically importance in a simple, inexpensive and eco-friendly process.展开更多
Carrot is a root vegetable with carotenoids, flavonoids, polyacetylenes, vitamins, and minerals, all of which possess numerous nutritional and health benefits. Besides lending truth to the old adage that carrots are g...Carrot is a root vegetable with carotenoids, flavonoids, polyacetylenes, vitamins, and minerals, all of which possess numerous nutritional and health benefits. Besides lending truth to the old adage that carrots are good for eyes, carotenoids, polyphenols and vitamins present in carrot act as antioxidants, anticarcinogens, and immunoenhancers. Anti-diabetic, cholesterol and cardiovascular disease lowering, anti-hypertensive, hepatoprotective, renoprotective, and wound healing benefits of carrot have also been reported. The cardio- and hepatoprotective, anti-bacterial, anti-fungal, anti-inflammatory, and analgesic effects of carrot seed extracts are also noteworthy. All are discussed in this review article.展开更多
Carotenoids, a large class of yellow, orange and red pigments accumulate in the chloroplasts of leaves or in the chromoplasts of many flowers and fruits as well as carrot roots. In plants, carotenoids function as
Using modified cDNA RDA capitalizing on the high affinity of streptavidin for biotin and magnetic-absorption-based separation, we have obtained four bands of specifically expressed cDNA in the carrot somatic embryo de...Using modified cDNA RDA capitalizing on the high affinity of streptavidin for biotin and magnetic-absorption-based separation, we have obtained four bands of specifically expressed cDNA in the carrot somatic embryo deregulated for 12 h, which were designated as NR-1, NR-2, NR-3 and NR-4, respectively. As revealed by homology analysis of their DNA sequences after cloning them into pBS, remarkable homology was demonstrated in NR-2, NR-3 and NR-4 with the genes coding for LEA (late embryogenesis abundant protein), Dna J and xyloglucan endo-trans-glycosylase in plants. On the other hand, NR-1 showing no homology with any known sequence may have come from unknown genes. Using 32P-labeled NR-1 as probe, hybridization with cDNA fragment population has shown that we have actually cloned a new gene fragment related to radicle development. As shown by further Southern hybridization, these genes may be present in carrot genome in the form of single or low copies.展开更多
文摘Genetic transformation is a useful technique to complement conventional breeding in crop improvement. Although carrot has been a model organism for in vitro embryogenesis study, genetic transformation of carrot is still lengthy and labor intensive. An efficient transformation and detection system is desirable. Direct infection of Agrobacterium to carrot calli has provided an easy way for carrot genetic transformation. To improve the efficiency of antibiotic selection in this method, we report the combined use of an improved green-fluorescent protein, referred to as smGFP, to establish a versatile selection method for carrot callus transformation system. By combining antibiotic selection with the bright fluorescence observed in the callus tissue, we were able to easily identify stable transformants in early stage of the transformation process. In addition to the GFP expression of the callus cells, the transgenic nature of callus cells was confirmed with Southern and Western analysis. We found we can link the simplicity of carrot-callus-cell transformation, early detection of stable transformants with antibiotic selection, visualization of GFP fluorescence, and molecular analysis (Southern and Western) of callus tissue (non-photosynthetic tissue) to provide a more efficient way in identifying stable transformants at early stage of carrot transformation.
文摘Objective:To assess the In vivo anlioxid Fanl and hepaloproleclive activity of metlianolic exlracl of Daucus carota(D.carota) seeds in experimental animals.Methods:Methanolic extracts of D.carota seeds is used for hepatoproleclion assessment.Oxidative stress were induced in rats by thioacetamide 100 nig/kg s.c.in four groups of rats(two test,standard and toxic control). Two test groups received D.carota seeds extract[DCSE) at doses of 200 mg/kg and 400 mg/kg. Standard group received silymarin(25 mg/kg) and toxic control received only thioacetamide. Control group received only vehicle.On the 8th day animals were sacrificed and liver enzyme like serum glutamic pyruvic transaminase(SGPT),serum glutamic-oxaloacetic transaminase(SCOT) and alkaline phosphatase(ALP)were estimated in blood serum and antioxidant enzyme like superoxide disnuituse(SOD),cululase(CAT),glutathione reductase(CKD),glutathione peroxidase(GPX),glutalhione-S-transferase(GST)and lipid peroxidation(LPO)were estimated in liver homogcnatc.Results:A significant decrease in SGPT,SCOT and ALP levels was observed in all drug treated groups as compared to thioacetamide group(P<0.001) and in case of antioxidant enzyme a significant(P<0.001) increase in SOD.CAT,GRD,GPX and GST was observed in all dmg treated groups as compared with thioacetamide group.But in case of LPO a significant(P <0.001) reduction was observed as compared to toxic control group.Conclusions:DCSE has contributed lo the reduction of oxidative stress and the protection of liver in experimental rals.
文摘The components of the essential oils obtained from different parts of Daucus carota L. var. sativa Hoffm were analyzed. The percentages of the essential oils extracted are 0.27%(mL/100 g material) for the flowers, 0.07% for the stems and leaves and 0.01% for the roots. Fifty-four, Sixty-six and Thirty-three compounds were,respectively,separated and identified from the flowers, the stems and leaves and the roots, among which unsaturated alkene compounds are thirty-nine, thirty-nine and twenty-one, respectively, accounting in turn for up to 90.21%, 90.49% and 72.65% of the total essential oils. Because alkene compounds have double bonds that are easily oxidized, it can be inferred that the components of the essential oils in the different parts of Daucus carota L. var. sativa Hoffm should show an activity of the anti-formation of free radicals to some extent.
文摘Asymmetric reduction of the heteroaryl prochiral ketones to corresponding chiral alcohols by Daucus carota was studied. The study highlights selective bioreduction of different substituted heteroaryl ketones (1a - 1j) to their respective chiral alcohols (2a - 2j) using plant dehydrogenase enzymes present in Daucus carota in good yields (60% - 95%) and enantioselectivity (76% - 99%) with S-form configuration. The results obtained confirm that the membrane bound dehydrogenase enzyme has broad substrate specificity and selectivity in catalyzing both six and five membered heteroaryl methyl ketones. The present methodology demonstrates promising and alternative green route in the synthesis secondary chiral alcohols of biologically importance in a simple, inexpensive and eco-friendly process.
文摘Carrot is a root vegetable with carotenoids, flavonoids, polyacetylenes, vitamins, and minerals, all of which possess numerous nutritional and health benefits. Besides lending truth to the old adage that carrots are good for eyes, carotenoids, polyphenols and vitamins present in carrot act as antioxidants, anticarcinogens, and immunoenhancers. Anti-diabetic, cholesterol and cardiovascular disease lowering, anti-hypertensive, hepatoprotective, renoprotective, and wound healing benefits of carrot have also been reported. The cardio- and hepatoprotective, anti-bacterial, anti-fungal, anti-inflammatory, and analgesic effects of carrot seed extracts are also noteworthy. All are discussed in this review article.
基金grants from the National Natural Science Foundation of China (grant no. 30370123, 39970069) a Fok Ying Tung Education Foundation a Foundation from Science and Technology Agency of Jilin Province (grant no. 20050543).
文摘Carotenoids, a large class of yellow, orange and red pigments accumulate in the chloroplasts of leaves or in the chromoplasts of many flowers and fruits as well as carrot roots. In plants, carotenoids function as
文摘Using modified cDNA RDA capitalizing on the high affinity of streptavidin for biotin and magnetic-absorption-based separation, we have obtained four bands of specifically expressed cDNA in the carrot somatic embryo deregulated for 12 h, which were designated as NR-1, NR-2, NR-3 and NR-4, respectively. As revealed by homology analysis of their DNA sequences after cloning them into pBS, remarkable homology was demonstrated in NR-2, NR-3 and NR-4 with the genes coding for LEA (late embryogenesis abundant protein), Dna J and xyloglucan endo-trans-glycosylase in plants. On the other hand, NR-1 showing no homology with any known sequence may have come from unknown genes. Using 32P-labeled NR-1 as probe, hybridization with cDNA fragment population has shown that we have actually cloned a new gene fragment related to radicle development. As shown by further Southern hybridization, these genes may be present in carrot genome in the form of single or low copies.
