Lanthanum chloride can promote expression efficiency of rscu-PA-32k gene in yeast. 2 and 5 mmol·L -1 LaCl 3 increase the activities of the expression product by 13% and 20% (from 14.6 to 16.5 and 17.5 U·...Lanthanum chloride can promote expression efficiency of rscu-PA-32k gene in yeast. 2 and 5 mmol·L -1 LaCl 3 increase the activities of the expression product by 13% and 20% (from 14.6 to 16.5 and 17.5 U·ml -1). Cerium chloride can decrease the activity of expression product. 2 and 5 mmol·L -1 CeCl 3 decreases the activities of the expression product by 21% and 33% (from 14.6 to 11.5 and 9.8 U·ml -1).展开更多
A convergent strategy to the key allylic silyl ether precursor 4 in our synthetic efforts toward morphinan alkaloid is presented. The vital step is the selective 1,2-addition of the organocerium agent of 6 to ketene 5.
Mg-8Li-3Al+xCe alloys(x = 0.5wt%, 1.0wt%, and 1.5wt%) were prepared through a casting route in an electric resistance furnace under a controlled atmosphere. The cast alloys were characterized by X-ray diffraction, ...Mg-8Li-3Al+xCe alloys(x = 0.5wt%, 1.0wt%, and 1.5wt%) were prepared through a casting route in an electric resistance furnace under a controlled atmosphere. The cast alloys were characterized by X-ray diffraction, optical microscopy, scanning electron microscopy, and energy-dispersive X-ray spectroscopy. The corrosion behavior of the as-cast Mg-8Li-3Al+xCe alloys were studied under salt spray tests in 3.5wt% NaC l solution at 35°C, in accordance with standard ASTM B-117, in conjunction with potentiodynamic polarization(PDP) tests. The results show that the addition of Ce to Mg-8Li-3Al(LA83) alloy results in the formation of Al_2Ce intermetallic phase, refines both the α-Mg phase and the Mg_(17)Al_(12) intermetallic phase, and then increases the microhardness of the alloys. The results of PDP and salt spray tests reveal that an increase in Ce content to 1.5wt% decreases the corrosion rate. The best corrosion resistance is observed for the LA83 alloy sample with 1.0wt% Ce.展开更多
A simple and direct method has been developed for synthesis of nitriles based on one-pot reaction of aromatic aldehydes with three different kind of reagents: CeCl3.7H20/KI/H2O2, CeCl3.7H2O/KI/UHP and (NH4)2Ce(NO3...A simple and direct method has been developed for synthesis of nitriles based on one-pot reaction of aromatic aldehydes with three different kind of reagents: CeCl3.7H20/KI/H2O2, CeCl3.7H2O/KI/UHP and (NH4)2Ce(NO3)6/KI/H2O2 in aqueous ammonia.展开更多
La3+ and Ce3+ have positive effects on plant growth and production. Although it is well known that rare earth elements promote cell growth. The biological effects of La^(3+) and Ce^(3+) on callus, shoot and ro...La3+ and Ce3+ have positive effects on plant growth and production. Although it is well known that rare earth elements promote cell growth. The biological effects of La^(3+) and Ce^(3+) on callus, shoot and root induction in tobacco are still unclear. The relationships among callus induction, rooting, enzyme activities and stomatal characteristics in tobacco are unknown. The objectives of this study were to identify the relationships between the induction of calluses, shoots, roots, stomata and enzyme activities. The induction percentages of calluses, buds, roots were recorded at 5,10,15, 20 and 25 days after La^(3+) and Ce^(3+) treatments. Peroxidase isoenzyme activity was determined by electrophoresis. The characteristics of the stomata were observed under an optical microscope. Our results show that low concentrations of Ce^(3+)(〈15 mg/L) result in increases in the induction percentages of calluses,buds and roots, but La^(3+)(〉5 mg/L) inhibits the induction of calluses, buds and roots. There are more peroxidase isoenzyme bands in Ce^(3+) treatments than in La^(3+) treatments. This is consistent with the induction percentages of calluses,buds and roots in Ce^(3+) and La^(3+) treatments. High enzyme activities may promote the induction of calluses, buds and roots. The stomata area and stomata number of leaves are significantly different between La^(3+) treatments and Ce^(3+) treatments. La^(3+) improves the stomata area and number. Based on these results, we speculate that La^(3+) may promote the development of the photosynthetic system. Ce^(3+)may promote tobacco growth and rooting by improving enzyme activities.展开更多
文摘Lanthanum chloride can promote expression efficiency of rscu-PA-32k gene in yeast. 2 and 5 mmol·L -1 LaCl 3 increase the activities of the expression product by 13% and 20% (from 14.6 to 16.5 and 17.5 U·ml -1). Cerium chloride can decrease the activity of expression product. 2 and 5 mmol·L -1 CeCl 3 decreases the activities of the expression product by 21% and 33% (from 14.6 to 11.5 and 9.8 U·ml -1).
基金the financial support of the NNSFC(No.30271488,20021001,and 203900501).
文摘A convergent strategy to the key allylic silyl ether precursor 4 in our synthetic efforts toward morphinan alkaloid is presented. The vital step is the selective 1,2-addition of the organocerium agent of 6 to ketene 5.
文摘Mg-8Li-3Al+xCe alloys(x = 0.5wt%, 1.0wt%, and 1.5wt%) were prepared through a casting route in an electric resistance furnace under a controlled atmosphere. The cast alloys were characterized by X-ray diffraction, optical microscopy, scanning electron microscopy, and energy-dispersive X-ray spectroscopy. The corrosion behavior of the as-cast Mg-8Li-3Al+xCe alloys were studied under salt spray tests in 3.5wt% NaC l solution at 35°C, in accordance with standard ASTM B-117, in conjunction with potentiodynamic polarization(PDP) tests. The results show that the addition of Ce to Mg-8Li-3Al(LA83) alloy results in the formation of Al_2Ce intermetallic phase, refines both the α-Mg phase and the Mg_(17)Al_(12) intermetallic phase, and then increases the microhardness of the alloys. The results of PDP and salt spray tests reveal that an increase in Ce content to 1.5wt% decreases the corrosion rate. The best corrosion resistance is observed for the LA83 alloy sample with 1.0wt% Ce.
基金Bu-Ali Sina University Research Council(No.32-1716) for financial support of this work
文摘A simple and direct method has been developed for synthesis of nitriles based on one-pot reaction of aromatic aldehydes with three different kind of reagents: CeCl3.7H20/KI/H2O2, CeCl3.7H2O/KI/UHP and (NH4)2Ce(NO3)6/KI/H2O2 in aqueous ammonia.
基金Project supported by the Provincial Key Laboratory of Agrobiology(49114042016Z06)Jiangsu Academy of Agricultural Sciences and the Natural Science Foundation of Jiangsu Province of China(BK20161375)
文摘La3+ and Ce3+ have positive effects on plant growth and production. Although it is well known that rare earth elements promote cell growth. The biological effects of La^(3+) and Ce^(3+) on callus, shoot and root induction in tobacco are still unclear. The relationships among callus induction, rooting, enzyme activities and stomatal characteristics in tobacco are unknown. The objectives of this study were to identify the relationships between the induction of calluses, shoots, roots, stomata and enzyme activities. The induction percentages of calluses, buds, roots were recorded at 5,10,15, 20 and 25 days after La^(3+) and Ce^(3+) treatments. Peroxidase isoenzyme activity was determined by electrophoresis. The characteristics of the stomata were observed under an optical microscope. Our results show that low concentrations of Ce^(3+)(〈15 mg/L) result in increases in the induction percentages of calluses,buds and roots, but La^(3+)(〉5 mg/L) inhibits the induction of calluses, buds and roots. There are more peroxidase isoenzyme bands in Ce^(3+) treatments than in La^(3+) treatments. This is consistent with the induction percentages of calluses,buds and roots in Ce^(3+) and La^(3+) treatments. High enzyme activities may promote the induction of calluses, buds and roots. The stomata area and stomata number of leaves are significantly different between La^(3+) treatments and Ce^(3+) treatments. La^(3+) improves the stomata area and number. Based on these results, we speculate that La^(3+) may promote the development of the photosynthetic system. Ce^(3+)may promote tobacco growth and rooting by improving enzyme activities.
