A silicone oil emulsion with 60% of solid content was prepared with methyl silicone oil used as the main material by means of the emulsifier-in-oil method.The influence of emulsification conditions on the droplet diam...A silicone oil emulsion with 60% of solid content was prepared with methyl silicone oil used as the main material by means of the emulsifier-in-oil method.The influence of emulsification conditions on the droplet diameter of silicone oil emulsion was discussed.The experimental results showed that the emulsification method,including the quantity of the emulsifier,the time and temperature of emulsification,the emulsifying water dosage,and the stirring speed,had significant impact on the droplet size.The optimal conditions were identified to achieve a smallest droplet diameter of the emulsion at an emulsifier dosage of 6%,an emulsification temperature of 70 ℃,an emulsification time of 30 min,and a stirring speed of 1100 r/min,with water added in two portions at a ratio of 1:1.The high-solid content silicone oil emulsion with a mean droplet diameter of 2.731 μm was prepared under these conditions that could ensure absence of stratification and floating oil under centrifuging at a speed of 3000 r/min for 30 min.展开更多
As one of the 3 worldwide major grain crops, maize is the main source of food, feed and edible vegetable oil. High-oil maize has been selectively bred for many years due to its high oil content and nutritional quality...As one of the 3 worldwide major grain crops, maize is the main source of food, feed and edible vegetable oil. High-oil maize has been selectively bred for many years due to its high oil content and nutritional quality. However, compared with normal maize, the progress of high-oil maize breeding is hindered nowadays. Main problems are scarce of high-oil maize germplasm, conventional breeding methods, and slow genetic research progress on oil content and fatty acid composition. In this study, germplasm innovation and gene mining of high-oil maize were reviewed to provide theoretical reference for genetic breeding and utilization. Several high-oil basic populations have been developed after more than 100 years of selection, which have served as the unique resources for high-oil maize breeding. They have also been used to dissect genetic architecture of oil biosynthesis in maize kernel. Using linkage and association analyses, many QTLs and loci associated with oil content and fatty acid composition have been identified and mapped. In addition, some candidate genes for QTLs have been validated to regulate maize grain oil content and fatty acid composition. Prospect for high-oil maize was also discussed to provide knowledge about genetic mechanism of oil biosynthesis and improvement of kernel quality in maize.展开更多
During the past ten years we did and are doing 10 generations in suburbs of Beijing from 1991-2001. In the same time we are doing 10 generation of soybean breeding near Sanya on Hainan Island during the October to May...During the past ten years we did and are doing 10 generations in suburbs of Beijing from 1991-2001. In the same time we are doing 10 generation of soybean breeding near Sanya on Hainan Island during the October to May. We made cross 398 combinations and a lot of propagation of soybean elite. We select a best local popularized variey for cross with soybean variety with 1-2 best character for breeding, for example high yielding, high oil or high protein content, high resistance to nematode and others We made alternate breeding in North and on South. In the same time we test breeding materials in two conditions: soil with high fertility and low fertility. Finally, we released two soybean cultivars: Zhonghuang 12 and Zhonghuang 13,and two cultivars will released this year. We test more than 10 soybean lines in 15 provinces. We got a good line with high oil content and high protein content. And we developed several soybean lines resistant to soybean cyst nematode.展开更多
文摘A silicone oil emulsion with 60% of solid content was prepared with methyl silicone oil used as the main material by means of the emulsifier-in-oil method.The influence of emulsification conditions on the droplet diameter of silicone oil emulsion was discussed.The experimental results showed that the emulsification method,including the quantity of the emulsifier,the time and temperature of emulsification,the emulsifying water dosage,and the stirring speed,had significant impact on the droplet size.The optimal conditions were identified to achieve a smallest droplet diameter of the emulsion at an emulsifier dosage of 6%,an emulsification temperature of 70 ℃,an emulsification time of 30 min,and a stirring speed of 1100 r/min,with water added in two portions at a ratio of 1:1.The high-solid content silicone oil emulsion with a mean droplet diameter of 2.731 μm was prepared under these conditions that could ensure absence of stratification and floating oil under centrifuging at a speed of 3000 r/min for 30 min.
文摘As one of the 3 worldwide major grain crops, maize is the main source of food, feed and edible vegetable oil. High-oil maize has been selectively bred for many years due to its high oil content and nutritional quality. However, compared with normal maize, the progress of high-oil maize breeding is hindered nowadays. Main problems are scarce of high-oil maize germplasm, conventional breeding methods, and slow genetic research progress on oil content and fatty acid composition. In this study, germplasm innovation and gene mining of high-oil maize were reviewed to provide theoretical reference for genetic breeding and utilization. Several high-oil basic populations have been developed after more than 100 years of selection, which have served as the unique resources for high-oil maize breeding. They have also been used to dissect genetic architecture of oil biosynthesis in maize kernel. Using linkage and association analyses, many QTLs and loci associated with oil content and fatty acid composition have been identified and mapped. In addition, some candidate genes for QTLs have been validated to regulate maize grain oil content and fatty acid composition. Prospect for high-oil maize was also discussed to provide knowledge about genetic mechanism of oil biosynthesis and improvement of kernel quality in maize.
文摘During the past ten years we did and are doing 10 generations in suburbs of Beijing from 1991-2001. In the same time we are doing 10 generation of soybean breeding near Sanya on Hainan Island during the October to May. We made cross 398 combinations and a lot of propagation of soybean elite. We select a best local popularized variey for cross with soybean variety with 1-2 best character for breeding, for example high yielding, high oil or high protein content, high resistance to nematode and others We made alternate breeding in North and on South. In the same time we test breeding materials in two conditions: soil with high fertility and low fertility. Finally, we released two soybean cultivars: Zhonghuang 12 and Zhonghuang 13,and two cultivars will released this year. We test more than 10 soybean lines in 15 provinces. We got a good line with high oil content and high protein content. And we developed several soybean lines resistant to soybean cyst nematode.