A pair of primers was designed according to the reported conserved sequence of the defective in anther dehiscencel (DAD1) gene ofArabidopsis thaliana and Brassica rapa. A 558 bp long fragment was amplified from geno...A pair of primers was designed according to the reported conserved sequence of the defective in anther dehiscencel (DAD1) gene ofArabidopsis thaliana and Brassica rapa. A 558 bp long fragment was amplified from genomic DNA of Chinese kale, showing more than 88% identity with the known DAD1 nucleotide sequence and no intron. The reverse of the amplified fragment was ligated to the downstream of the CaMV35S promoter in the plant expression vector pBIl21. Antisense expression vector pBII21-DAD1F was constructed with DAD1 fragment of Chinese kale, and was transferred into Agrobacterium tumefaciens, which will be used in the transformation to create male sterile materials of Chinese kale.展开更多
UGPase (UDP-glucose pyrophosphorylase), one of the primary enzymes concerned with carbohydrate metabolism, catalyzes the formation of UDPG. By inserting the UGPase cDNA fragment cloned from Saccharum officinarum int...UGPase (UDP-glucose pyrophosphorylase), one of the primary enzymes concerned with carbohydrate metabolism, catalyzes the formation of UDPG. By inserting the UGPase cDNA fragment cloned from Saccharum officinarum into PQE-30, the prokaryotic expression vector of PQE-UGP was successfully constructed. Then the vector plasmid of PQE-UGP was transformed into host bacteria M 15 and the expression of target gene was induced by Isopropyl β-D-1-Thiogalactopyranoside (IPTG). The research laid foundation for study on the prokaryotic expression of UGPase.展开更多
Microcarriers have a demonstrated value for biomedical applications,in particular for drug delivery and three-dimensional cell culture.Attempts to develop this technique tend to focus on the fabrication of functional ...Microcarriers have a demonstrated value for biomedical applications,in particular for drug delivery and three-dimensional cell culture.Attempts to develop this technique tend to focus on the fabrication of functional microparticles by using convenient methods with innovative but accessible materials.Inspired by the process of boiling eggs in everyday life,which causes the solidification of egg proteins,we present a new microfluidic‘‘cooking"approach for the generation of egg-derived microcarriers for cell culture and drug delivery.As the egg emulsion droplets are formed with exquisite precision during the microfluidic emulsification,the resultant egg microcarriers present highly monodisperse and uniform morphologies at the size range of hundred microns to one millimeter.Benefiting from the excellent biocompatibility of the egg protein components,the obtained microcarriers showed good performances of cell adherence and growth.In addition,after a freezing treatment,the egg microcarriers were shown to have interconnected porous structures throughout their whole sphere,could absorb and load different kinds of drugs or other active molecules,and work as microcarrier-based delivery systems.These features point to the potential value of the microfluidic egg microcarriers in biomedicine.展开更多
文摘A pair of primers was designed according to the reported conserved sequence of the defective in anther dehiscencel (DAD1) gene ofArabidopsis thaliana and Brassica rapa. A 558 bp long fragment was amplified from genomic DNA of Chinese kale, showing more than 88% identity with the known DAD1 nucleotide sequence and no intron. The reverse of the amplified fragment was ligated to the downstream of the CaMV35S promoter in the plant expression vector pBIl21. Antisense expression vector pBII21-DAD1F was constructed with DAD1 fragment of Chinese kale, and was transferred into Agrobacterium tumefaciens, which will be used in the transformation to create male sterile materials of Chinese kale.
文摘UGPase (UDP-glucose pyrophosphorylase), one of the primary enzymes concerned with carbohydrate metabolism, catalyzes the formation of UDPG. By inserting the UGPase cDNA fragment cloned from Saccharum officinarum into PQE-30, the prokaryotic expression vector of PQE-UGP was successfully constructed. Then the vector plasmid of PQE-UGP was transformed into host bacteria M 15 and the expression of target gene was induced by Isopropyl β-D-1-Thiogalactopyranoside (IPTG). The research laid foundation for study on the prokaryotic expression of UGPase.
基金supported by the National Natural Science Foundation of China (21473029, 51522302)the NSAF Foundation of China (U1530260)+2 种基金the Natural Science Foundation of Jiangsu Province (BK20140028)the Program for New Century Excellent Talents in Universitythe Scientific Research Foundation of Southeast University
文摘Microcarriers have a demonstrated value for biomedical applications,in particular for drug delivery and three-dimensional cell culture.Attempts to develop this technique tend to focus on the fabrication of functional microparticles by using convenient methods with innovative but accessible materials.Inspired by the process of boiling eggs in everyday life,which causes the solidification of egg proteins,we present a new microfluidic‘‘cooking"approach for the generation of egg-derived microcarriers for cell culture and drug delivery.As the egg emulsion droplets are formed with exquisite precision during the microfluidic emulsification,the resultant egg microcarriers present highly monodisperse and uniform morphologies at the size range of hundred microns to one millimeter.Benefiting from the excellent biocompatibility of the egg protein components,the obtained microcarriers showed good performances of cell adherence and growth.In addition,after a freezing treatment,the egg microcarriers were shown to have interconnected porous structures throughout their whole sphere,could absorb and load different kinds of drugs or other active molecules,and work as microcarrier-based delivery systems.These features point to the potential value of the microfluidic egg microcarriers in biomedicine.
