DREB(dehydration responsive element binding)转录因子通过调控下游多个抗逆相关基因的表达,能有效提高植物的抗逆性。将构建的植物高效表达载体GmDREB::pCAMBIA1304,借助优化的floral-dip法,转入模式植物拟南芥,并经潮霉素Hygromycin...DREB(dehydration responsive element binding)转录因子通过调控下游多个抗逆相关基因的表达,能有效提高植物的抗逆性。将构建的植物高效表达载体GmDREB::pCAMBIA1304,借助优化的floral-dip法,转入模式植物拟南芥,并经潮霉素Hygromycine(40~50mg.L-1)抗性筛选得到22棵抗性植株。对抗性植株再进行PCR和GUS检测获得19颗阳性苗,阳性率为86.3%。对T1代种子进行抗性分离比例统计,有4个株系的分离比例接近3:1,符合孟德尔遗传定律,说明外源基因GmDREB在这些株系的染色体中可能是单拷贝插入。继续对上述4个株系的后代进行抗性筛选,现已得到2个纯合的转基因株系。导入的报告基因GUS组织染色检测表明,转入大豆DREB基因在拟南芥的根系和子叶中均有大量表达,并在叶脉中表达。展开更多
[ Objective] This study is aimed to transform gus gene into Chinese cabbage (Brassica rapa pekinensis) by floral-dip method. [ Method] The Chinese cabbage was transformed by floral-dip method for the first time. The...[ Objective] This study is aimed to transform gus gene into Chinese cabbage (Brassica rapa pekinensis) by floral-dip method. [ Method] The Chinese cabbage was transformed by floral-dip method for the first time. Then the cabbage seeds were harvested and screened by hygromycin, and the plants with resistance were confirmed by histochemical GUS assay and PCR detection. [ Result] The target gene was successfully integrated into the Chinese cabbage genome, and the transformation rate was 0.1%. [ Conclusion ] This study optimized the genetic transformation system for Chinese cabbage, and laid the foundation for improving the means of genetic transformation of Chinese cabbage.展开更多
Many researchers have developed various methods for in-planta or floral dip transformation of Arabidopsis thaliana, one of the simple protocol and widely used to produce transgenic Arabidopsis. As the efficiency and e...Many researchers have developed various methods for in-planta or floral dip transformation of Arabidopsis thaliana, one of the simple protocol and widely used to produce transgenic Arabidopsis. As the efficiency and ease of getting a transformant is very much time consuming effort and less number of the transformants people get, we have developed a little modified transformation protocol to avoid the disparities. Four types of inoculums (inoculum1, inoculum2, inoculum3 and inoculum4) were used to check the transformation efficiency out of which Inoculum3 showed the highest rate of transformation among the four types. 0.07% Twin-20 also acts in same manner as silwet L-77 to increase the rate of transformation efficiency and glucose instead of sucrose can be used in inoculum to transform Arabidopsis. After vacuum infiltration keeping the Agrobacterium infected plants for 7-8 hrs horizontally in low light at 280C temperature condition, considered best to get an increased number of transformed seeds. Modified protocol produced ~12-14% increase in transformants. Selection pots (kanamycin supplemented soil filled pots) in place of selection plates (Kanamycin supplemented Murashige and Skoog agar plates) proved beneficial as no MS medium and no aseptic condition is required for selection of transformed plants. This increase in transformation efficiency consequently increased the percentage of homozygous and single copied stable transgenic lines.展开更多
The 08 Al steel sheets were hot dip ped into Zn - Mn bath with 0 1 % Mn and 0 2 % Mn at600 ~420 ℃ bath tem perature , and then w ere treated in different w ays . The after - treat ments include cooling in t...The 08 Al steel sheets were hot dip ped into Zn - Mn bath with 0 1 % Mn and 0 2 % Mn at600 ~420 ℃ bath tem perature , and then w ere treated in different w ays . The after - treat ments include cooling in the air at room tem perature directly , holding at the upper part of thehot dip galvanizing furnace for 60 s an d then holding at 510 ±10 ℃for 90 s . The results in dicated that blue , yellow , and purple , w hose coloration varied with the co m position an d thetem perature of bath and the w ays of after - treat ment . Finally , the mechanism of coloredzinc coating w as discussed .展开更多
The floral-dip transformation, the simplest technique, is no requirement of tissue culture procedure, and can directly transfer the interest gene into plant reproductive cells. It has been successfully applied to vari...The floral-dip transformation, the simplest technique, is no requirement of tissue culture procedure, and can directly transfer the interest gene into plant reproductive cells. It has been successfully applied to various plant species. In this study, the optimal conditions of a floral-dip method for production of transgenic rice variety RD41 were explored. The simple and effective inoculation medium was composed of Murashige and Skoog(MS) medium, 5% sucrose, 44 nmol/L benzylaminopurine, and 0.075% surfactant Tween-20 with pH 5.7. The transformation efficiencies of Agrobacterium tumefaciens strains AGL1 and EHA105 were compared with the Agrobacterium density at OD_(600) = 0.8–1.0 and the co-cultivation at 25 ℃ for 48 h. A. tumefaciens strain EHA105 gave slightly higher transformation efficiency than AGL1, with statistically non-significant difference. The floral-drop transformation using the optimal floral-dip conditions showed higher transformation efficiency than the floral-dip method, but the dropped flowers turned brown and died within 2 d. Production of transgenic rice variety RD41 by the floral-dip method was achieved using A. tumefaciens strain EHA105 with the optimal conditions. Screening for the gus A gene by PCR using the gus A specific primers in the T_0 lines, there were 4 transgenic lines from 286 T_0 lines(1.4% transformation efficiency). However, histochemical glucuronidase(GUS) assay demonstrated that only three of four transgenic lines exhibited gus A expression. These results indicated that floral-dip transformation is a potential tool for production of the transgenic rice, which can be used for molecular breeding via genetic engineering in the future.展开更多
Agrobacterium-mediated transformation through floral dip and rapid selection process after transgenic event had become a preference as it will overcome the difficulties faced in tissue culturing procedures and lengthy...Agrobacterium-mediated transformation through floral dip and rapid selection process after transgenic event had become a preference as it will overcome the difficulties faced in tissue culturing procedures and lengthy time for screening transformed progenies. Therefore, in this study, three constructs, p5b5 (14,289 bp), p5d9 (15,330 bp) and p5f7 (15,380 bp) in pDRB6b vector which has hygromycin as a selectable marker gene were introduced individually into Agrobacterium tumefaciens strain (AGL1). The cell suspension was applied to Amaranthus inflorescence by drop-by-drop technique and was left to produce seeds (T1). The T1 seeds were germinated and grown to produce seedlings under non-sterile condition. Hygromycin selection on seedling cotyledon leaves results in identification of 12 putative transformants, three from p5b5, four from p5d9 and five from p5f7. All positive putative transformants that were selected at the first stage through hygromycin spraying showed positive result in leaf disk hygromycin assay and in a construct specific polymerase chain reaction-based assay. A ~750 bp amplified hygromycin gene was further verified through sequencing. Our results suggest that Amaranthus inflorescences were able to be transformed and the transformed progenies could be verified through a combination of simple and rapid methods .展开更多
文摘DREB(dehydration responsive element binding)转录因子通过调控下游多个抗逆相关基因的表达,能有效提高植物的抗逆性。将构建的植物高效表达载体GmDREB::pCAMBIA1304,借助优化的floral-dip法,转入模式植物拟南芥,并经潮霉素Hygromycine(40~50mg.L-1)抗性筛选得到22棵抗性植株。对抗性植株再进行PCR和GUS检测获得19颗阳性苗,阳性率为86.3%。对T1代种子进行抗性分离比例统计,有4个株系的分离比例接近3:1,符合孟德尔遗传定律,说明外源基因GmDREB在这些株系的染色体中可能是单拷贝插入。继续对上述4个株系的后代进行抗性筛选,现已得到2个纯合的转基因株系。导入的报告基因GUS组织染色检测表明,转入大豆DREB基因在拟南芥的根系和子叶中均有大量表达,并在叶脉中表达。
基金Supported by Natural Science Foundation of Liaoning Province (901113)a Horizontal Project of Hangzhou Academy of Agricultural Sciences
文摘[ Objective] This study is aimed to transform gus gene into Chinese cabbage (Brassica rapa pekinensis) by floral-dip method. [ Method] The Chinese cabbage was transformed by floral-dip method for the first time. Then the cabbage seeds were harvested and screened by hygromycin, and the plants with resistance were confirmed by histochemical GUS assay and PCR detection. [ Result] The target gene was successfully integrated into the Chinese cabbage genome, and the transformation rate was 0.1%. [ Conclusion ] This study optimized the genetic transformation system for Chinese cabbage, and laid the foundation for improving the means of genetic transformation of Chinese cabbage.
文摘Many researchers have developed various methods for in-planta or floral dip transformation of Arabidopsis thaliana, one of the simple protocol and widely used to produce transgenic Arabidopsis. As the efficiency and ease of getting a transformant is very much time consuming effort and less number of the transformants people get, we have developed a little modified transformation protocol to avoid the disparities. Four types of inoculums (inoculum1, inoculum2, inoculum3 and inoculum4) were used to check the transformation efficiency out of which Inoculum3 showed the highest rate of transformation among the four types. 0.07% Twin-20 also acts in same manner as silwet L-77 to increase the rate of transformation efficiency and glucose instead of sucrose can be used in inoculum to transform Arabidopsis. After vacuum infiltration keeping the Agrobacterium infected plants for 7-8 hrs horizontally in low light at 280C temperature condition, considered best to get an increased number of transformed seeds. Modified protocol produced ~12-14% increase in transformants. Selection pots (kanamycin supplemented soil filled pots) in place of selection plates (Kanamycin supplemented Murashige and Skoog agar plates) proved beneficial as no MS medium and no aseptic condition is required for selection of transformed plants. This increase in transformation efficiency consequently increased the percentage of homozygous and single copied stable transgenic lines.
文摘The 08 Al steel sheets were hot dip ped into Zn - Mn bath with 0 1 % Mn and 0 2 % Mn at600 ~420 ℃ bath tem perature , and then w ere treated in different w ays . The after - treat ments include cooling in the air at room tem perature directly , holding at the upper part of thehot dip galvanizing furnace for 60 s an d then holding at 510 ±10 ℃for 90 s . The results in dicated that blue , yellow , and purple , w hose coloration varied with the co m position an d thetem perature of bath and the w ays of after - treat ment . Finally , the mechanism of coloredzinc coating w as discussed .
基金supported by the research grant (Grant No.R2556B036) from Naresuan University, Thailand
文摘The floral-dip transformation, the simplest technique, is no requirement of tissue culture procedure, and can directly transfer the interest gene into plant reproductive cells. It has been successfully applied to various plant species. In this study, the optimal conditions of a floral-dip method for production of transgenic rice variety RD41 were explored. The simple and effective inoculation medium was composed of Murashige and Skoog(MS) medium, 5% sucrose, 44 nmol/L benzylaminopurine, and 0.075% surfactant Tween-20 with pH 5.7. The transformation efficiencies of Agrobacterium tumefaciens strains AGL1 and EHA105 were compared with the Agrobacterium density at OD_(600) = 0.8–1.0 and the co-cultivation at 25 ℃ for 48 h. A. tumefaciens strain EHA105 gave slightly higher transformation efficiency than AGL1, with statistically non-significant difference. The floral-drop transformation using the optimal floral-dip conditions showed higher transformation efficiency than the floral-dip method, but the dropped flowers turned brown and died within 2 d. Production of transgenic rice variety RD41 by the floral-dip method was achieved using A. tumefaciens strain EHA105 with the optimal conditions. Screening for the gus A gene by PCR using the gus A specific primers in the T_0 lines, there were 4 transgenic lines from 286 T_0 lines(1.4% transformation efficiency). However, histochemical glucuronidase(GUS) assay demonstrated that only three of four transgenic lines exhibited gus A expression. These results indicated that floral-dip transformation is a potential tool for production of the transgenic rice, which can be used for molecular breeding via genetic engineering in the future.
文摘Agrobacterium-mediated transformation through floral dip and rapid selection process after transgenic event had become a preference as it will overcome the difficulties faced in tissue culturing procedures and lengthy time for screening transformed progenies. Therefore, in this study, three constructs, p5b5 (14,289 bp), p5d9 (15,330 bp) and p5f7 (15,380 bp) in pDRB6b vector which has hygromycin as a selectable marker gene were introduced individually into Agrobacterium tumefaciens strain (AGL1). The cell suspension was applied to Amaranthus inflorescence by drop-by-drop technique and was left to produce seeds (T1). The T1 seeds were germinated and grown to produce seedlings under non-sterile condition. Hygromycin selection on seedling cotyledon leaves results in identification of 12 putative transformants, three from p5b5, four from p5d9 and five from p5f7. All positive putative transformants that were selected at the first stage through hygromycin spraying showed positive result in leaf disk hygromycin assay and in a construct specific polymerase chain reaction-based assay. A ~750 bp amplified hygromycin gene was further verified through sequencing. Our results suggest that Amaranthus inflorescences were able to be transformed and the transformed progenies could be verified through a combination of simple and rapid methods .
