摘要
In this paper, several factors that affect the efficiency of in vitro adventitious bud regeneration and Agrobacterium tumefaciens-mediated transformation of F. vesca were studied. The results showed that F. vesca seeds germination rate was the highest while seeds were cultured in water, and the germination rate was the lowest while seeds were cultured on MS medium supplemented with hormone; the germination rates that seeds cultured on two and three layers filter paper were higher than that seeds cultured on four and five layers filter paper. In vitro adventitious regeneration efficiency was affected by different explants types. The significant difference was existed between petioles and leaves. When using the same type explants, in vitro adventitious buds regeneration rate and the average number of buds per explant between Ruegen (RE) and Yellow Wonder (YW) had no significant difference. RE to Agrobacterium tumefaciens was more sensitive than YW. Using seedling leaves of RE and YW as materials, an efficient Agrobacterium-mediated transformation system was developed. In this system, the concentration of bacteria was OD600=0.5, the explants were immersed in bacteria broth for 9 min, the co-cultured time was 2 days, and had no pre-cultured time. The percentage of explants with resistant buds of RE and YW was compared. The putative transformed plants were confirmed by PCR.
In this paper, several factors that affect the efficiency of in vitro adventitious bud regeneration and Agrobacterium tumefaciens-mediated transformation of F. vesca were studied. The results showed that F. vesca seeds germination rate was the highest while seeds were cultured in water, and the germination rate was the lowest while seeds were cultured on MS medium supplemented with hormone; the germination rates that seeds cultured on two and three layers filter paper were higher than that seeds cultured on four and five layers filter paper. In vitro adventitious regeneration efficiency was affected by different explants types. The significant difference was existed between petioles and leaves. When using the same type explants, in vitro adventitious buds regeneration rate and the average number of buds per explant between Ruegen (RE) and Yellow Wonder (YW) had no significant difference. RE to Agrobacterium tumefaciens was more sensitive than YW. Using seedling leaves of RE and YW as materials, an efficient Agrobacterium-mediated transformation system was developed. In this system, the concentration of bacteria was OD600=0.5, the explants were immersed in bacteria broth for 9 min, the co-cultured time was 2 days, and had no pre-cultured time. The percentage of explants with resistant buds of RE and YW was compared. The putative transformed plants were confirmed by PCR.
基金
Supported by the Scientific Research fund of the Guangxi Zhuang Autonomous Region(GXNYRKS201601)
