[Objective] This study was conducted to obtain tetraploid Pteroceltis tatar# nowii Maxim. with excellent ornamental traits. [Method] The stem apex growing points of Pteroceltis tatarinowii Maxim. were treated with dif...[Objective] This study was conducted to obtain tetraploid Pteroceltis tatar# nowii Maxim. with excellent ornamental traits. [Method] The stem apex growing points of Pteroceltis tatarinowii Maxim. were treated with different concentrations of colchicine solution for different hours to figure out a proper method and obtain poly- ploids. [Result] The most effective induction was obtained by treatment with 0.6%- 0.8% colchicine for 72 h with 34.2% mutation rate. Flow cytometry and chromosome observation of the stem apex growing point of P. tatarinowii Maxim. proved that the tetraploid plants were successfully obtained with chromosome number 2n=4x=36. [Conclusion] The result not only fills the blank of polyploid breeding of P. tatarinowii, but also provides an effective way to broaden the methods of cultivation of fast- growing, high-quality, disease-resilience, new varieties of Pteroceltis.展开更多
Aquaculture is one of the fastest developing agricultural industries worldwide.One of the most important factors for sustainable aquaculture is the development of high performing culture strains.Genome manipulation of...Aquaculture is one of the fastest developing agricultural industries worldwide.One of the most important factors for sustainable aquaculture is the development of high performing culture strains.Genome manipulation offers a powerful method to achieve rapid and directional breeding in fish.We review the history of fish breeding methods based on classical genome manipulation,including polyploidy breeding and nuclear transfer.Then,we discuss the advances and applications of fish directional breeding based on transgenic technology and recently developed genome editing technologies.These methods offer increased efficiency,precision and predictability in genetic improvement over traditional methods.展开更多
基金Supported by Agricultural Seed Breeding Program of Shandong Province in 2014([2014]96)
文摘[Objective] This study was conducted to obtain tetraploid Pteroceltis tatar# nowii Maxim. with excellent ornamental traits. [Method] The stem apex growing points of Pteroceltis tatarinowii Maxim. were treated with different concentrations of colchicine solution for different hours to figure out a proper method and obtain poly- ploids. [Result] The most effective induction was obtained by treatment with 0.6%- 0.8% colchicine for 72 h with 34.2% mutation rate. Flow cytometry and chromosome observation of the stem apex growing point of P. tatarinowii Maxim. proved that the tetraploid plants were successfully obtained with chromosome number 2n=4x=36. [Conclusion] The result not only fills the blank of polyploid breeding of P. tatarinowii, but also provides an effective way to broaden the methods of cultivation of fast- growing, high-quality, disease-resilience, new varieties of Pteroceltis.
基金supported by the National Basic Research Program of China(2010CB126306,2012CB944504)the National Science Fund for Excellent Young Scholars of the National Natural Science Foundation of China(31222052)+1 种基金the Chinese Academy of Sciences Grant KSCX2-EW-N-004-4the State Key Laboratory of Freshwater Ecology and Biotechnology grant 2011FBZ23
文摘Aquaculture is one of the fastest developing agricultural industries worldwide.One of the most important factors for sustainable aquaculture is the development of high performing culture strains.Genome manipulation offers a powerful method to achieve rapid and directional breeding in fish.We review the history of fish breeding methods based on classical genome manipulation,including polyploidy breeding and nuclear transfer.Then,we discuss the advances and applications of fish directional breeding based on transgenic technology and recently developed genome editing technologies.These methods offer increased efficiency,precision and predictability in genetic improvement over traditional methods.
