摘要
At present, transgenic plants are globally grown. Availability of a reliable regeneration system predominantly from a single transformed cell is the prerequisites for gene transfer, but regeneration is still a key
At present, transgenic plants are globally grown. Availability of a reliable regeneration system predominantly from a single transformed cell is the prerequisites for gene transfer, but regeneration is still a key problem (Wenzel, 2006). The application of genetic modification technology in plants is closely related to the efficiency of the regeneration protocol. Shoot formation is oilen enhanced by the combination of auxins and cytokinins. TDZ (Thidiazuron, N-phenyl-N'-1,2,3-thiodiazol-5-ylurea), a non-purine, has been shown to promote differentiation of organized centers of growth in cultured tissues at much lower concentrations, and shoot regeneration occurs with an efficiency comparable to or greater than that of other cytokinins (Fiola et al., 1990). By addition of TDZ, a series of plants which were difficult to culture in vitro or less sensitive to plants growth regulators obtained somatic embryos and regenerated plants, some of them have become the eminent transformation system for genetic engineering. TDZ has been reported to be very efficient in stimulating adventitious shoot production in several recalcitrant plants. TDZ is considered as a potential growth regulator for in vitro shoot regeneration and somatic embryogenesis of several crops. This review summarized how the new growth regulator TDZ to affect the regeneration of transgenic plants.
出处
《分子植物育种》
CAS
CSCD
2007年第2期289-290,共2页
Molecular Plant Breeding