Abstract
The main constraints of current hybrid rice technology using male sterility (MS) are the low yield and high labor costs of hybrid rice seed (HRS) production. Therefore, there is an urgent need for innovative new hybrid rice technology. Fortunately, we discovered a unique spontaneous sporophytic female-sterile rice mutant controlled by a single recessive locus in the nucleus. Because female-sterile mutant lines cannot produce any selfed-seeds but their pollen has totally normal functions, female sterility (FS) lines may be considered ideal pollen donors to replace the female-fertile pollen donor parent lines currently used in the HRS production. In this study, a genetically engineered FS-based system was constructed to propagate a pure transgene-free FS line using a bentazon herbicide screening. Additionally, the ability of the FS + MS (FM)-line system, with mixed plantings of FS and MS lines, to produce HRS was tested. The pilot field experiment results showed that HRS of the FM-line system was more efficient compared with the conventional FS to MS strip planting control mode. Thus, this study provides new insights into genetic engineering technology and a promising strategy for the utilization of FS in hybrid rice.
Highlights
Rice (Oryza sativa L.) is an important staple food for more than one-half of the world’s population (Rao et al, 2018)
These 10 plants were assessed by polymerase chain reactions (PCR) using specific Hygromycin resistance gene (HygR) primers, and a PCR band of the expected 450 bp was observed in all the T0 plant samples (Figure 1C)
The FS + MS (FM)-line system is superior to the traditional hybrid rice seed (HRS) production method and other biotechnology-based systems in several aspects
Summary
Rice (Oryza sativa L.) is an important staple food for more than one-half of the world’s population (Rao et al, 2018). A third-generation hybrid rice system has succeeded in propagating and utilizing recessive nuclear MS lines using a transgenic construct-driven nongenetically modified (GM) system called seed production technology (Chang et al, 2016; Wu et al, 2016; Basnet et al, 2019). Such a genetically engineered MS system has the ability to propagate nontransgenic MS seeds for hybrid rice seed (HRS) production and to overcome the intrinsic problems
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