Abstract
High-energy ion beams are known to be an effective and unique type of physical mutagen in plants. However, no study on the mutagenic effect of argon (Ar) ion beam radiation on rice has been reported. Genome-wide studies on induced mutations are important to comprehend their characteristics for establishing knowledge-based protocols for mutation induction and breeding, which are still very limited in rice. The present study aimed to investigate the mutagenic effect of three ion beams, i.e., Ar, carbon (C) and neon (Ne) on rice and identify and characterize heritable induced mutations by the whole genome sequencing of six M4 plants. Dose-dependent damage effects were observed on M1 plants, which were developed from ion beam irradiated dry seeds of two indica (LH15, T23) and two japonica (DS551, DS48) rice lines. High frequencies of chlorophyll-deficient seedlings and male-sterile plants were observed in all M2 populations (up to ~30% on M1 plant basis); plants from the seeds of different panicles of a common M1 plant appeared to have different mutations; the whole genome-sequencing demonstrated that there were 236–453 mutations in each of the six M4 plants, including single base substitutions (SBSs) and small insertion/deletions (InDels), with the number of SBSs ~ 4–8 times greater than that of InDels; SBS and InDel mutations were distributed across different genomic regions of all 12 chromosomes, however, only a small number of mutations (0–6) were present in exonic regions that might have an impact on gene function. In summary, the present study demonstrates that Ar, C and Ne ion beam radiation are all effective for mutation induction in rice and has revealed at the genome level the characteristics of the mutations induced by the three ion beams. The findings are of importance to the efficient use of ion beam radiation for the generation and utilization of mutants in rice.
Highlights
Heavy ion beams are a new type of physical mutagen that is different from the traditionally used γ radiation in many aspects [1]
All three ion beams showed damage effects on M1 plants in a dose-dependent mode, with Ar being more effective than C and Ne ion beams
Among the three ion beams, Ar ion beams seemed much of radiation type and dose as well as genotype
Summary
Heavy ion beams are a new type of physical mutagen that is different from the traditionally used γ radiation in many aspects [1] They are featured with high LETs (linear energy transfer) and have been demonstrated to induce mutations at a higher frequency, with a wider spectrum and more efficiency [2]. Yamaguchi et al [3] first performed a comparative study on the mutagenic effects of helium (He) and carbon (C) ion beams (with LETs of 76 keV/μm and 220 keV/μm, respectively) with γ rays. They demonstrated that the efficiency of ion beams either equaled or exceeded that of γ rays and that the mutation rate of ion beams was higher than that of γ rays. Similar studies have been performed for physical mutagens, such as γ ray mutagenesis in rice [19,20] and poplar [21], fast neutron mutagenesis in Arabidopsis thaliana [22] and rice [23], and ion beams in Arabidopsis thaliana [24,25,26,27,28]
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