The mutagenic effect of cold plasma on Medicago sativa L.

Abstract

To explore the feasibility of using cold plasma as a mutagenesis breeding technology for forage crops, in this study we used the Medicago sativa L. cultivar, Zhongcao No. 3, as the experimental material. The effects of plasma treatments on Medicago sativa L. were analyzed through the use of plasma and activated water. Treatments with plasma and activated water inhibited plant height but promoted root growth. By creating a closed environment, adding a dielectric barrier plate, and combining these two treatment methods, the greatest impact can be had on the growth of Medicago sativa L. seeds. After treatment, the plant heights were approximately half those of the control group, and the root lengths were approximately 1.6 times those of the control group. Through emission spectroscopy, it was found that active particles such as O, NO2, and N2* were present and could be considered to have produced plasma-activated water through contact with the water surface, thus affecting the survival and growth of the seeds. Whole-genome resequencing (WGRS) was performed on the wild-type and selected mutants after treatment, with an average sequencing depth of 115.93×, an average genome alignment rate of 91.72 %, and an average genome coverage rate of 91.85 %. Various types of mutations were detected and annotated. After filtering, 7,822,324 SNP (single nucleotide polymorphisms) sites, 2,161,917 indel sites, 200,544 SV sites, 238 CNV (copy number variation) sites. The SNPs, indels (insertions/deletions), and SVs (structural variations) were mainly heterozygous, with heterozygosity rates of 87.13 %, 92.16 %, and 83.49 %, respectively. The CNVs were dominated by low copy numbers, accounting for 53.77 %. These results indicate that plasma treatment has significant effects on plant growth and genome of Medicago sativa L.