Generating homozygous mutant populations of barley microspores by ethyl methanesulfonate treatment

IF 4.6 4区 农林科学 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY aBIOTECH Pub Date : 2023-06-28 DOI:10.1007/s42994-023-00108-6
Linli Huang, Guangqi Gao, Congcong Jiang, Guimei Guo, Qiang He, Yingjie Zong, Chenghong Liu, Ping Yang
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Abstract

Induced mutations are important for genetic research and breeding. Mutations induced by physical or chemical mutagenesis are usually heterozygous during the early generations. However, mutations must be fixed prior to phenotyping or field trials, which requires additional rounds of self-pollination. Microspore culture is an effective method to produce double-haploid (DH) plants that are fixed homozygotes. In this study, we conducted ethyl methanesulfonate (EMS)-induced mutagenesis of microspore cultures of barley (Hordeum vulgare) cultivar ‘Hua30’ and landrace ‘HTX’. The EMS concentrations were negatively correlated with the efficiency of callus induction and the frequency of mutant plant regeneration. The two genotypes showed different regeneration efficiencies. The phenotypic variation of the regenerated M1 plants and the presence of genome-wide nucleotide mutations, revealed by whole-genome sequencing, highlight the utility of EMS-induced mutagenesis of isolated microspore cultures for developing DH mutants. Genome-wide analysis of the mutation frequency in the regenerated plants revealed that a considerable proportion of mutations resulted from microspore culture (somaclonal variation) rather than EMS-induced mutagenesis. In addition to producing a population of 1972 homozygous mutant lines that are available for future field trials, this study lays the foundation for optimizing the regeneration efficiency of DH plants and the richness of mutations (mainly by fine-tuning the mutagen dosage).

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甲基磺酸乙酯处理产生大麦小孢子纯合突变体群体
诱导突变对遗传研究和育种具有重要意义。由物理或化学诱变引起的突变在早期世代中通常是杂合的。然而,突变必须在表型或田间试验之前固定,这需要额外的自花授粉。小孢子培养是产生固定纯合子的双单倍体植株的有效方法。本研究对大麦(Hordeum vulgare)品种“花30”和地方品种“HTX”的小孢子培养物进行了甲基磺酸乙酯诱变。EMS浓度与愈伤组织诱导效率和突变体植株再生频率呈负相关。两个基因型表现出不同的再生效率。全基因组测序显示,再生M1植株的表型变异和全基因组核苷酸突变的存在,突出了ems诱导的分离小孢子培养物诱变用于产生DH突变体的实用性。对再生植株突变频率的全基因组分析表明,相当大比例的突变是由小孢子培养(体细胞无性系变异)引起的,而不是由ems诱导的突变。本研究除了产生1972个纯合突变系,可用于未来的田间试验外,还为优化DH植株的再生效率和突变丰富度(主要是通过微调诱变剂剂量)奠定了基础。
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CiteScore
7.70
自引率
2.80%
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0
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