Key Laboratory of Molecular Epigenetics of the Ministry of Education (MOE), Northeast Normal University, Changchun, 130024, China.
Department of Genetics, Faculty of Agriculture, Minia University, Minia, Egypt.
Planta. 2024 Jun 4;260(1):17. doi: 10.1007/s00425-024-04450-x.
Wheat lines harboring wild-relative chromosomes can be karyotypically unstable during long-term maintenance. Tissue culture exacerbates chromosomal instability but appears inefficient to induce somatic homoeologous exchange between alien and wheat chromosomes. We assessed if long-term refrigerator storage with regular renewal via self-fertilization, a widely used practice for crop germplasm maintenance, would ensure genetic fidelity of alien addition lines, and explored the possibility of inducing somatic homoeologues exchange by tissue culture. We cytogenetically characterized sampled stock seeds of originally confirmed 12 distinct wheat-Thinopyrum intermedium alien addition lines (dubbed TAI lines), and subjected immature embryos of the TAI lines to tissue culture. We find eight of the 12 TAI lines were karyotypically departed from their original identity as bona fide disomic alien addition lines due to extensive loss of whole-chromosomes of both Th. intermedium and wheat origins during the ca. 3-decade storage. Rampant numerical chromosome variations (NCVs) involving both alien and wheat chromosomes were detected in regenerated plants of all 12 studied TAI lines, but at variable rates among the wheat sub-genomes and chromosomes. Compared with NCVs, structural chromosome variations (SCVs) occurred at substantially lower rates, and no SCV involving the added alien chromosomes was observed. The NCVs manifested only moderate effects on phenotypes of the regenerated plants under field conditions.
小麦携带野生亲缘染色体的系在长期维持过程中可能会出现染色体不稳定。组织培养会加剧染色体不稳定,但似乎无法有效地诱导外源和小麦染色体之间的体细胞同系交换。我们评估了长期冷藏保存(通过自交定期更新)是否能确保外源附加系的遗传保真度,同时探索了组织培养诱导体细胞同系交换的可能性。我们对最初确认的 12 个不同的小麦-中间偃麦草外源附加系(称为 TAI 系)的种子进行了细胞遗传学特征分析,并对 TAI 系的未成熟胚胎进行了组织培养。我们发现,由于在大约 30 年的储存过程中,来自中间偃麦草和小麦的整条染色体大量丢失,这 12 个 TAI 系中的 8 个系的染色体结构已偏离其作为真正二体外源附加系的原始身份。在所有 12 个研究的 TAI 系的再生植株中都检测到了涉及外源和小麦染色体的大量数值染色体变异(NCVs),但在小麦亚基因组和染色体之间的发生率不同。与 NCVs 相比,结构染色体变异(SCVs)的发生率要低得多,而且在外源附加染色体中没有观察到 SCV。NCVs 仅在田间条件下对再生植株的表型产生了适度的影响。
