Multiple omics datasets reveal significant physical and physiological dormancy in alfalfa hard seeds identified by multispectral imaging analysis

IF 6 1区 农林科学 Q1 AGRONOMY
Xuemeng Wang , Han Zhang , Rui Song, Ming Sun, Ping Liu, Peixin Tian, Peisheng Mao, Shangang Jia
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引用次数: 3

Abstract

Physical dormancy (PY) commonly present in the seeds of higher plants is believed to be responsible for the germination failure by impermeable seed coat in hard seeds of legume species, instead of physiological dormancy (PD). In this study, a non-destructive approach involving multispectral imaging was used to successfully identify hard seeds from non-hard seeds in Medicago sativa, with accuracy as high as 96.8%–99.0%. We further adopted multiple-omics strategies to investigate the differences of physiology, metabolomics, methylomics, and transcriptomics in alfalfa hard seeds, with non-hard seeds as control. The hard seeds showed dramatically increased antioxidants and 125 metabolites of significant differences in non-targeted metabolomics analysis, which are enriched in the biosynthesis pathways of flavonoids, lipids and hormones, especially with significantly higher ABA, a hormone known to induce dormancy. In our transcriptomics results, the enrichment pathway of “response to abscisic acid” of differential expressed genes (DEG) supported the key role of ABA in metabolomics results. The methylome analysis identified 54,899, 46,216 and 54,452 differential methylation regions for contexts of CpG, CHG and CHH, and 344 DEGs might be regulated by hypermethylation and hypomethylation of promoter and exon regions, including four ABA- and JA-responsive genes. Among 8% hard seeds in seed lots, 24.5% still did not germinate after scarifying seed coat, and were named as non-PY hard seeds. Compared to hard seeds, significantly higher contents of ABA/IAA and ABA/JA were identified in non-PY hard seeds, which indicated the potential presence of PD. In summary, the significantly changed metabolites, gene expressions, and methylations all suggested involvement of ABA responses in hard seeds, and germination failure of alfalfa hard seeds was caused by combinational dormancy (PY + PD), rather than PY alone.

多组学数据集揭示了通过多光谱成像分析鉴定的苜蓿硬种子的显著物理和生理休眠
高等植物种子中普遍存在的物理休眠(PY)被认为是豆科植物坚硬种子中不透水种皮导致发芽失败的原因,而不是生理休眠(PD)。本研究采用多光谱成像的无损检测方法,成功地从苜蓿的非硬质种子中识别出硬质种子,准确率高达96.8%-99.0%。我们进一步采用多种组学策略,以非硬质种子为对照,研究了苜蓿硬质种子的生理学、代谢组学、甲基组学和转录组学的差异。在非靶向代谢组学分析中,硬种子显示出显著增加的抗氧化剂和125种代谢产物具有显著差异,这些代谢产物在类黄酮、脂质和激素的生物合成途径中富集,尤其是在ABA显著升高的情况下,ABA是一种已知可诱导休眠的激素。在我们的转录组学结果中,差异表达基因(DEG)的“对脱落酸的反应”富集途径支持了ABA在代谢组学研究结果中的关键作用。甲基组分析确定了54899、46216和54452个CpG、CHG和CHH的差异甲基化区域,344个DEG可能受到启动子和外显子区域(包括四个ABA和JA反应基因)的高甲基化和低甲基化的调节。在种子批中8%的硬种子中,24.5%的种子在翻松种皮后仍未发芽,被命名为非PY硬种子。与硬种子相比,非PY硬种子中的ABA/IAA和ABA/JA含量显著较高,这表明PD的潜在存在。总之,代谢产物、基因表达和甲基化的显著变化都表明硬种子中存在ABA反应,苜蓿硬种子的发芽失败是由组合休眠(PY+PD)引起的,而不是仅PY。
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来源期刊
Crop Journal
Crop Journal Agricultural and Biological Sciences-Agronomy and Crop Science
CiteScore
9.90
自引率
3.00%
发文量
638
审稿时长
41 days
期刊介绍: The major aims of The Crop Journal are to report recent progresses in crop sciences including crop genetics, breeding, agronomy, crop physiology, germplasm resources, grain chemistry, grain storage and processing, crop management practices, crop biotechnology, and biomathematics. The regular columns of the journal are Original Research Articles, Reviews, and Research Notes. The strict peer-review procedure will guarantee the academic level and raise the reputation of the journal. The readership of the journal is for crop science researchers, students of agricultural colleges and universities, and persons with similar academic levels.
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