Ana P. Lando, Daniela Goeten, W. G. Viana, Yohan Fritsche, Miguel P. Guerra, N. Steiner
{"title":"Cell division and dynamics in global DNA methylation associated with radicle protrusion in Trichocline catharinensis seeds (Asteraceae)","authors":"Ana P. Lando, Daniela Goeten, W. G. Viana, Yohan Fritsche, Miguel P. Guerra, N. Steiner","doi":"10.1007/s11738-024-03663-7","DOIUrl":null,"url":null,"abstract":"<div><p>Considering that Asteraceae is an important plant family, we have identified a valuable opportunity to study seed germination a wild species of this family, <i>Trichocline catharinensis</i>. Seed germination involves many factors for a transition from low-energy metabolism to a growing seedling. Our understanding of changes of DNA methylation, chromatin structure, and cell cycle activity prior to root protrusion are more limited. Our study allows observed these changes, in the three stages of germination, when it is the promoted by gibberellic acid (GA), or fluridone (FLU) inhibitor of ABA synthesis, or when the process is not succeeded by paclobutrazol (PAC) inhibitor of GA synthesis. Ultrastructural analysis showed cell vacuolization in the hypocotyl-radicle axis by the transformation of protein storage vacuoles to vacuoles, which occurred prior to the initiation of cell elongation. Compacted chromatin in electron-dense regions (heterochromatin) was observed in the mature seeds, becoming loosened during germination in regions of euchromatin. It was identified cells with replicated 4C DNA content (G2 phase of cell cycle) before radicle protrusion, when the reduction of global DNA methylation (GDM) occurs, and DNA replication is possibly initiated. These observations suggest, cell division activation has been to precede radicle protrusion, initiated between phases I and II. When germination is inhibited by PAC, the levels of GDM decreased dramatically in phase III. The results provide information which are necessary for agronomically important practices, such as seed priming. Furthermore, raise to a biological groundwork for future studies looking for use and conservation of biodiversity.</p></div>","PeriodicalId":2,"journal":{"name":"ACS Applied Bio Materials","volume":null,"pages":null},"PeriodicalIF":4.6000,"publicationDate":"2024-02-27","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"ACS Applied Bio Materials","FirstCategoryId":"99","ListUrlMain":"https://link.springer.com/article/10.1007/s11738-024-03663-7","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q2","JCRName":"MATERIALS SCIENCE, BIOMATERIALS","Score":null,"Total":0}
引用次数: 0
Abstract
Considering that Asteraceae is an important plant family, we have identified a valuable opportunity to study seed germination a wild species of this family, Trichocline catharinensis. Seed germination involves many factors for a transition from low-energy metabolism to a growing seedling. Our understanding of changes of DNA methylation, chromatin structure, and cell cycle activity prior to root protrusion are more limited. Our study allows observed these changes, in the three stages of germination, when it is the promoted by gibberellic acid (GA), or fluridone (FLU) inhibitor of ABA synthesis, or when the process is not succeeded by paclobutrazol (PAC) inhibitor of GA synthesis. Ultrastructural analysis showed cell vacuolization in the hypocotyl-radicle axis by the transformation of protein storage vacuoles to vacuoles, which occurred prior to the initiation of cell elongation. Compacted chromatin in electron-dense regions (heterochromatin) was observed in the mature seeds, becoming loosened during germination in regions of euchromatin. It was identified cells with replicated 4C DNA content (G2 phase of cell cycle) before radicle protrusion, when the reduction of global DNA methylation (GDM) occurs, and DNA replication is possibly initiated. These observations suggest, cell division activation has been to precede radicle protrusion, initiated between phases I and II. When germination is inhibited by PAC, the levels of GDM decreased dramatically in phase III. The results provide information which are necessary for agronomically important practices, such as seed priming. Furthermore, raise to a biological groundwork for future studies looking for use and conservation of biodiversity.
与 Trichocline catharinensis 种子(菊科)胚根突起相关的细胞分裂和全局 DNA 甲基化的动态变化
考虑到菊科是一个重要的植物科,我们发现了一个研究该科野生物种 Trichocline catharinensis 种子萌发的宝贵机会。种子萌发涉及从低能量代谢向幼苗生长过渡的许多因素。我们对根突起前的 DNA 甲基化、染色质结构和细胞周期活动的变化了解较为有限。我们的研究观察到,在赤霉素(GA)或抑制 ABA 合成的氟利酮(FLU)的促进下,或在没有使用抑制 GA 合成的吡唑醚菌酯(PAC)的情况下,萌芽的三个阶段都发生了这些变化。超微结构分析表明,在细胞伸长开始之前,下胚轴-胚珠轴上的细胞空泡化由蛋白质储存空泡转变为空泡。在成熟种子中观察到电子致密区(异染色质)的染色质压缩,在萌发过程中,这些染色质在超染色质区变得松散。在胚根突起之前,发现了具有复制的 4C DNA 含量(细胞周期的 G2 阶段)的细胞,此时全局 DNA 甲基化(GDM)减少,DNA 复制可能开始。这些观察结果表明,细胞分裂的激活一直在胚根突起之前,在 I 期和 II 期之间启动。当 PAC 抑制萌芽时,GDM 水平在第三阶段急剧下降。这些结果提供了重要的农艺实践所需的信息,如种子预处理。此外,还为今后利用和保护生物多样性的研究奠定了生物学基础。