Osmotic priming-induced cryotolerance uncovers rejuvenation of grapevine cell cultures: morphogenetic changes and gene expression pattern highlighting enhanced embryogenic potential.

IF 2.5 3区 生物学 Q3 CELL BIOLOGY Protoplasma Pub Date : 2024-11-01 Epub Date: 2024-07-09 DOI:10.1007/s00709-024-01968-5
Anis Ben-Amar, Dorsaf Allel, Badra Bouamama-Gzara
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Abstract

Cryopreservation is a reliable technique for the long-term storage and preservation of embryogenic cells, maintaining their viability without loss of their embryogenic capacity. However, the large-scale conservation of grapevine embryogenic lines in cryobanks remains limited. A significant challenge is understanding somatic cell rejuvenation. Here, we investigate the encapsulation/dehydration and encapsulation/vitrification for cryopreserving embryogenic material. Cell rejuvenation and enhanced embryogenic competence were observed after cryopreservation, as evidenced through structural cellular changes observed by histology and electron scanning microscopy. Results showed that cryopreserved samples of 110-Richter, Riesling, and Tempranillo using encapsulation/dehydration had better survival rates, averaging 81%, 62%, and 48%, respectively, while encapsulation/vitrification yielded lower survival rates, averaging 58%, 42%, and 32%, respectively. Cryopreservation also improved post-thaw recovery and regeneration efficiency assessed through regrowth of proembryogenic masses and somatic embryo conversion reaching 54-72% against 11-17% in control samples. Cryopreservation triggered changes in gene expression patterns and exhibited considerable increase at genotype-specific basis of 1.5- to 4.5-fold in SERK1, BBM, and WOX associated to embryogenic competence as well as in ChitIV and LEA involved in stress response. Membrane stability index, hydrogen peroxide, and proline contents were used as indicators of oxidative stress uncovering a key role of an osmotic trans-priming effect leading to cryotolerance. Our finding highlighted that cryopreservation enhances embryogenic capacity in senescent callus and probably acts as a screening process allowing safe maintenance of proembryogenic cells and promoting their recovery. This study provides a high throughput innovation to set up cryolines for cell rejuvenation of grapevine and other important plant species.

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渗透引物诱导的低温耐受性揭示了葡萄细胞培养物的返老还童:形态发生变化和基因表达模式突显了胚胎生成潜力的增强。
低温保存是一种长期储存和保存胚胎细胞的可靠技术,既能保持其活力,又不会丧失其胚胎生成能力。然而,在低温库中大规模保存葡萄胚胎系的工作仍然有限。一个重大挑战是如何理解体细胞的再生。在此,我们研究了冷冻保存胚胎材料的封装/脱水和封装/玻璃化方法。通过组织学和电子扫描显微镜观察细胞结构变化,可以观察到冷冻保存后细胞年轻化和胚胎生成能力增强。结果表明,采用封装/脱水技术冷冻保存的 110-Richter、雷司令和丹魄样品存活率较高,平均存活率分别为 81%、62% 和 48%,而封装/玻璃化技术的存活率较低,平均存活率分别为 58%、42% 和 32%。冷冻保存还提高了解冻后的恢复和再生效率,通过原胚胎块的再生和体细胞胚胎的转化来评估,解冻后的恢复和再生效率达到 54-72% ,而对照样本只有 11-17%。低温保存引发了基因表达模式的变化,与胚胎形成能力相关的 SERK1、BBM 和 WOX 以及参与应激反应的 ChitIV 和 LEA 的基因表达量在基因型特异性的基础上显著增加了 1.5-4.5 倍。膜稳定性指数、过氧化氢和脯氨酸含量被用作氧化应激的指标,这揭示了渗透性转促效应在导致低温耐受性方面的关键作用。我们的发现突出表明,低温保存可提高衰老胼胝体的胚胎形成能力,并可能作为一种筛选过程,安全地维持原胚细胞并促进其恢复。这项研究提供了一种高通量的创新方法,可用于建立葡萄树和其他重要植物物种的细胞再生冷冻库。
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来源期刊
Protoplasma
Protoplasma 生物-细胞生物学
CiteScore
6.60
自引率
6.90%
发文量
99
审稿时长
4-8 weeks
期刊介绍: Protoplasma publishes original papers, short communications and review articles which are of interest to cell biology in all its scientific and applied aspects. We seek contributions dealing with plants and animals but also prokaryotes, protists and fungi, from the following fields: cell biology of both single and multicellular organisms molecular cytology the cell cycle membrane biology including biogenesis, dynamics, energetics and electrophysiology inter- and intracellular transport the cytoskeleton organelles experimental and quantitative ultrastructure cyto- and histochemistry Further, conceptual contributions such as new models or discoveries at the cutting edge of cell biology research will be published under the headings "New Ideas in Cell Biology".
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