The role of MoO3NPs on regeneration, growth and development of chrysanthemum cultured in vitro

IF 2.3 3区 生物学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Phan Le Ha Nguyen, Nguyen Thi Thanh Thuy, Nguyen Thi Nhu Mai, Ho Cam Khanh Hoa, Hoang Dac Khai, Hoang Thanh Tung, Do Manh Cuong, Vu Quoc Luan, Hoang Thi Nhu Phuong, Nguyen Quang Vinh, Doan Manh Dung, Duong Tan Nhut
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Abstract

This study substituted sodium molybdate dehydrate (Na2MoO4.2H2O) in MS medium (Murashige and Skoog 1962) with molybdenum trioxide nanoparticles (MoO3NPs) to evaluate their impact on the morphogenesis, growth, absorption of metal-mineral elements and the activity of antioxidant enzymes of chrysanthemum. The results indicated that 100% callus formation was observed when 1-month-old leaf explants were cultured on medium supplemented with MoO3NPs and Na2MoO4.2H2O in basic MS medium, while leaf explants cultured on MS medium without Na2MoO4.2H2O did not induce callus induction. In addition, the treatment with 223.5 µL/L MoO3NPs resulted in the highest shoot regeneration (33.33%), with 1 shoot per explant, and shoot height (1.14 cm), and fresh weight (1.21 g) compared to those in others and control treatments. Meanwhile, 1-month-old stem node (1 cm) explants cultured on medium supplemented with 149 µL/L MoO3NPs recorded 100% shoot regeneration and the highest number of shoots larger than 2 cm (5 shoots/stem node), shoot height (3.23 cm) and fresh weight (1.87 g) of the shoot cluster after 30 days of culture. During the regeneration stage, the activity of antioxidant enzymes in 149 µg/L MoO3NPs treatment was better than the control (+) treatment (except for SOD) and all the other treatments. Similar results were also observed during the shoot multiplication phase, where either the lack or surplus of Mo in the culture medium also caused the decline of SOD, CAT, and APX enzymes activity. Besides, at the concentration of 6.4 µg/L MoO3NPs in the culture media, nutrients are absorbed more efficiently and rapidly by explants. These findings suggest that substituting ion salt in the culture medium with MoO3NPs led to enhanced absorption, providing a micro-mineral source for plants to support biosynthesis and essential functions. The chrysanthemum plantlets exhibited enhanced rooting and growth when treated with 149 µg/L MoO3NPs, particularly during the rooting stage after 15 days of culture.

Abstract Image

MoO3NPs对离体培养菊花的再生、生长和发育的作用
本研究用三氧化钼纳米颗粒(MoO3NPs)替代 MS 培养基(Murashige and Skoog 1962)中的脱水钼酸钠(Na2MoO4.2H2O),以评估它们对菊花的形态发生、生长、金属矿物元素吸收和抗氧化酶活性的影响。结果表明,在碱性 MS 培养基中添加 MoO3NPs 和 Na2MoO4.2H2O 的培养基上培养 1 个月大的叶片外植体时,胼胝体形成率为 100%,而在不添加 Na2MoO4.2H2O 的 MS 培养基上培养叶片外植体则不能诱导胼胝体的形成。此外,与其他处理和对照处理相比,223.5 µL/L MoO3NPs 处理的芽再生率最高(33.33%),每个外植体可长出 1 个芽,芽高 1.14 厘米,鲜重 1.21 克。同时,在添加了 149 µL/L MoO3NPs 的培养基上培养 1 个月大的茎节(1 厘米)外植体,培养 30 天后,芽再生率达 100%,大于 2 厘米的芽数量(5 个芽/茎节)、芽高(3.23 厘米)和芽丛鲜重(1.87 克)均为最高。在再生阶段,149 µg/L MoO3NPs 处理的抗氧化酶活性优于对照(+)处理(SOD 除外)和所有其他处理。在嫩枝增殖期也观察到类似的结果,培养基中 Mo 的缺乏或过剩也会导致 SOD、CAT 和 APX 酶活性的下降。此外,当培养基中的 MoO3NPs 浓度为 6.4 µg/L 时,外植体吸收养分的效率更高、更快。这些研究结果表明,用 MoO3NPs 替代培养基中的离子盐可提高植物的吸收能力,为植物提供微量矿物质来源,支持其生物合成和基本功能。用 149 µg/L MoO3NPs 处理的菊花小植株显示出更强的生根和生长能力,尤其是在培养 15 天后的生根阶段。
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来源期刊
Plant Cell, Tissue and Organ Culture
Plant Cell, Tissue and Organ Culture 生物-生物工程与应用微生物
CiteScore
5.40
自引率
13.30%
发文量
203
审稿时长
3.3 months
期刊介绍: This journal highlights the myriad breakthrough technologies and discoveries in plant biology and biotechnology. Plant Cell, Tissue and Organ Culture (PCTOC: Journal of Plant Biotechnology) details high-throughput analysis of gene function and expression, gene silencing and overexpression analyses, RNAi, siRNA, and miRNA studies, and much more. It examines the transcriptional and/or translational events involved in gene regulation as well as those molecular controls involved in morphogenesis of plant cells and tissues. The journal also covers practical and applied plant biotechnology, including regeneration, organogenesis and somatic embryogenesis, gene transfer, gene flow, secondary metabolites, metabolic engineering, and impact of transgene(s) dissemination into managed and unmanaged plant systems.
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