建立木槿'Berry Awesome'的体外微繁殖规程

IF 3.1 3区 农林科学 Q1 HORTICULTURE Horticulturae Pub Date : 2023-12-24 DOI:10.3390/horticulturae10010021
Mikhail Sereda, Victoria Petrenko, O. Kapralova, Vasiliy A. Chokheli, Tatyana V. Varduni, Pavel A. Dmitriev, T. Minkina, S. Sushkova, A. Barbashev, T. Dudnikova, Rupesh Kumar Singh, Chandra Shekhar Seth, V. Rajput
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引用次数: 0

摘要

Hibiscus moscheutos L. 'Berry Awesome' 是 Proven Winners Summerific 系列新品种的一个复杂杂交种,具有极高的观赏性。高观赏性品种的微繁殖对于商业种植材料的大规模生产非常重要。然而,木槿品种的传统繁殖方法,如扦插或种子繁殖,并不能保证高品质幼苗的高产量。为了解决这个问题,我们尝试使用生物反应器系统,在琼脂和液体培养基上制定木槿'Berry Awesome'的体外微繁殖方案,然后对再生株进行体外改良。确定了节点外植体的最佳消毒方法以及芽增殖和生根的最佳萌发培养基成分。在液体培养基上进行微繁殖时,使用了摇臂式生物反应器,并证明了它比在琼脂培养基上进行微繁殖更有优势。结果表明,节段外植体的最佳消毒方法如下:用流动的自来水、无菌水和蒸馏水冲洗预处理 70 分钟,然后在乙醇(96%)、过氧化氢(38%)和水按 1:1:2 的比例混合溶液中浸泡 5 分钟。在这种情况下,活的无菌外植体占 62.6%。节段腋芽的最佳萌发培养基是添加 0.1 mg L-1 N-(2-氯-4-吡啶基)-N'-苯基脲(CPPU)的 Murashige 和 Skoog(MS)培养基,该培养基可诱发 73.3% 的腋芽。最佳固体增殖培养基是添加了 0.1 mg L-1 CPPU 的 MS 培养基,增殖系数为 5.8。在液体培养基中,CPPU 的最佳浓度为 0.05 mg L-1,增殖系数为 9.2。琼脂和生物反应器中生根/发芽的最佳培养基是添加 0.1 mg L-1 吲哚-3-丁酸(IBA)的 MS 培养基。两种培养基的最高生根率均为 99.0%,小植株的存活率在固体培养基中为 88.7%,在生物反应器中为 98.7%。
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Establishment of an In Vitro Micropropagation Protocol for Hibiscus moscheutos L. ‘Berry Awesome’
Hibiscus moscheutos L. ‘Berry Awesome’ is a complex hybrid of the new Proven Winners Summerific series of varieties with highly ornamental characteristics. Micropropagation of highly ornamental varieties is important for mass production of planting material for commercial purposes. The traditional methods for propagating Hibiscus varieties, such as cuttings or seed propagation, however, do not guarantee high rates of production of high-quality seedlings. To solve this problem, an attempt was made to develop protocols for micropropagation of Hibiscus moscheutos L. ‘Berry Awesome’ in vitro on agar and liquid medium using a bioreactor system, followed by ex vitro adaptation of the regenerants. The optimal method for sterilization of nodal explants as well as the optimal composition of the initiation medium for shoot proliferation and rooting were determined. For micropropagation on a liquid medium, a rocker-type bioreactor was used, and its advantages over micropropagation on an agar medium were demonstrated. The results showed that the best sterilization method for nodal segment explants was as follows: pretreatment by rinsing with running tap water, sterile water, and distilled water for 70 min and soaking for 5 min in a mixture of solutions of ethyl alcohol (96%), hydrogen peroxide (38%), and water in a ratio of 1:1:2. In this case, live and sterile explants accounted for 62.6%. The optimal initiation medium for axillary buds in nodal segments was the Murashige and Skoog (MS) medium supplemented with 0.1 mg L−1 N-(2-chloro-4-pyridinyl)-N’-phenylurea (CPPU), which resulted in 73.3% of axillary buds being induced. The optimal solid proliferation medium was MS medium supplemented with 0.1 mg L−1 CPPU with a proliferation coefficient of 5.8. In a liquid medium, the optimal concentration of CPPU was 0.05 mg L−1 with a proliferation coefficient of 9.2. The best medium for rooting/shoots with agar and in bioreactors was MS medium with the addition of 0.1 mg L−1 indole-3-butyric acid (IBA). The highest rooting rate was 99.0% in both types of media, and the survival rate of plantlets was 88.7% in solid media and 98.7% in the bioreactor.
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来源期刊
Horticulturae
Horticulturae HORTICULTURE-
CiteScore
3.50
自引率
19.40%
发文量
998
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