用于苹果嫩梢冷冻保存和病毒根除的玻璃化冷冻箔法。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Min-Rui Wang , Jun-Hua Bao , Xiao-Yan Ma , Zi-Han Yan , Zhen-Hua Cui , Li-Ying Zhu , Dong Zhang , Qiao-Chun Wang
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引用次数: 0

摘要

建立一种改进的嫩梢冷冻保存新方法对于促进植物种质的长期保存以及利用冷冻疗法根除病原体至关重要。本研究报告了一种用于苹果嫩梢冷冻保存和病毒根除的玻璃化(V)冷冻箔法。V 型冷冻箔(53%)、V 型冷冻板(46%)和传统液滴玻璃化(Dr-vi,48%)冷冻保存后的嫩梢再生率相当。V 型冷冻箔比 Dr-vi 的冷冻效率更高,因为一个人可以冷冻更多的嫩梢。在应用图像叠加策略进行的组织学研究中,用 V 型低温冻膜冷冻保存的嫩枝尖在幼叶初生期的存活率高于在顶端圆顶的存活率。在对 V 型低温箔的病毒清除率进行测试时,55% 的低温保存嫩枝不含苹果茎点裂病毒(ASPV),而不含苹果茎沟病毒(ASGV)和苹果叶斑病病毒(ACLSV)的嫩枝分别为零和不到 10%。因此,V 型低温膜低温保存法能有效地保存这两种病毒。值得注意的是,虽然嫩枝再生率降低到了 27%,但在 V 型低温膜中缩短低温保护剂暴露时间时,ASPV 的根除率却更高(81%),这支持了利用不充分的低温保护来提高病毒根除率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Vitrification cryo-foil method for shoot tip cryopreservation and virus eradication in apple

Establishment of a new method for improved shoot tip cryopreservation is crucial to facilitate the long-term preservation of plant germplasm as well as the use of cryotherapy for pathogen eradication. The present study reported a vitrification (V) cryo-foil method for shoot tip cryopreservation and virus eradication in apple. Shoot tip regrowth levels after cryopreservation were comparable among V cryo-foil (53 %), V cryo-plate (46 %) and conventional droplet vitrification (Dr-vi, 48 %). The V cryo-foil is more efficient to perform than Dr-vi as more shoot tips can be cryopreserved by one person. In the histological study applying an image-overlaying strategy, shoot tips cryopreserved by V cryo-foil showed a higher survival chance in the youngest leaf primordia than in the apical dome. When V cryo-foil was tested for virus eradication, fifty-five percent (55 %) of cryo-derived shoots were free of the apple stem pitting virus (ASPV), while none and less than 10 % were free of the apple stem grooving virus (ASGV) and the apple chlorotic leaf spot virus (ACLSV), respectively. Thus, these two viruses were efficiently preserved by V cryo-foil cryopreservation. Noticeably, although the shoot regrowth level was reduced to 27 %, a higher frequency (81 %) of ASPV eradication was achieved when a reduced duration of cryoprotectant exposure was applied in V cryo-foil, supporting the use of insufficient cryoprotection for improved virus eradication.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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