Microtuberization Potential of Jasmonic Acid, Kinetin and Putrescine in Potato (Solanum tuberosum L.)

IF 1.2 4区 农林科学 Q3 AGRONOMY
Ayesha Pervaiz, Zahoor Ahmad Sajid, Samina Yousaf, Faheem Aftab
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引用次数: 0

Abstract

Abstract

Potato (Solanum tuberosum L.) is the most widely produced tuberous crop all over the world because of its high nutritional value. Tissue culture practices are mostly used to produce true-to-type and virus-free planting material of potato as compared to traditional means. As various plant growth hormones affect the initiation and growth of microtuber, the current experiment was conducted to study the effect of different concentrations of jasmonic acid (JA), kinetin (Kin) and putrescine, either alone or in combination on microtuberization. For this, Murashige and Skoog (MS) medium containing 80 gL−1 sucrose was supplemented with different concentrations of JA, Kin and putrescine under dark conditions. Overall, twelve treatments (T0 = control, T1 = 10 μM Kin, T2 = 15 μM Kin, T3 = 2.5 μM JA, T4 = 5 μM JA, T5 = 80 gL−1 putrescene, T6 = 2.5 μM JA + 10 μM Kin, T7 = 2.5 μM JA + 15 μM Kin, T8 = 5 μM JA + 10 μM Kin,T9 = 5 μM JA + 15 μM Kin,T10 = 2.5 μM JA + 15 μM Kin + 80 gL−1 putrescine, and T11 = 5 μM JA + 10 μM Kin + 80 gL−1 Putrescine in MS medium) of these biomolecules were supplemented to MS medium. The results indicated that medium T9 (MS + 5 μM JA and 15 μM Kin) significantly increased the microtuberization as well as average number (3.7), size (4.54 mm), fresh weight (503.44 mg) and dry weight (124.77 mg) of microtuber as compared to all other treatment media tested in this study. This might be due to the increased level of tuberonic acid, and its glucosides in the plant also increased due to the exogenous supply of JA that enhanced tuber formation. Hence, this technique can be used and suggested as an efficient microtuber production protocol in potato cv. Desiree at commercial scale to fulfill the requirement of healthy germplasm of potato.

Abstract Image

茉莉酸、激动素和腐胺在马铃薯中的微结节化潜力
马铃薯(Solanum tuberosum L.)因其营养价值高,是世界上生产最广泛的块茎作物。与传统方法相比,组织培养方法主要用于生产真正类型和无病毒的马铃薯种植材料。由于各种植物生长激素影响微管的起始和生长,本实验研究了不同浓度的茉莉酸(JA)、激动素(Kin)和腐胺(单独或联合使用)对微管形成的影响。为此,在黑暗条件下,用含有80gL−1蔗糖的Murashige和Skoog(MS)培养基补充不同浓度的JA、Kin和腐胺。总共12次治疗(T0 = 控制,T1 = 10μM Kin,T2 = 15μM Kin,T3 = 2.5μM JA,T4 = 5μM JA,T5 = 80 gL−1腐败,T6 = 2.5μM JA + 10μM Kin,T7 = 2.5μM JA + 15μM Kin,T8 = 5μM JA + 10μM Kin,T9 = 5μM JA + 15μM Kin,T10 = 2.5μM JA + 15μM Kin + 80 gL-1腐胺和T11 = 5μM JA + 10μM Kin + 80 gL−1 Putrescine在MS培养基中)的这些生物分子补充到MS培养基。结果表明,培养基T9(MS + 与本研究中测试的所有其他处理介质相比,5μM JA和15μM Kin)显著增加了微管的微型化以及微管的平均数量(3.7)、大小(4.54mm)、鲜重(503.44mg)和干重(124.77mg)。这可能是由于块茎酸水平的增加,其在植物中的糖苷也由于JA的外源供应而增加,JA促进了块茎的形成。因此,该技术可以在商业规模上作为马铃薯品种Desiree的高效微管生产方案来使用和建议,以满足马铃薯健康种质的要求。
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来源期刊
American Journal of Potato Research
American Journal of Potato Research 农林科学-农艺学
CiteScore
3.40
自引率
6.70%
发文量
33
审稿时长
18-36 weeks
期刊介绍: The American Journal of Potato Research (AJPR), the journal of the Potato Association of America (PAA), publishes reports of basic and applied research on the potato, Solanum spp. It presents authoritative coverage of new scientific developments in potato science, including biotechnology, breeding and genetics, crop management, disease and pest research, economics and marketing, nutrition, physiology, and post-harvest handling and quality. Recognized internationally by contributors and readership, it promotes the exchange of information on all aspects of this fast-evolving global industry.
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