柠檬粗砧木直接器官发生离体再生方案的优化

Molla Taye, Brhanu Debesay, Yikunoamilak Tesfahun, Assefa Brhanu
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引用次数: 6

摘要

在Tigray生物技术中心进行了柠檬粗砧木离体大量繁殖的可重复性方案的标准化。2015/2016种植季,埃塞俄比亚Mekelle植物组织培养实验室。粗柠檬是世界和埃塞俄比亚柑橘类水果生产中经常使用的砧木,特别是在提格雷地区,由于其优于其他砧木的性能。然而,由于其多胚性造成的变异性问题,不建议在果园中使用传统方法生产的幼苗。为了克服这种变异,采用节段和茎尖作为外植体进行了柠檬粗砧木的离体再生。将外植体接种于添加5%蔗糖和250 mg/L链霉素的MS培养基上,进行表面灭菌。测定了生长素(NAA)、细胞分裂素(BA)和黄黄烯酸(GA3)对粗柠檬砧木离体诱导芽和根的最有效和最具重复性。除了0.0和0.1 mg/L IBA和1.5和2.0 BA mg/L IBA处理外,几乎所有IBA和BA处理的诱导率都接近100%。茎节段在较短的时间内诱导的外植体响应率高于茎尖,茎尖比茎节段产生更多的芽和叶。研究了不同BA和IBA浓度对细胞增殖各项参数的影响。全强度培养基比半强度MS培养基每枝再生芽和叶片更多。此外,添加0.1 mg/L GA3的培养基比不添加该植物生长调节剂的培养基形成的芽长。随着NAA浓度的升高,根长逐渐减小,在1.0 mg/L NAA处理下,根长为2.5±0.22 cm,在0.5 mg/L NAA处理下,根长为1.95±0.22 cm。生根植株在温室中成功地建立在名为可可豆和沙子的基质上,其成活率为98%。这些结果表明,这些因素的标准化可以帮助开发一个商业上可行的粗柠檬组织培养系统。此外,这也表明了基于植物品种的柑桔种离体方案开发和优化的必要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optimization of an in vitro Regeneration Protocol for Rough Lemon Rootstock ( Citrus jambhiri L.) via Direct Organogenesis
Standardization of a reproducible protocol for in vitro rough lemon rootstock mass propagation was conducted at Tigray Biotechnology Center Plc., Plant Tissue Culture Laboratory, Mekelle, Ethiopia in 2015/2016 cropping season. Rough lemon is the frequently used rootstock both in the world and Ethiopia citrus fruit production, particularly in the Tigray region due to its superior performance over other rootstocks. However, seedlings produced through conventional ways are not recommended to be used in orchards due to variability problems caused by its polyembrony nature. To overcome such variations, in vitro regeneration of rough lemon rootstocks was performed using nodal segments and shoot tips as explant types. The explants were inoculated on MS medium supplemented with 5% scurose and 250 mg/L streptomycin followed to surface sterilization. The most effective and reproducible auxin (NAA), cytokinin (BA) and gebrillenllic acid (GA3) for in vitro shoot and root induction in rough lemon rootstocks were determined. Almost all IBA and BA treatments resulted in almost 100% shoot induction except for at 0.0 and 0.1 mg/L IBA and at 1.5 and 2.0 BA mg/L. Nodal segments induced a higher percentage of explant response with longer shoots in a shorter period of time than shoot tips, which produced more shoots and leaves than nodal segments. The effect different BA and IBA concentrations on various parameters of proliferation were studied. Full strength medium produced more regenerated shoots and leaves per shoot than half-strength MS medium. In addition, longer shoots formed with 0.1 mg/L GA3 than culture medium without this plant growth regulator. Root length decreased with higher concentration of NAA and the longest root (2.5 ± 0.22 cm) was found in the 1.0 mg/L NAA and followed by (1.95 ± 0.22 cm) at 0.5 mg/L of NAA. The rooted plants were successfully established in the greenhouse on the substrate called coco-peat and sand, and their survival rate was found to be 98%. These results suggest that standardization of these factors can help in development of a commercially viable tissue culture system for rough lemon. Moreover, it signifies the need of plant variety based in vitro protocol development and optimization across citrus species.
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