In vitro regeneration and optimization of physical and chemical mutagenesis protocol in tuberose (Agave amica (Medik.) Thiede & Govaerts) cv. 'Arka Vaibhav'.

IF 2.4 International journal of radiation biology Pub Date : 2025-01-01 Epub Date: 2025-01-24 DOI:10.1080/09553002.2024.2447511

Mahananda Patil, Thangaraj Usha Bharathi, T R Usharani, M R Rohini, Rajiv Kumar, Balaji S Kulkarni, Keerthi M C

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Abstract

Purpose: Tuberose (Agave amica [Medik.]) is a vegetatively propagated commercial flower crop with limited genetic variability. Crossing barriers prevailing in tuberose necessitates modern breeding techniques like in vitro mutagenesis to generate variability. Hence, this study aimed to establish an efficient in vitro regeneration protocol for the rapid multiplication of tuberose and optimize the method for in vitro mutagenesis using the terminal stem scale as the explant.

Results: MS medium supplemented with 17.74 µM benzyl aminopurine) (BAP) and 0.57 µM indole-3-acetic acid (IAA) showed the maximum number of multiple shoots (5.0), with optimal shoot length (6.77 cm) and number of leaves (6.07). The shoots formed maximum rooting (99.44%) in MS medium supplemented with 4.90 µM indole-3-butyric acid, with an average of 26.89 roots per shoot. In vitro mutagenesis attempted physically via gamma irradiation led to an LD_{25, 50, 75} values of 13.21, 20.81, 32.79 Gy, respectively. The incorporation of ethyl methane sulfonate (EMS) into the culture media at a concentration of 0.08%, 0.13%, and 0.21% effectively resulted in LD_{25, 50, 75}, respectively. Pretreating explants with 0.13% EMS for 15 min, 0.18% EMS for 30 min, 0.14% EMS for 45, and 0.11% EMS for 60 min were optimal for achieving 50% survival and plant regeneration using the regeneration protocol described above.

Conclusion: The regeneration protocol and optimized mutagen dose for in vitro mutagenesis developed in this study can be utilized for rapid multiplication of the cultivar and as a tool in genetic improvement programs aimed at inducing variability for commercially significant traits in tuberose.

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龙舌兰（Agave amica）体外再生及理化诱变方案优化Thiede & Govaerts)简历“Arka Vaibhav”。

目的：龙舌兰（Agave amica [Medik.]）是一种遗传变异有限的无性繁殖商业花卉作物。杂交障碍普遍存在于tuberose需要现代育种技术，如体外诱变产生变异性。因此，本研究旨在建立一种高效的薯蓣快速增殖的离体再生方案，并优化以茎端鳞片为外植体的离体诱变方法。结果：在添加17.74µM苄基氨基嘌呤（BAP）和0.57µM吲哚-3-乙酸（IAA）的MS培养基中，芽数最多（5.0），芽长最优（6.77 cm），叶数最优（6.07）；在添加4.90µM吲哚-3-丁酸的MS培养基中生根率最高（99.44%），平均每枝生根26.89根。通过伽马辐照进行体外诱变，LD25、50、75值分别为13.21、20.81、32.79 Gy。在培养基中添加0.08%、0.13%和0.21%浓度的甲烷磺酸乙酯（EMS）， LD25、50、75的效果最佳。用0.13%的EMS预处理外植体15分钟，0.18%的EMS预处理30分钟，0.14%的EMS预处理45分钟，0.11%的EMS预处理60分钟，可以达到50%的存活率和植株再生。结论：本研究建立的体外诱变再生方案和最佳诱变剂剂量可用于该品种的快速繁殖，并可作为诱导具有商业意义性状变异的遗传改良计划的工具。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International journal of radiation biology

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