Optimization of Agrobacterium-mediated transformation procedure for an indica rice variety-Khang Dan 18

Bui Phuong Thao, Nguyen Thi Linh, Nguyen Van Manh, Ly Khanh Linh, Chu Hoang Ha, Do Tien Phat, Pham Bich Ngoc
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Abstract

In addition to traditional methods, advanced biotechnologies, especially CRISPR/Cas9-mediated genome editing, have emerged as effective tools for improving important agronomic traits in rice. However, the critical step for utilizing these systems is to develope an effective system for rice transformation and regeneration. This study was performed to establish procedures for Agrobacterium-mediated transformation and regeneration of rice cultivar Khang Dan 18 (KD18) – a popular indica variety in the North of Vietnam. The tissue cultures procedure with optimized medium compositions showed high frequencies of callus induction and shoot regeneration, at 94.7% and 45.3% respectively. We found that 30 mg/L of hygromycin was an effective concentration for transgenic KD18 selection. Light-yellow friable calli were used as the starting material for transformation mediated by A. tumefaciens strain AGL1 harbouring pHUE411 vector containing gus intron and hygromycin resistance gene (hptII). Important factors related to transformation procedure had been optimized in this study. The high transformation frequency (12.8%) was achieved by using the optimized procedure for KD18 cultivar. In which, bacterial density (OD600), infection time and co-cultivation period were performed at 0.1, 20 minutes and 3 days, respectively. PCR analysis using specific primers and the histological GUS staining demonstrated the presence of hptII and gus genes in transgenic rice lines. This result provides a potential protocol to transfer genes of interest into KD18 as well as other indica rice cultivars.
农杆菌介导籼稻品种康单18转化过程的优化
除了传统方法之外,先进的生物技术,特别是CRISPR/ cas9介导的基因组编辑,已经成为改善水稻重要农艺性状的有效工具。然而,利用这些系统的关键一步是开发一个有效的水稻转化和再生系统。本研究旨在建立农杆菌介导的水稻品种康单18 (KD18)的转化和再生程序。康单18是越南北部一个受欢迎的籼稻品种。采用优化的培养基组成进行组织培养,愈伤组织诱导率和芽再生率分别为94.7%和45.3%。结果表明,30 mg/L的潮霉素对转基因KD18的选择是有效的。以淡黄色的易碎愈伤组织为起始材料,以含有gus内含子和耐水霉素基因(hptII)的pHUE411载体为载体的肿瘤杆菌AGL1菌株介导转化。本研究对影响转化过程的重要因素进行了优化。优化后的KD18品种转化频率较高,达到12.8%。其中,细菌密度(OD600)、感染时间和共培养时间分别为0.1、20分钟和3天。利用特异引物和GUS染色进行PCR分析,证实转基因水稻中存在hptII和GUS基因。这一结果为将相关基因转移到KD18和其他籼稻品种提供了一个潜在的方案。
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