研究了DHN1基因和DHN启动子在甘蔗愈伤组织中的转化、愈伤组织的再生和植株的驯化

H. Minarsih, Fauziatul Fitriyah, A. A. Aksa, T. Turhadi, D. Sukmadjaya, Sustiprajitno Sustiprajitno
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引用次数: 0

摘要

脱氢酶在植物对干旱和高盐度等非生物胁迫的响应和适应中具有重要作用。已有研究报道从甘蔗品种PSJT 941中分离到DHN1基因的全长编码序列(CDS),该基因与高粱等甘蔗品种的DHN基因具有较高的同源性。本研究通过CaMV35S启动子克隆了全长CDS,并将其转化为农杆菌介导的甘蔗愈伤组织。从甘蔗品种PSJT 941中成功分离出DHN启动子Pr-1DHNSo,并将其克隆到pBI121表达载体中。随后将该启动子结构转化为甘蔗愈伤组织。根据甘蔗组织培养标准方案,再生了携带DHN1基因和DHN启动子的转基因甘蔗。利用改良的生根后培养基对驯化方案进行了优化,该方案降低了转化植株的总死亡率。利用特异引物定期检测基因和启动子结构的存在。基因分型结果表明,这些结构在转化后存在一年多。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Transformation of DHN1 gene and DHN promoter constructs into sugarcane calli, regeneration of the calli, and acclimatization of the plantlets
Dehydrin is known to have an important role in plant response and adaptation to abiotic stresses including drought and high salinity. Previous research reported the isolation of the full-length coding sequence (CDS) of DHN1 from sugarcane var. PSJT 941, and it shares a high homology with DHN genes from sorghum and other sugarcane varieties. In this study, the full-length CDS was cloned under the constitutive CaMV35S promoter and transformed into sugarcane calli mediated by Agrobacterium tumefaciens. The DHN promoter, Pr-1DHNSo, was also successfully isolated from the sugarcane var. PSJT 941 and cloned into the pBI121 expression vector. The promoter construct was subsequently transformed into sugarcane calli of var. Kidang Kencana. Transgenic sugarcane carrying DHN1 gene and DHN promoter constructs were regenerated according to the standard protocol of sugarcane tissue culture. Optimization of an acclimatization protocol using modified post-rooting media was also conducted and the resulting protocol reduced the total mortality rates of the transformed plantlets. The presence of the gene and promoter constructs was periodically tested by PCR using specific primers. The genotyping results showed that the constructs were present for more than a year after transformation.
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