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转录因子alfin1的转基因过表达增强了苜蓿中内源性MsPRP2基因的表达,并提高了植株的耐盐性。

Transgenic overexpression of the transcription factor alfin1 enhances expression of the endogenous MsPRP2 gene in alfalfa and improves salinity tolerance of the plants.

作者信息

Winicov I, Bastola DR

机构信息

Departments of Microbiology and Biochemistry, University of Nevada, Reno, Nevada 89557, USA.

出版信息

Plant Physiol. 1999 Jun;120(2):473-80. doi: 10.1104/pp.120.2.473.

DOI:10.1104/pp.120.2.473
PMID:10364398
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC59285/
Abstract

Alfin1 cDNA encodes a putative transcription factor associated with NaCl tolerance in alfalfa (Medicago sativa L.). The recombinant protein binds DNA in a sequence-specific manner, including promoter fragments of the NaCl-inducible gene MsPRP2. Alfin1 function was tested in transgenic alfalfa under the control of the 35S promoter in the sense and antisense orientations with the endogenous MsPRP2 as a reporter gene. Calli overexpressing Alfin1 were more resistant to growth inhibition by 171 mM NaCl than vector-transformed controls, whereas calli expressing Alfin1 in the antisense orientation were more sensitive to NaCl inhibition. Transgenic plants overexpressing Alfin1 in the sense orientation grew well. In contrast, the antisense transgenic plants grew poorly in soil, demonstrating that Alfin1 expression is essential for normal plant development. Transgenic calli and plant roots overexpressing Alfin1 showed enhanced levels of endogenous MsPRP2 mRNA accumulation. However, MsPRP2 mRNA accumulation was also regulated in a tissue-specific manner, as shown in leaves of transgenic plants overexpressing Alfin1. These results suggest that Alfin1 acts as a transcriptional regulator in plants and regulates MsPRP2 expression in alfalfa. Alfin1 overexpressing transgenic plants showed salinity tolerance comparable to one of our NaCl-tolerant plants, indicating that Alfin1 also functions in gene regulation in NaCl tolerance.

摘要

Alfin1 cDNA编码一种与苜蓿(紫花苜蓿)耐NaCl性相关的假定转录因子。重组蛋白以序列特异性方式结合DNA,包括NaCl诱导基因MsPRP2的启动子片段。以内源MsPRP2作为报告基因,在35S启动子控制下,以正义和反义方向在转基因苜蓿中测试Alfin1的功能。过表达Alfin1的愈伤组织比载体转化对照更能抵抗171 mM NaCl对生长的抑制,而反义表达Alfin1的愈伤组织对NaCl抑制更敏感。正义方向过表达Alfin1的转基因植物生长良好。相反,反义转基因植物在土壤中生长不良,表明Alfin1的表达对植物正常发育至关重要。过表达Alfin1的转基因愈伤组织和植物根显示内源MsPRP2 mRNA积累水平增强。然而,MsPRP2 mRNA积累也以组织特异性方式受到调控,如在过表达Alfin1的转基因植物叶片中所示。这些结果表明,Alfin1在植物中作为转录调节因子发挥作用,并调节苜蓿中MsPRP2的表达。过表达Alfin1的转基因植物表现出与我们的一种耐NaCl植物相当的耐盐性,表明Alfin1在耐NaCl性的基因调控中也发挥作用。

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