新型玉米 NAC 转录抑制子 ZmNAC071 通过下调转基因中应激响应基因赋予对 ABA 和渗透胁迫的增强敏感性。

Novel Maize NAC Transcriptional Repressor ZmNAC071 Confers Enhanced Sensitivity to ABA and Osmotic Stress by Downregulating Stress-Responsive Genes in Transgenic .

机构信息

Key Laboratory of Modern Agricultural Cultivation and Crop Germplasm Improvement of Heilongjiang Province , Heilongjiang Bayi Agricultural University , 5 Xinfeng Road , 163319 Daqing , China.

出版信息

J Agric Food Chem. 2019 Aug 14;67(32):8905-8918. doi: 10.1021/acs.jafc.9b02331. Epub 2019 Aug 5.

DOI:10.1021/acs.jafc.9b02331

PMID:31380641

Abstract

NAC TFs play crucial roles in response to abiotic stresses in plants. Here, ZmNAC071 was identified as a nuclear located transcriptional repressor. Overexpression of in enhanced sensitivity of transgenic plants to ABA and osmotic stress. The expression levels of , , , and were inhibited by ZmNAC071, which results in reduced ROS scavenging and proline content, increased ROS level, and water loss. Besides, the expression levels of some ABA or abiotic stress-related genes, like , , and were also significantly inhibited by ZmNAC071. Yeast one-hybrid assay demonstrated that ZmNAC071 specifically bound to the cis-acting elements containing CGT[G/A] core sequences in the promoter of stress-related genes, suggesting that ZmNAC071 may participate in the regulation of transcription of these genes through recognizing the core sequences CGT[G/A]. These results will facilitate further studies concerning the cis-elements and downstream genes targeted by ZmNAC071 in maize.

摘要

NAC TFs 在植物应对非生物胁迫中发挥重要作用。在这里，ZmNAC071 被鉴定为一种位于核内的转录抑制子。过表达在中增强了转基因植物对 ABA 和渗透胁迫的敏感性。ZmNAC071 抑制了、、和的表达水平，导致 ROS 清除和脯氨酸含量减少，ROS 水平升高和水分流失增加。此外，一些 ABA 或非生物胁迫相关基因的表达水平，如、和也被 ZmNAC071 显著抑制。酵母单杂交实验表明，ZmNAC071 特异性结合到胁迫相关基因启动子中含有 CGT[G/A]核心序列的顺式作用元件，表明 ZmNAC071 可能通过识别核心序列 CGT[G/A]参与这些基因的转录调控。这些结果将有助于进一步研究玉米中 ZmNAC071 靶向的顺式元件和下游基因。

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新型玉米 NAC 转录抑制子 ZmNAC071 通过下调转基因中应激响应基因赋予对 ABA 和渗透胁迫的增强敏感性。

Novel Maize NAC Transcriptional Repressor ZmNAC071 Confers Enhanced Sensitivity to ABA and Osmotic Stress by Downregulating Stress-Responsive Genes in Transgenic .

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