小麦中 TaMYB 在 GAPCp2/3 启动子上结合的特定 MYB 结合位点参与干旱胁迫响应。

The specific MYB binding sites bound by TaMYB in the GAPCp2/3 promoters are involved in the drought stress response in wheat.

机构信息

College of Life Sciences, Northwest A&F University, Yangling, 712100, Shaanxi, China.

出版信息

BMC Plant Biol. 2019 Aug 19;19(1):366. doi: 10.1186/s12870-019-1948-y.

DOI:10.1186/s12870-019-1948-y

PMID:31426752

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6701022/

Abstract

BACKGROUND

Drought stress is one of the major abiotic stresses that affects plant growth and productivity. The GAPCp genes play important roles in drought stress tolerance in multiple species. The aim of this experiment was to identify the core cis-regulatory elements that may respond to drought stress in the GAPCp2 and GAPCp3 promoter sequences.

RESULTS

In this study, the promoters of GAPCp2 and GAPCp3 were cloned. The promoter activities were significantly improved under abiotic stress via regulation of Rluc reporter gene expression, while promoter sequence analysis indicated that these fragments were not almost identical. In transgenic Arabidopsis with the expression of the GUS reporter gene under the control of one of these promoters, the activities of GUS were strong in almost all tissues except the seeds, and the activities were induced after abiotic stress. The yeast one-hybrid system and EMSA demonstrated that TaMYB bound TaGAPCp2P/3P. By analyzing different 5' deletion mutants of these promoters, it was determined that TaGAPCp2P (- 1312~ - 528) and TaGAPCp3P (- 2049~ - 610), including the MYB binding site, contained enhancer elements that increased gene expression levels under drought stress. We used an effector and a reporter to co-transform tobacco and found that TaMYB interacted with the specific MYB binding sites of TaGAPCp2P (- 1197~ - 635) and TaGAPCp3P (- 1456~ - 1144 and - 718~ - 610) in plant cells. Then, the Y1H system and EMSA assay demonstrated that these MYB binding sites in TaGAPCp2P (- 1135 and - 985) and TaGAPCp3P (- 1414 and - 665) were the target cis-elements of TaMYB. The deletion of the specific MYB binding sites in the promoter fragments significantly restrained the drought response, and these results confirmed that these MYB binding sites (AACTAAA/C) play vital roles in improving the transcription levels under drought stress. The results of qRT-PCR in wheat protoplasts transiently overexpressing TaMYB indicated that the expression of TaGAPCp2/3 induced by abiotic stress was upregulated by TaMYB.

CONCLUSION

The MYB binding sites (AACTAAA/C) in TaGAPCp2P/3P were identified as the key cis-elements for responding to drought stress and were bound by the transcription factor TaMYB.

摘要

背景

干旱胁迫是影响植物生长和生产力的主要非生物胁迫之一。GAPCp 基因在多种物种的耐旱性中发挥重要作用。本实验的目的是鉴定 GAPCp2 和 GAPCp3 启动子序列中可能对干旱胁迫作出响应的核心顺式调控元件。

结果

本研究克隆了 GAPCp2 和 GAPCp3 的启动子。通过调控 Rluc 报告基因的表达，发现这些启动子在非生物胁迫下的活性显著提高，而启动子序列分析表明这些片段几乎不相同。在表达 GUS 报告基因的转基因拟南芥中，该基因在除种子以外的几乎所有组织中均具有较强活性，且在非生物胁迫后活性被诱导。酵母单杂交系统和 EMSA 实验表明 TaMYB 结合 TaGAPCp2P/3P。通过分析这些启动子的不同 5'缺失突变体，确定 TaGAPCp2P（-1312~~-528）和 TaGAPCp3P（-2049~~-610），包括 MYB 结合位点，含有增强子元件，可在干旱胁迫下提高基因表达水平。我们使用效应子和报告子共转化烟草，发现 TaMYB 在植物细胞中与 TaGAPCp2P（-1197~~-635）和 TaGAPCp3P（-1456~~-1144 和-718~-610）的特定 MYB 结合位点相互作用。然后，Y1H 系统和 EMSA 分析表明，TaGAPCp2P（-1135 和-985）和 TaGAPCp3P（-1414 和-665）中的这些 MYB 结合位点是 TaMYB 的靶顺式元件。启动子片段中特定 MYB 结合位点的缺失显著抑制了干旱响应，这些结果证实这些 MYB 结合位点（AACTAAA/C）在提高干旱胁迫下的转录水平中发挥着重要作用。在瞬时过表达 TaMYB 的小麦原生质体中进行 qRT-PCR 的结果表明，非生物胁迫诱导的 TaGAPCp2/3 的表达受 TaMYB 上调。

结论

鉴定出 TaGAPCp2P/3P 中的 MYB 结合位点（AACTAAA/C）是响应干旱胁迫的关键顺式元件，并被转录因子 TaMYB 结合。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/94e0/6701022/a979de22327b/12870_2019_1948_Fig1_HTML.jpg

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小麦中 TaMYB 在 GAPCp2/3 启动子上结合的特定 MYB 结合位点参与干旱胁迫响应。

The specific MYB binding sites bound by TaMYB in the GAPCp2/3 promoters are involved in the drought stress response in wheat.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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