新开发的定量激活系统显示，在 DRE/CRT 元件上，葡萄 CBF 转录因子的激活存在差异。

Newly developed quantitative transactivation system shows difference in activation by Vitis CBF transcription factors on DRE/CRT elements.

机构信息

Department of Molecular and Cellular Biology, University of Guelph, Guelph, Ontario N1G 2 W1 Canada.

出版信息

Plant Methods. 2014 Oct 3;10(1):32. doi: 10.1186/1746-4811-10-32. eCollection 2014.

DOI:10.1186/1746-4811-10-32

PMID:25317201

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4196112/

Abstract

BACKGROUND

Agroinfiltration-based transactivation systems can determine if a protein functions as a transcription factor, and via which promoter element. However, this activation is not always a yes or no proposition. Normalization for variation in plasmid delivery into plant cells, sample collection and protein extraction is desired to allow for a quantitative comparison between transcription factors or promoter elements.

RESULTS

We developed new effector and reporter plasmids which carry additional reporter genes, as well as a procedure to assay all three reporter enzymes from a single extract. The applicability of these plasmids was demonstrated with the analysis of CBF transcription factors and their target promoter sequence, DRE/CRT. Changes in the core DRE/CRT sequence abolished activation by Vitis CBF1 or Vitis CBF4, whereas changes in the surrounding sequence lowered activation by Vitis CBF1 but much less so for Vitis CBF4. The system also detected a reduction in activation due to one amino acid change in Vitis CBF1.

CONCLUSIONS

The newly developed effector and reporter plasmids improve the ability to quantitatively compare the activation on two different promoter elements by the same transcription factor, or between two different transcription factors on the same promoter element. The quantitative difference in activation by VrCBF1 and VrCBF4 on various DRE/CRT elements support the hypothesis that these transcription factors have unique roles in the cold acclimation process.

摘要

背景

基于农杆菌浸润的转录激活系统可以确定蛋白质是否作为转录因子发挥作用，以及通过哪个启动子元件发挥作用。然而，这种激活并不总是非此即彼的命题。需要对质粒递送到植物细胞、样品收集和蛋白质提取的变化进行归一化，以允许在转录因子或启动子元件之间进行定量比较。

结果

我们开发了新的效应子和报告子质粒，它们携带额外的报告基因，以及一种从单个提取物中测定所有三种报告酶的程序。这些质粒的适用性通过对 CBF 转录因子及其靶启动子序列 DRE/CRT 的分析得到了证明。核心 DRE/CRT 序列的变化消除了 Vitis CBF1 或 Vitis CBF4 的激活，而周围序列的变化降低了 Vitis CBF1 的激活，但对 Vitis CBF4 的影响要小得多。该系统还检测到由于 Vitis CBF1 中的一个氨基酸变化导致的激活减少。

结论

新开发的效应子和报告子质粒提高了定量比较同一转录因子在两个不同启动子元件上的激活、或两个不同转录因子在同一启动子元件上的激活的能力。VrCBF1 和 VrCBF4 在各种 DRE/CRT 元件上的激活差异支持了这些转录因子在低温驯化过程中具有独特作用的假设。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6d9a/4196112/0d68747b38d1/13007_2014_299_Fig1_HTML.jpg

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新开发的定量激活系统显示，在 DRE/CRT 元件上，葡萄 CBF 转录因子的激活存在差异。

Newly developed quantitative transactivation system shows difference in activation by Vitis CBF transcription factors on DRE/CRT elements.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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