从小麦中克隆的 MYB-CC 转录因子 TaMYBsm3 参与耐旱性。

MYB-CC transcription factor, TaMYBsm3, cloned from wheat is involved in drought tolerance.

机构信息

Shijiazhuang Academy of Agriculture and Forestry Sciences, No.479 Shengli North Street, Chang'an district, Shijiazhuang, 050041, Hebei Province, China.

Dryland Farming Institute, Hebei Academy of Agriculture and Forestry Sciences, Hengshui, 053000, China.

出版信息

BMC Plant Biol. 2019 Apr 15;19(1):143. doi: 10.1186/s12870-019-1751-9.

DOI:10.1186/s12870-019-1751-9

PMID:30987595

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6466810/

Abstract

BACKGROUND

MYB-CC transcription factors (TFs) genes have been demonstrated to be involved in the response to inorganic phosphate (Pi) starvation and regulate some Pi-starvation-inducible genes. However, their role in drought stress has not been investigated in bread wheat. In this study, the TaMYBsm3 genes, including TaMYBsm3-A, TaMYBsm3-B, and TaMYBsm3-D, encoding MYB-CC TF proteins in bread wheat, were isolated to investigate the possible molecular mechanisms related to drought-tolerance in plants.

RESULTS

TaMYBsm3-A, TaMYBsm3-B, and TaMYBsm3-D were mapped on chromosomes 6A, 6B, and 6D in wheat, respectively. TaMYBsm3 genes belonged to MYB-CC TFs, containing a conserved MYB DNA-binding domain and a conserved coiled-coil domain. TaMYBsm3-D was localized in the nucleus, and the N-terminal region was a transcriptional activation domain. TaMYBsm3 genes were ubiquitously expressed in different tissues of wheat, and especially highly expressed in the stamen and pistil. Under drought stress, transgenic plants exhibited milder wilting symptoms, higher germination rates, higher proline content, and lower MDA content comparing with the wild type plants. P5CS1, DREB2A, and RD29A had significantly higher expression in transgenic plants than in wild type plants.

CONCLUSION

TaMYBsm3-A, TaMYBsm3-B, and TaMYBsm3-D were associated with enhanced drought tolerance in bread wheat. Overexpression of TaMYBsm3-D increases the drought tolerance of transgenic Arabidopsis through up-regulating P5CS1, DREB2A, and RD29A.

摘要

背景

MYB-CC 转录因子 (TF) 基因已被证明参与对无机磷 (Pi) 饥饿的反应，并调节一些 Pi 饥饿诱导的基因。然而，它们在小麦干旱胁迫中的作用尚未被研究。本研究分离了包括 TaMYBsm3-A、TaMYBsm3-B 和 TaMYBsm3-D 在内的 TaMYBsm3 基因，这些基因编码小麦中的 MYB-CC TF 蛋白，以研究与植物耐旱性相关的可能分子机制。

结果

TaMYBsm3-A、TaMYBsm3-B 和 TaMYBsm3-D 分别被定位在小麦 6A、6B 和 6D 染色体上。TaMYBsm3 基因属于 MYB-CC TF，含有保守的 MYB DNA 结合域和保守的卷曲螺旋域。TaMYBsm3-D 定位于细胞核内，N 端区域是转录激活域。TaMYBsm3 基因在小麦不同组织中广泛表达，在雄蕊和雌蕊中表达量较高。在干旱胁迫下，与野生型植株相比，转基因植株表现出较轻的萎蔫症状、更高的发芽率、更高的脯氨酸含量和更低的 MDA 含量。P5CS1、DREB2A 和 RD29A 在转基因植株中的表达明显高于野生型植株。

结论

TaMYBsm3-A、TaMYBsm3-B 和 TaMYBsm3-D 与提高小麦的耐旱性有关。过表达 TaMYBsm3-D 通过上调 P5CS1、DREB2A 和 RD29A 增加转基因拟南芥的耐旱性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c2ef/6466810/7fb3017cdf27/12870_2019_1751_Fig1_HTML.jpg

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从小麦中克隆的 MYB-CC 转录因子 TaMYBsm3 参与耐旱性。

MYB-CC transcription factor, TaMYBsm3, cloned from wheat is involved in drought tolerance.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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