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全转录组范围内鉴定面包小麦响应干旱胁迫的WRKY转录因子

Transcriptome-wide identification of bread wheat WRKY transcription factors in response to drought stress.

作者信息

Okay Sezer, Derelli Ebru, Unver Turgay

机构信息

Department of Biology, Faculty of Science, Çankırı Karatekin University, 18100, Çankırı, Turkey,

出版信息

Mol Genet Genomics. 2014 Oct;289(5):765-81. doi: 10.1007/s00438-014-0849-x. Epub 2014 Apr 19.

DOI:10.1007/s00438-014-0849-x
PMID:24748053
Abstract

The WRKY superfamily of transcription factors was shown to be involved in biotic and abiotic stress responses in plants such as wheat (Triticum aestivum L.), one of the major crops largely cultivated and consumed all over the world. Drought is an important abiotic stress resulting in a considerable amount of loss in agronomical yield. Therefore, identification of drought responsive WRKY members in wheat has a profound significance. Here, a total of 160 TaWRKY proteins were characterized according to sequence similarity, motif varieties, and their phylogenetic relationships. The conserved sequences of the TaWRKYs were aligned and classified into three main groups and five subgroups. A novel motif in wheat, WRKYGQR, was identified. To putatively determine the drought responsive TaWRKY members, publicly available RNA-Seq data were analyzed for the first time in this study. Through in silico searches, 35 transcripts were detected having an identity to ten known TaWRKY genes. Furthermore, relative expression levels of TaWRKY16/TaWRKY16-A, TaWRKY17, TaWRKY19-C, TaWRKY24, TaWRKY59, TaWRKY61, and TaWRKY82 were measured in root and leaf tissues of drought-tolerant Sivas 111/33 and susceptible Atay 85 cultivars. All of the quantified TaWRKY transcripts were found to be up-regulated in root tissue of Sivas 111/33. Differential expression of TaWRKY16, TaWRKY24, TaWRKY59, TaWRKY61 and TaWRKY82 genes was discovered for the first time upon drought stress in wheat. These comprehensive analyses bestow a better understanding about the WRKY TFs in bread wheat under water deficit, and increased number of drought responsive WRKYs would contribute to the molecular breeding of tolerant wheat cultivars.

摘要

转录因子WRKY超家族被证明参与了植物对生物和非生物胁迫的响应,如小麦(Triticum aestivum L.),它是全球广泛种植和消费的主要作物之一。干旱是一种重要的非生物胁迫,会导致大量的农业产量损失。因此,鉴定小麦中响应干旱的WRKY成员具有深远意义。在此,根据序列相似性、基序种类及其系统发育关系,对总共160个TaWRKY蛋白进行了表征。对TaWRKYs的保守序列进行比对并分为三个主要组和五个亚组。在小麦中鉴定出一个新的基序WRKYGQR。为了推测性地确定响应干旱的TaWRKY成员,本研究首次分析了公开可用的RNA-Seq数据。通过电子搜索,检测到35个转录本与10个已知的TaWRKY基因具有同一性。此外,还测定了耐旱品种锡瓦斯111/33和感旱品种阿泰85的根和叶组织中TaWRKY16/TaWRKY16-A、TaWRKY17、TaWRKY19-C、TaWRKY24、TaWRKY59、TaWRKY61和TaWRKY82的相对表达水平。发现所有定量的TaWRKY转录本在锡瓦斯111/33的根组织中均上调。首次发现TaWRKY16、TaWRKY24、TaWRKY59、TaWRKY61和TaWRKY82基因在小麦干旱胁迫下存在差异表达。这些综合分析有助于更好地了解水分亏缺条件下面包小麦中的WRKY转录因子,而增加响应干旱的WRKY数量将有助于耐旱小麦品种的分子育种。

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