| Literature DB >> 27717481 |
Hongping Chang1, Dandan Chen2, Jason Kam3, Terese Richardson4, Janneke Drenth5, Xinhong Guo6, C Lynne McIntyre7, Shoucheng Chai8, Anne L Rae9, Gang-Ping Xue10.
Abstract
Q-type C2H2 zinc finger proteins (ZFPs) are plant-specific DNA-binding proteins containing a conserved QALGGH motif. This study investigated the function of abiotic stress-inducible and predominantly root-expressed Triticum aestivum ZFPs (TaZFP22, TaZFP34 and TaZFP46) with a focus on TaZFP34. Expression of TaZFP34 in roots was upregulated by high salinity, dehydration, oxidative and cold stresses. Overexpression of TaZFP34 in wheat roots resulted in an increased root-to-shoot ratio, a phenomenon observed during plant adaptation to drying soil. Expression of a number of genes which are potentially involved in modulating root growth was significantly altered in the roots of TaZFP34 overexpressing lines. In particular, the transcript levels of TaRR12B, TaRR12D and TaSHY2 that are homologues of known negative regulators of root growth were significantly reduced. Expression of shoot growth-related genes, such as GA3-ox and expansins, was downregulated in the transgenic shoots. TaZFP34 bound to (C/G)AGT(G/A)-like elements in the promoters of TaZFP34 down-regulated TaRR12D and TaSHY2 and transrepressed the reporter gene expression driven by TaRR12D and TaSHY2 promoters. Expression of the above reporter genes was also repressed by TaZFP46 and TaZFP22. These data suggest that TaZFP34 is a transcriptional repressor and is involved in modulating the root-to-shoot ratio.Entities:
Keywords: C(2)H(2) zinc finger proteins; Drought stress; Root and shoot growth; Root-specific expression; Transcriptional repressor; Wheat
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Year: 2016 PMID: 27717481 DOI: 10.1016/j.plantsci.2016.07.011
Source DB: PubMed Journal: Plant Sci ISSN: 0168-9452 Impact factor: 4.729