Title |
Proteomic discovery of H2O2 response in roots and functional characterization of PutGLP gene from alkaligrass
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Published in |
Planta, July 2018
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DOI | 10.1007/s00425-018-2940-8 |
Pubmed ID | |
Authors |
Juanjuan Yu, Yongxue Zhang, Junming Liu, Lin Wang, Panpan Liu, Zepeng Yin, Siyi Guo, Jun Ma, Zhuang Lu, Tai Wang, Yimin She, Yuchen Miao, Ling Ma, Sixue Chen, Ying Li, Shaojun Dai |
Abstract |
Hydrogen peroxide-responsive pathways in roots of alkaligrass analyzed by proteomic studies and PutGLP enhance the plant tolerance to saline-, alkali- and cadmium-induced oxidative stresses. Oxidative stress adaptation is critical for plants in response to various stress environments. The halophyte alkaligrass (Puccinellia tenuiflora) is an outstanding pasture with strong tolerance to salt and alkali stresses. In this study, iTRAQ- and 2DE-based proteomics approaches, as well as qRT-PCR and molecular genetics, were employed to investigate H2O2-responsive mechanisms in alkaligrass roots. The evaluation of membrane integrity and reactive oxygen species (ROS)-scavenging systems, as well as abundance patterns of H2O2-responsive proteins/genes indicated that Ca2+-mediated kinase signaling pathways, ROS homeostasis, osmotic modulation, and transcriptional regulation were pivotal for oxidative adaptation in alkaligrass roots. Overexpressing a P. tenuiflora germin-like protein (PutGLP) gene in Arabidopsis seedlings revealed that the apoplastic PutGLP with activities of oxalate oxidase and superoxide dismutase was predominantly expressed in roots and played important roles in ROS scavenging in response to salinity-, alkali-, and CdCl2-induced oxidative stresses. The results provide insights into the fine-tuned redox-responsive networks in halophyte roots. |
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Student > Ph. D. Student | 2 | 18% |
Professor | 1 | 9% |
Other | 1 | 9% |
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Agricultural and Biological Sciences | 2 | 18% |
Chemistry | 1 | 9% |
Engineering | 1 | 9% |
Unknown | 7 | 64% |