| Literature DB >> 28627019 |
Hui Chen1, Yanyong Cao2, Yiqing Li3, Zihao Xia1, Jipeng Xie1, John P Carr4, Boming Wu1, Zaifeng Fan1, Tao Zhou1.
Abstract
Sugarcane mosaic virus (SCMV) is the most important cause of maize dwarf mosaic disease. To identify maize genes responsive to SCMV infection and that may be involved in pathogenesis, a comparative proteomic analysis was performed using the first and second systemically infected leaves (termed 1 SL and 2 SL, respectively). Seventy-one differentially expressed proteins were identified in 1 SL and 2 SL upon SCMV infection. Among them, eight proteins showed the same changing patterns in both 1 SL and 2 SL. Functional annotations of regulated proteins and measurement of photosynthetic activity revealed that photosynthesis was more inhibited and defensive gene expression more pronounced in 1 SL than in 2 SL. Knockdown of regulated proteins in both 1 SL and 2 SL by a brome mosaic virus-based gene silencing vector in maize indicated that protein disulfide isomerase-like and phosphoglycerate kinase were required for optimal SCMV replication. By contrast, knockdown of polyamine oxidase (ZmPAO) significantly increased SCMV accumulation, implying that ZmPAO activity might contribute to resistance or tolerance. The results suggest that combining comparative proteomic analyses of different tissues and virus-induced gene silencing is an efficient way to identify host proteins supporting virus replication or enhancing resistance to virus infection.Entities:
Keywords: zzm321990Zea mayszzm321990; comparative proteomics; maize dwarf mosaic disease; phosphoglycerate kinase; polyamine oxidase; potyvirus; protein disulfide isomerase; virus-induced gene silencing
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Year: 2017 PMID: 28627019 DOI: 10.1111/nph.14645
Source DB: PubMed Journal: New Phytol ISSN: 0028-646X Impact factor: 10.151