期刊
PHYSIOLOGY AND MOLECULAR BIOLOGY OF PLANTS
卷 27, 期 7, 页码 1559-1575出版社
SPRINGER
DOI: 10.1007/s12298-021-01025-y
关键词
Cytoplasm; Nucleus; Fusarium wilt; In vivo; XSP10; SlSAMT
资金
- Science and Engineering Research Board (SERB) [SB/S2/RJN-078/2014, ECR/2016/001288]
The study identified Xylem sap protein 10 (XSP10) and Salicylic acid methyl transferase (SlSAMT) as potential negative regulatory genes associated with Fusarium wilt of tomato. The expression analysis showed higher expression of XSP10 and SlSAMT in root and flower tissue of different tomato cultivars, with stronger up-regulation in a susceptible cultivar compared to a multiple disease resistant cultivar, indicating the disease susceptibility nature of these genes. Sub-cellular localization analysis revealed that XSP10 mainly localized in the nucleus and SlSAMT in the cytoplasm, and a strong in vivo protein-protein interaction between XSP10 and SlSAMT in regulating responses to Fusarium wilt tolerance in tomato.
Fusarium wilt caused by Fusarium oxysporum f. sp. lycopersici (Fol) is a major fungal disease of tomato (Solanum lycopersicum L.). Xylem sap protein 10 (XSP10) and Salicylic acid methyl transferase (SlSAMT) have been identified as putative negative regulatory genes associated with Fusarium wilt of tomato. Despite their importance as potential genes for developing Fusarium wilt disease tolerance, very little knowledge is available about their expression, cell biology, and functional genomics. Semi-quantitative and quantitative real-time PCR expression analysis of XSP10 and SlSAMT, in this study, revealed higher expression in root and flower tissue respectively in different tomato cultivars viz. Micro-Tom (MT), Arka Vikas (AV), and Arka Abhed (AA). Therefore, the highly up-regulated expression of XSP10 and SlSAMT in biotic stress susceptible tomato cultivar (AV) than a multiple disease resistant cultivar (AA) suggested the disease susceptibility nature of these genes for Fusarium wilt. Sub-cellular localization analysis through the expression of gateway cloning constructs in tomato protoplasts and seedlings showed the predominant localization of XSP10 in the nucleus and SlSAMT at the cytoplasm. A strong in vivo protein-protein interaction of XSP10 with SlSAMT at cytoplasm from bi-molecular fluorescent complementation study suggested that these two proteins function together in regulating responses to Fusarium wilt tolerance in tomato.
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