Fusarium oxysporum mediates systems metabolic reprogramming of chickpea roots as revealed by a combination of proteomics and metabolomics

作者： Yashwant Kumar ¹ Limin Zhang ² Priyabrata Panigrahi ¹ Bhushan B. Dholakia ¹ Veena Dewangan ¹ Sachin G. Chavan ¹ Shrikant M. Kunjir ³ Xiangyu Wu ² Ning Li ² Pattuparambil R. Rajmohanan ³ Narendra Y. Kadoo ¹ Ashok P. Giri ¹ Huiru Tang ^2,4 Vidya S. Gupta ¹
作者单位：

1. Division of Biochemical Sciences, CSIR-National Chemical Laboratory, Pune, India

2. Key Laboratory of Magnetic Resonance in Biological Systems, National Centre for Magnetic Resonance in Wuhan, Wuhan Institute of Physics and Mathematics, Chinese Academy of Sciences, Wuhan, China

3. Central NMR Facility, CSIR-National Chemical Laboratory, Pune, India

4. State Key Laboratory of Genetic Engineering, Metabolomics and Systems Biology Laboratory, School of Life Sciences, Fudan University, Shanghai, China
提交时间：2016-05-04 09:16:36

摘要: Molecular changes elicited by plants in response to fungal attack and how this affects plant–pathogen interaction, including susceptibility or resistance, remain elusive. We studied the dynamics in root metabolism during compatible and incompatible interactions between chickpea and Fusarium oxysporum f. sp. ciceri (Foc), using quantitative label-free proteomics and NMR-based metabolomics. Results demonstrated differential expression of proteins and metabolites upon Foc inoculations in the resistant plants compared with the susceptible ones. Additionally, expression analysis of candidate genes supported the proteomic and metabolic variations in the chickpea roots upon Foc inoculation. In particular, we found that the resistant plants revealed significant increase in the carbon and nitrogen metabolism; generation of reactive oxygen species (ROS), lignification and phytoalexins. The levels of some of the pathogenesis-related proteins were significantly higher upon Foc inoculation in the resistant plant. Interestingly, results also exhibited the crucial role of altered Yang cycle, which contributed in different methylation reactions and unfolded protein response in the chickpea roots against Foc. Overall, the observed modulations in the metabolic flux as outcome of several orchestrated molecular events are determinant of plant's role in chickpea–Foc interactions.

Chickpea Fusarium oxysporum plant&ndash pathogen interaction proteomics metabolomics NMR

期刊： Plant Biotechnology Journal
分类： 生物学 >> 植物学 >> 植物生物化学、植物生物物理学
引用： ChinaXiv:201605.00480 (或此版本 ChinaXiv:201605.00480V1)
DOI:10.12074/201605.00480V1
CSTR:32003.36.ChinaXiv.201605.00480.V1
推荐引用方式： Yashwant Kumar,Limin Zhang,Priyabrata Panigrahi,Bhushan B. Dholakia,Veena Dewangan,Sachin G. Chavan,Shrikant M. Kunjir,Xiangyu Wu,Ning Li,Pattuparambil R. Rajmohanan,Narendra Y. Kadoo,Ashok P. Giri,Huiru Tang,Vidya S. Gupta.(2016).Fusarium oxysporum mediates systems metabolic reprogramming of chickpea roots as revealed by a combination of proteomics and metabolomics.Plant Biotechnology Journal.[ChinaXiv:201605.00480] (点此复制)

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2016-05-04 09:16:36

ChinaXiv:201605.00480V1

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