MassIVE MSV000085942

Partial Public PXD020876

Deep learning neural network prediction method improves proteome profiling of vascular sap of grapevines during Pierces disease development

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Description

Plant secretome studies have shown the importance of plant defense proteins in the vascular system against pathogens. Studies on Pierces disease of grapevines caused by the xylem-limited bacteria Xylella fastidiosa Xf have detected proteins and pathways associated to its pathobiology. Despite the biological importance of the secreted proteins in the extracellular space to plant survival and development, proteome studies are scarce due to technical and technological challenges. Prosit, a deep learning neural network prediction method can provide powerful tool for improving proteome profiling by data-independent acquisition DIA. We aimed to explore the potential of this strategy by combining it with in silico spectral library prediction tool to analyze the proteome of vascular leaf sap of grapevines with Pierces disease. The results demonstrate that the combination of DIA and Prosit increased the total number of identified proteins from 145 to 360 for grapevines and 18 to 90 for Xf. The new proteins increased the range of molecular weight, assisted on the identification of more exclusive peptides per protein, and increased the identification of low abundance proteins. These improvements allowed the identification of new functional pathways associated with cellular responses to oxidative stress to be further investigated. [doi:10.25345/C5216R] [dataset license: CC0 1.0 Universal (CC0 1.0)]

Keywords: predicted spectral library ; quantitative proteomics ; Prosit ; apoplast ; xylem sap ; grapevine ; Pierces Disease ; secretome

Contact

Principal Investigators:
(in alphabetical order) 		Abhaya M. Dandekar, 1Department of Plant Sciences, University of California, Davis, United States
Submitting User: brettsp1

Publications

Helena Duarte Sagawa C, Zaini PA, de A B Assis R, Saxe H, Salemi M, Jacobson A, Wilmarth PA, Phinney BS, M Dandekar A.
Deep Learning Neural Network Prediction Method Improves Proteome Profiling of Vascular Sap of Grapevines during Pierce's Disease Development.
Biology (Basel). Epub 2020 Sep 1.

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