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Abstract
Before it was banned, sodium arsenite was the unique fungicide able to control fungi associated with grapevine trunk diseases. However, its mode of action has not been fully elucidated yet. This study focuses on the identification of arsenic(III)-binding proteins using an arsenic-based fluorescent probe and an arsenic-based affinity chromatography. To the best of our knowledge, this is the first comparative study of these techniques to demonstrate their complementarity. Mainly cysteine-rich proteins were identified, the majority of which are involved in the infection process, in particular in plant cell wall degradation, host-pathogen interaction, adhesion and pathogenicity. These proteins could therefore be relevant targets for the development of new ways of grapevine trunk disease control.
Supplementary materials
Title
Proteomic data
Description
The file contains the proteomics data for each band analyzed as well as the Uniprot database of N. parvum from December 2024, the results of subcellular location prediction of the proteins of interest and the list of proteins with vicinal thiols.
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Title
Supplementary data
Description
The file contains additional information on the fluorescence intensities of the synthesized probes as a function of concentration and pH, as well as images of the three-dimensional structures of the proteins used as reference.
It also contains additional SDS-PAGE gel images.
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