Título:	Metabolomic exhibits different profiles and potential biomarkers of Vitis spp. co-cultivated with Fusarium oxysporum for short, medium, and long times.
Autor:	COSTA, I. R. S. C. CAVALCANTE, F. L. P. CAVALCANTI, F. R. FERNANDES, C. de F. GOMES-FILHO, E. CANUTO, K. M. CARVALHO, H. H. DE
Afiliación:	IGOR RAFAEL SOUSA COSTA, FEDERAL UNIVERSITY OF CEARÁ; FRANCISCO LUCAS PACHECO CAVALCANTE, FEDERAL UNIVERSITY OF CEARÁ; FABIO ROSSI CAVALCANTI, CNPUV; CLEBERSON DE FREITAS FERNANDES, CNPAT; ENÉAS GOMES-FILHO, FEDERAL UNIVERSITY OF CEARÁ; KIRLEY MARQUES CANUTO, CNPAT; HUMBERTO HENRIQUE DE CARVALHO, FEDERAL UNIVERSITY OF CEARÁ.
Año:	2023
Referencia:	Physiologia Plantarum, v. 175, e13918, April 2023.
Descripción:	Differential rootstock tolerance to Fusarium spp. supports viticulture worldwide. However, how plants stand against the fungus still needs to be explored. We hypothesize it involves a differential metabolite modulation. Thus, we performed a gas chromatography coupled with mass spectrometry (GC?MS) analysis of Paulsen P1103 and BDMG573 rootstocks, co-cultured with Fusarium oxysporum (FUS) for short, medium, and long time (0, 4, and 8 days after treatment [DAT]). In shoots, principal component analysis (PCA) showed a complete overlap between BDMG573 non-cocultivated and FUS at 0 DAT, and P1103 treatments showed a slight overlap at both 4 and 8 DAT. In roots, PCA exhibited overlapping between BDMG573 treatments at 0 DAT, while P1103 treatments showed overlapping at 0 and 4 DAT. Further, there is a complete overlapping between BDMG573 and P1103 FUS profiles at 8 DAT. In shoots, 1,3-dihydroxyacetone at 0 and 4 DAT and maltose at 4 and 8 DAT were biomarkers for BDMG573. For P1103, glyceric acid, proline, and sorbitol stood out at 0, 4, and 8 DAT, respectively. In BDMG573 roots, the biomarkers were β-alanine at 0 DAT, cellobiose and sorbitol at both 4 and 8 DAT. While in P1103 roots, they were galactose at 0 and 4 DAT and 1,3-dihydroxyacetone at 8 DAT. Overall, there is an increase in amino acids, glycolysis, and tricarboxylic acid components in tolerant Paulsen P1103 shoots. Thus, it provides a new perspective on the primary metabolism of grapevine rootstocks to F. oxysporum that may contribute to strategies for genotype tolerance and early disease identification.
Thesagro:	Fusarium Fusarium Oxysporum
Palabras clave:	Paulsen P1103 Paulsen BDMG573 Fusarium spp
DOI:	10.1111/ppl.13918
Tipo de Material:	Artigo de periódico
Acceso:	openAccess
Aparece en las colecciones:	Artigo em periódico indexado (CNPUV)