8 research outputs found
An apoplastic fluid extraction method for the characterization of grapevine leaves proteome and metabolome from a single sample
The analysis of complex biological systems keeps challenging
researchers. The main goal of systems biology is to decipher interactions
within cells, by integrating datasets from large scale analytical
approaches including transcriptomics, proteomics and metabolomics
andmore specialized âOMICSâ such as epigenomics and lipidomics. Studying
different cellular compartments allows a broader understanding of cell
dynamics. Plant apoplast, the cellular compartment external to the plasma
membrane including the cell wall, is particularly demanding to analyze.
Despite our knowledge on apoplast involvement on several processes from
cell growth to stress responses, its dynamics is still poorly known due to the
lack of efficient extraction processes adequate to each plant system.Analyzing
woody plants such as grapevine raises even more challenges. Grapevine is
among the most important fruit crops worldwide and awider characterization
of its apoplast is essential for a deeper understanding of its physiology and cellular
mechanisms. Here, we describe, for the first time, a vacuum-infiltrationcentrifugationmethod
that allows a simultaneous extraction of grapevine apoplastic
proteins and metabolites from leaves on a single sample, compatible
with high-throughput mass spectrometry analyses. The extracted apoplast
from two grapevine cultivars, Vitis vinifera cv âTrincadeiraâ and âRegentâ, was
directly used for proteomics and metabolomics analysis. The proteome was
analyzed by nanoLC-MS/MS and more than 700 common proteinswere identified,
with highly diverse biological functions. The metabolome profile
through FT-ICR-MS allowed the identification of 514 unique putative compounds
revealing a broad spectrum of molecular classesinfo:eu-repo/semantics/publishedVersio