Introduction: Oenococcus oeni is involved in the malolactic fermentation and its metabolic activities can modify the taste, aromatic properties, and microbial stability of wine. For this reason, there is growing interest in formulate starter cultures from it, as the resistance to the harsh environment of wine is strictly strain-dependent.

Methods: To investigate the effect of ethanol stress on cell physiology, we characterized the proteome and phosphoproteome of O. oeni DSPZS12 from Aglianico wine produced in the Vulture zone (Basilicata region, Southern Italy). Total proteins were separated by two-dimensional gel electrophoresis and identified by MALDI-TOF mass spectrometry and ElectroSpray Ionization-Fourier Transform Ion Cyclotron Resonance Mass Spectrometry (ESI-ICR/FT-MS). Proteins exhibiting Post-Translation Modification (PTM), especially phosphorilation on Ser, Thr, or Tyr, were also investigated. For protein identification, we chose a bottom-up approach and we performed Peptide Mass Fingerprinting (PMF) and tandem MS analyses. A total of 133 peptide and 99 proteins were identified; in addition, MS/MS data processing leads to the identification of 78 phosphorylated peptides from 50 spots and 39 proteins.

Results: The presence of ethanol promoted a shutdown of several proteins involved in energy/carbohydrate metabolism, protein synthesis and stress response. Moreover, changes in cell physiology are often accompanied by the modulation of gene expression profiles to ensure cell vitality and proliferation. So, we also investigated the transcriptome expression profile of O. oeni DSPZS12 strain by quantitative Real Time PCR (qPCR) that allowed us to identify and characterize the differentially expressed genes and the pathways most influenced by stress conditions tested, such as the regeneration of NADPH and maintenance of redox balance and the cell morphology, involving peptidoglycan biosynthesis and cell wall components.

Conclusions: O. oeni is able to respond to environmental changes by varying its gene expression and implementing a series of mechanisms that ensure its survival and the performance of its vital functions.