posted on 2024-05-17, 09:29authored byCailin Kong, Qi Zhang, Yiqing Wang, Jie Huang, Aihua Li, Yongsheng Tao
This study extensively characterized yeast polysaccharides
(YPs)
from Pichia fermentans (PF) and Pichia kluyveri (PK), with a specific focus on their
structural attributes and their interaction with wine fruity esters
in a model wine system. By finely tuning enzymatic reactions based
on temperature, pH, and enzyme dosage, an optimal YP yield of 77.37%
was achieved, with a specific mass ratio of cellulase, pectinase,
and protease set at 3:5:2. There were four YP fractions (YPPF-W, YPPF-N,
YPPK-W, and YPPK-N) isolated from the two yeasts. YPPF-N and YPPK-N
were identified as glucans based on monosaccharide analysis and Fourier-transform
infrared spectroscopy analysis. “Specific degradation–methylation–nuclear
magnetic” elucidated YPPF-W’s backbone structure as
1,3-linked α-l-Man and 1,6-linked α-d-Glc residues, while YPPK-W displayed a backbone structure of 1,3-linked
α-Man residues, indicative of a mannoprotein nature. Isothermal
titration calorimetry revealed spontaneous interactions between YPPK-W/YPPF-W
and fruity esters across temperatures (25–45 °C), with
the strongest interaction observed at 30 °C. However, distinct
esters exhibited varying interactions with YPPK-W and YPPF-W, attributed
to differences in molecular weights and hydrophobic characteristics.
While shedding light on these intricate interactions, further experimental
data is essential for a comprehensive understanding of yeast polysaccharides’
or mannoproteins’ impact on fruity esters. This research significantly
contributes to advancing our knowledge of yeast polysaccharides’
role in shaping the nuanced sensory attributes of wine.