posted on 2021-11-18, 16:06authored byJoon Hyuk Suh, Robert T. Madden, Jeehye Sung, Alan H. Chambers, Jonathan Crane, Yu Wang
Mango
is a tropical fruit with global demand as a result of its
high sensory quality and nutritional attributes. Improving fruit quality
at the consumer level could increase demand, but fruit quality is
a complex trait requiring a deep understanding of flavor development
to uncover key pathways that could become targets for improving sensory
quality. Here, a pathway-based metabolomics (untargeted and targeted)
approach was used to explore biosynthetic mechanisms of key flavor
compounds with five core metabolic pathways (butanoate metabolism,
phenylalanine biosynthesis and metabolism, terpenoid backbone biosynthesis,
linoleic and linolenic acid pathway, and carbon fixation and sucrose
metabolism) in three mango cultivars. The relationships between flavor
precursors and flavor compounds were identified using correlation
analysis. With these novel strategies, differentially regulated metabolic
flux through the pathways was first elucidated, demonstrating possible
mechanisms of key flavor formation and regulation in mango fruits.