Postharvest senescence profiling in broccoli using Tandem Mass Tag-based proteomics

Postharvest senescence profiling in broccoli using Tandem Mass Tag-based proteomics

Harvesting fresh produce induces countless changes in different metabolic processes, initiating senescence of the plant tissue. Understanding the changes in protein expression and activity during postharvest senescence can help identify the networks that contribute to quality loss and shelf-life red...

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Bibliographic Details
Main Authors: Yogesh K. Ahlawat, Utsab Ghimire, Song Li, Prakash Timilsena, Eleni D. Pliakoni, Jeffrey K. Brecht, Tie Liu
Format: Article
Language:English
Published: Maximum Academic Press 2024-01-01
Series:Vegetable Research
Subjects:
postharvest
senescences
broccolis
proteomics
Online Access:https://www.maxapress.com/article/doi/10.48130/vegres-0024-0009
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Summary:Harvesting fresh produce induces countless changes in different metabolic processes, initiating senescence of the plant tissue. Understanding the changes in protein expression and activity during postharvest senescence can help identify the networks that contribute to quality loss and shelf-life reduction in produce. Identifying these proteins can lead to strategies for extending fruits' and vegetables' freshness and shelf life. In this study, we investigated the proteome-level changes in harvested broccoli florets stored at either room temperature (25 °C) or in refrigerated conditions (4 °C) using Tandem Mass Tag technology (TMT). A lower storage temperature reduced the levels of proteins involved in ubiquitin-dependent and ubiquitin-independent protein degradation pathways mediated by the 20S and 26S proteasomes and in the RNA-Induced Silencing Complex (RISC) associated with the small interfering RNA (siRNA) pathway. Moreover, we identified protein kinases, transcription factors, and dehydration-related proteins, as well as mapped chemical interaction networks and key pathways active during broccoli senescence. Pathways related to autophagy, ribosome biosynthesis, and carbon metabolism were significantly downregulated under cold temperatures. Proteins related to chlorophyll and reactive oxygen species (ROS) pathways were differentially expressed in harvested broccoli stored at room temperature. The current report facilitates a comprehensive understanding of the complex regulatory orchestration that builds a protein network that could be used for future endeavors in improving the postharvest shelf life of broccoli.
ISSN:2769-0520

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