Metabolite profiles of green leaves and coffee beans as predictors of coffee sensory quality in Robusta (Coffea canephora) germplasm from the Democratic Republic of the Congo

Metabolite profiles of green leaves and coffee beans as predictors of coffee sensory quality in Robusta (Coffea canephora) germplasm from the Democratic Republic of the Congo

Research on the chemical composition of coffee beans and its correlation with sensory quality is advancing, but the metabolites in coffee leaves have often been overlooked. This study investigated the metabolite profiles of roasted coffee, green beans, and coffee leaves from 39 C. canephora genotype...

Full description

Saved in:
Bibliographic Details
Main Authors: Robrecht Bollen, Olga Rojo-Poveda, Lauren Verleysen, Rachel Ndezu, Ebele Aaron Tshimi, Hélène Mavar, Tom Ruttink, Olivier Honnay, Piet Stoffelen, Caroline Stévigny, Florence Souard, Cédric Delporte
Format: Article
Language:English
Published: Elsevier 2024-12-01
Series:Applied Food Research
Subjects:
Coffea canephora
Robusta
Coffee beans
Coffee leaves
LC-HRMS
PLS-DA
Online Access:http://www.sciencedirect.com/science/article/pii/S2772502224001707
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Research on the chemical composition of coffee beans and its correlation with sensory quality is advancing, but the metabolites in coffee leaves have often been overlooked. This study investigated the metabolite profiles of roasted coffee, green beans, and coffee leaves from 39 C. canephora genotypes through LC–HRMS with an untargeted metabolomics approach. Our results showed that metabolite profiles of roasted coffee, green beans, and coffee leaves can be discriminated based on the coffee's sensory quality. The highest predictive power of coffee sensory quality was achieved with the metabolite profiles of the coffee leaves. Genotypes with varying genetic backgrounds could only be discriminated by the metabolite profiles of the coffee leaves. Metabolite marker compounds predictive of sensory quality were a putative quercetin derivate in green beans and likely physagulin E and argophyllin in coffee leaves. Estimated levels of caffeoylquinic acids, dicaffeoylquinic acids, and caffeoylquinic acid lactones were higher in roasted coffee with a lower sensory quality. These differences were not apparent in their respective green beans and coffee leaves. Overall, our study revealed the promising potential of the metabolite profile of coffee leaves as a predictive tool for coffee sensory quality and the genetic background of C. canephora.
ISSN:2772-5022

Similar Items