posted on 2023-07-05, 19:42authored byXiao-Wen Lin, Run-hui Liu, Song Wang, Jie-Wen Yang, Ning-Ping Tao, Xi-Chang Wang, Qun Zhou, Chang-Hua Xu
Given
that protein peptide powders (PPPs) from different biological
sources were inherited with diverse healthcare functions, which aroused
adulteration of PPPs. A high-throughput and rapid methodology, united
multi-molecular infrared (MM-IR) spectroscopy with data fusion, could
determine the types and component content of PPPs from seven sources
as examples. The chemical fingerprints of PPPs were thoroughly interpreted
by tri-step infrared (IR) spectroscopy, and the defined spectral fingerprint
region of protein peptide, total sugar, and fat was 3600–950
cm–1, which constituted MIR finger-print region.
Moreover, the mid-level data fusion model was of great applicability
in qualitative analysis, in which the F1-score reached 1 and the total
accuracy was 100%, and a robust quantitative model was established
with excellent predictive capacity (Rp: 0.9935, RMSEP: 1.288, and RPD: 7.97). MM-IR coordinated data fusion
strategies to achieve high-throughput, multi-dimensional analysis
of PPPs with better accuracy and robustness which meant a significant
potential for the comprehensive analysis of other powders in food
as well.