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Structure‐informed separation of bioactive peptides
Author(s) -
Acquah Caleb,
Chan Yi Wei,
Pan Sharadwata,
Agyei Dominic,
Udenigwe Chibuike C.
Publication year - 2019
Publication title -
journal of food biochemistry
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.507
H-Index - 47
eISSN - 1745-4514
pISSN - 0145-8884
DOI - 10.1111/jfbc.12765
Subject(s) - nutraceutical , biochemical engineering , chromatographic separation , identification (biology) , computer science , separation method , separation (statistics) , computational biology , chemistry , nanotechnology , chromatography , materials science , biology , machine learning , engineering , biochemistry , botany , high performance liquid chromatography
Abstract The application of proteomic and peptidomic technologies for food‐derived bioactive peptides is an emerging field in food sciences. These technologies include the use of separation tools coupled to a high‐resolution spectrometric and bioinformatic tools for prediction, identification, sequencing, and characterization of peptides. To a large extent, one‐dimensional separation technologies have been extensively used as a continuous tool under different optimized conditions for the identification and analysis of food peptides. However, most one‐dimensional separation technologies are fraught with significant bottlenecks such as insufficient sensitivity and specificity limits for complex samples. To address this limitation, separation systems based on orthogonal, multidimensional principles, which allow for the coupling of more than one analytical separation tool with different operational principles, provide a higher separation power than one‐dimensional separation tools. This review describes the structure‐informed separation and purification of protein hydrolyzates to obtain peptides with desirable bioactivities. Practical applications Application of bioactive peptides in the formulation of functional foods, nutraceuticals, and therapeutic agents have increasingly gained scholarly and industrial attention. The bioactive peptides exist originally in protein sources and are only active after hydrolysis of the parent protein. Currently, several tools can be configured in one‐dimensional or multidimensional systems for the separation and purification of protein hydrolyzates. The separations are informed by the structural properties such as the molecular weight, charge, hydrophobicity or hydrophilicity, and the solubility of peptides. This review provides a concise discussion on the commonly used analytical tools, their configurations, advantages and challenges in peptide separation. Emphasis is placed on how the structural properties of peptides assist in the separation and purification processes and the concomitant effect of the separation on peptide bioactivity.