Abstract
The process of cheese-making has long been part of human food culture and nowadays dairy represents a large sector of the food industry. Being the main byproduct of cheese-making, the revalorization of milk whey is nowadays one of the primary goals in alignment with the principles of the circular economy. In the present paper, a deep and detailed investigation of short endogenous peptides in milk and its byproducts (whole whey, skimmed whey, and whey permeate) was carried out by high-resolution mass spectrometry, with a dedicated suspect screening data acquisition and data analysis approach. A total of 79 short peptides was tentatively identified, including several sequences already known for their exerted biological activities. An unsupervised chemometric approach was then employed for highlighting the differences in the short peptide content among the four sets of samples. Whole and skimmed whey showed not merely a higher content of short bioactive peptides compared to whole milk, but also a peculiar composition of peptides that are likely generated during the process of cheese-making. The results clearly demonstrate that whey represents a valuable source of bioactive compounds and that the set-up of processes of revalorization of milk byproducts is a promising path in the obtention of high revenue-generating products from dairy industrial waste.
Highlights
IntroductionBC, representing a critical development for milk preservation in a transportable and long conservation form [1]
The earliest evidence for cheese-making can be traced back to the sixth millenniumBC, representing a critical development for milk preservation in a transportable and long conservation form [1]
Whey represents the main milk byproduct originating from the cheese-making industry, and it is known for being a rich source of valuable bioactive compounds
Summary
BC, representing a critical development for milk preservation in a transportable and long conservation form [1]. In 2019, the value of the dairy market was estimated to be about 720 billion. The significant growth in the production of milkderived products, such as milk powder, butter, and cheese, has led to a massive release of industrial waste [3]. It is estimated that 4–11 million tons of dairy waste are released into the environment, causing several dangers to biodiversity due to the depletion of dissolved oxygen inducted by the fat constituents [3,4]. The main byproduct of dairy farming is whey, which is produced following casein coagulation in the cheese-making process. Whey has long been integrated for human consumption in many products, such as albumin whey cheese (e.g., Italian ricotta) and Norwegian brown cheese
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