Abstract

Potato protein is recognized as one of the most valuable nonanimal proteins due to the high content of essential amino acids. So far, it has not been used in human nutrition on a large scale due to technological limitations regarding its acquisition. In this study, the protein fraction of potato juice was concentrated with the use of membrane separation. The obtained potato juice protein concentrate (PJPC) was characterized in terms of nutritional value and biological activity, and the amino acid composition, mineral content, and antioxidant properties were determined. Moreover, in vitro cytotoxic activity against cancer cells of the gastrointestinal tract was investigated. The results of the present study indicate that PJPC is an excellent source of lysine and threonine, while leucine is its limiting amino acid, with an amino acid score (AAS) of 65%. Moreover, PJPC contains substantial amounts of Fe, Mn, K, and Cu. As demonstrated experimentally, PJPC is also characterized by higher antioxidant potential than potato itself. Biological activity, however, is not limited to antioxidant activity alone. Cytotoxicity studies using a gastric cancer cell line (Hs 746T), a colon cancer cell line (HT-29), and human colon normal cells (CCD 841 CoN) proved that PJPC is characterized by selective activity against cancer cells. It can thus be concluded that the developed method of producing protein concentrate from potato juice affords a product with moderate nutritional value and interesting biological activity.

Highlights

  • Potato juice, the liquid fraction of potato tubers, is available in large quantities as a side stream of the starch industry

  • Research has shown that potato proteins are of moderate nutritional value due to their amino acid composition

  • Potato proteins are an excellent source of lysine and can be a good supplement to cereal products that contain low quantities of this amino acid [54,55]

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Summary

Introduction

The liquid fraction of potato tubers, is available in large quantities as a side stream of the starch industry. Optimal management of this raw material is still an unresolved technological problem. The most common approach utilizes thermal coagulation of potato protein in acidic conditions. The coagulated mass is separated, dried, and used for fodder purposes [1]. This procedure is not optimal as only ca. 50% of potato protein undergoes coagulation and often the remaining half is discarded with wastewater [2].

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