Structural, Functional, and Bioactive Properties of Sulfated Polysaccharides from Skipjack Tuna Skin as a Function of Drying Techniques
Journal article, 2024

The study aims to investigate the impact of various drying techniques on the quality of sulfated polysaccharides (SP) extracted from Skipjack tuna (Katsuwonus pelamis) skin. Three drying methods, namely microwave drying (M-KPP), freeze-drying (F-KPP), and hot air drying (HA-KPP), are examined. The chemical and monosaccharide compositions of SP are significantly affected by the drying methods. The extraction yields for M-KPP, F-KPP, and HA-KPP are 3.30%, 3.11%, and 2.50%, respectively (P < 0.05). Additionally, HA-KPP, with 10.67% moisture content, exhibits the lowest moisture level among the dried samples (P < 0.05). Furthermore, the structural properties of SP remain consistent across different drying methods, as indicated by FTIR, XRD, and DSC analyses. F-KPP demonstrates the highest antioxidant properties. The functional and antimicrobial activities of SP are significantly influenced by the drying technique, with hot air drying resulting in increased foaming capacity and microwave drying showing enhanced antimicrobial activity. In conclusion, the findings demonstrate that the functionality and bioactivity of SP from tuna skin are greatly influenced by the drying technique employed, suggesting that the selection of the optimal method should be tailored to the desired properties of the SPs and given careful consideration.

Katsuwonus pelamis

antibacterial properties

antioxidant activities

drying methods

sulfated polysaccharides

Author

Shahab Naghdi

Tarbiat Modares University

Masoud Rezaei

Tarbiat Modares University

Mehdi Alboofetileh

Agricultural Research Education and Extension Organization (AREEO)

Mehdi Tabarsa

Tarbiat Modares University

Mehdi Abdollahi

Chalmers, Life Sciences, Food and Nutrition Science

Jamshid Amiri Moghaddam

Hans-Knoll-Institute (HKI)

Global Challenges

20566646 (eISSN)

Vol. 8 11 2400083

Subject Categories

Biocatalysis and Enzyme Technology

DOI

10.1002/gch2.202400083

More information

Latest update

11/28/2024