Thermoresponsive semi-interpenetrating gelatin-alginate networks for encapsulation and controlled release of scent molecules

Young Min Kim; Kyungsene Lee; Yuyeon Lee; Kyungjik Yang; Deokyeong Choe; Young Hoon Roh

doi:10.1016/j.ijbiomac.2022.03.185

Thermoresponsive semi-interpenetrating gelatin-alginate networks for encapsulation and controlled release of scent molecules

Young Min Kim, Kyungsene Lee, Yuyeon Lee, Kyungjik Yang, Deokyeong Choe, Young Hoon Roh

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

Abstract

Plant-based meats, which are nutritious foods from non-animal sources, provide clues for addressing the negative externalities associated with conventional meat production. Interest in plant-based meat has increased and is driving the rapid growth of its market. Plant-based meat should be equipped with a temperature-dependent scent release system similar to the scent release mechanism of conventional meat, to deliver a desirable meat-like flavor to consumers and obtain higher market acceptance. In this study, we prepared thermoresponsive gelatin-alginate hybrid hydrogels to control the release of scent molecules. The polymer network of gelatin-alginate hydrogels was reinforced by a semi-interpenetrating network (sIPN). sIPN formation conferred resistance to external stimuli, such as shear force, swelling, and temperature, resulting in a sustained release of the meat scent. In addition, controlled size microcapsules fabricated from the same composition via an electrostatic extrusion process showed a sustained release pattern of the loaded scent at 70 °C, and the scent release rate was precisely controlled within an approximately 2-fold range by adjusting the alginate concentration. These observations suggest the potential use of edible biological macromolecules as food additives that can control the release of scent molecules from the plant-based meat during cooking.

Original language	English
Pages (from-to)	1096-1105
Number of pages	10
Journal	International Journal of Biological Macromolecules
Volume	208
DOIs	https://doi.org/10.1016/j.ijbiomac.2022.03.185
Publication status	Published - 2022 May 31

Bibliographical note

Funding Information:
This research was conducted with the generous financial support of the Youlchon Foundation (Nongshim Corporation and its affiliated companies) in Korea. The work was supported in part by Brain Korea 21 (BK21) FOUR program. This research was supported by Basic Science Research Program through the National Research Foundation of Korea (NRF) funded by the Ministry of Education ( 2021R1A6A3A13044758 ). K.Y. was supported by the NRF -2017-Global Ph.D. Fellowship Program.

Funding Information:
This research was conducted with the generous financial support of the Youlchon Foundation (Nongshim Corporation and its affiliated companies) in Korea. The work was supported in part by Brain Korea 21 (BK21) FOUR program. This research was supported by Basic Science Research Program through the National Research Foundation of Korea (NRF) funded by the Ministry of Education (2021R1A6A3A13044758). K.Y. was supported by the NRF-2017-Global Ph.D. Fellowship Program.

Publisher Copyright:
© 2022

All Science Journal Classification (ASJC) codes

Molecular Biology
Structural Biology
Biochemistry

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10.1016/j.ijbiomac.2022.03.185

Cite this

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title = "Thermoresponsive semi-interpenetrating gelatin-alginate networks for encapsulation and controlled release of scent molecules",

abstract = "Plant-based meats, which are nutritious foods from non-animal sources, provide clues for addressing the negative externalities associated with conventional meat production. Interest in plant-based meat has increased and is driving the rapid growth of its market. Plant-based meat should be equipped with a temperature-dependent scent release system similar to the scent release mechanism of conventional meat, to deliver a desirable meat-like flavor to consumers and obtain higher market acceptance. In this study, we prepared thermoresponsive gelatin-alginate hybrid hydrogels to control the release of scent molecules. The polymer network of gelatin-alginate hydrogels was reinforced by a semi-interpenetrating network (sIPN). sIPN formation conferred resistance to external stimuli, such as shear force, swelling, and temperature, resulting in a sustained release of the meat scent. In addition, controlled size microcapsules fabricated from the same composition via an electrostatic extrusion process showed a sustained release pattern of the loaded scent at 70 °C, and the scent release rate was precisely controlled within an approximately 2-fold range by adjusting the alginate concentration. These observations suggest the potential use of edible biological macromolecules as food additives that can control the release of scent molecules from the plant-based meat during cooking.",

author = "Kim, {Young Min} and Kyungsene Lee and Yuyeon Lee and Kyungjik Yang and Deokyeong Choe and Roh, {Young Hoon}",

note = "Funding Information: This research was conducted with the generous financial support of the Youlchon Foundation (Nongshim Corporation and its affiliated companies) in Korea. The work was supported in part by Brain Korea 21 (BK21) FOUR program. This research was supported by Basic Science Research Program through the National Research Foundation of Korea (NRF) funded by the Ministry of Education ( 2021R1A6A3A13044758 ). K.Y. was supported by the NRF -2017-Global Ph.D. Fellowship Program. Funding Information: This research was conducted with the generous financial support of the Youlchon Foundation (Nongshim Corporation and its affiliated companies) in Korea. The work was supported in part by Brain Korea 21 (BK21) FOUR program. This research was supported by Basic Science Research Program through the National Research Foundation of Korea (NRF) funded by the Ministry of Education (2021R1A6A3A13044758). K.Y. was supported by the NRF-2017-Global Ph.D. Fellowship Program. Publisher Copyright: {\textcopyright} 2022",

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doi = "10.1016/j.ijbiomac.2022.03.185",

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AU - Kim, Young Min

AU - Lee, Kyungsene

AU - Lee, Yuyeon

AU - Yang, Kyungjik

AU - Choe, Deokyeong

AU - Roh, Young Hoon

N1 - Funding Information: This research was conducted with the generous financial support of the Youlchon Foundation (Nongshim Corporation and its affiliated companies) in Korea. The work was supported in part by Brain Korea 21 (BK21) FOUR program. This research was supported by Basic Science Research Program through the National Research Foundation of Korea (NRF) funded by the Ministry of Education ( 2021R1A6A3A13044758 ). K.Y. was supported by the NRF -2017-Global Ph.D. Fellowship Program. Funding Information: This research was conducted with the generous financial support of the Youlchon Foundation (Nongshim Corporation and its affiliated companies) in Korea. The work was supported in part by Brain Korea 21 (BK21) FOUR program. This research was supported by Basic Science Research Program through the National Research Foundation of Korea (NRF) funded by the Ministry of Education (2021R1A6A3A13044758). K.Y. was supported by the NRF-2017-Global Ph.D. Fellowship Program. Publisher Copyright: © 2022

PY - 2022/5/31

Y1 - 2022/5/31

N2 - Plant-based meats, which are nutritious foods from non-animal sources, provide clues for addressing the negative externalities associated with conventional meat production. Interest in plant-based meat has increased and is driving the rapid growth of its market. Plant-based meat should be equipped with a temperature-dependent scent release system similar to the scent release mechanism of conventional meat, to deliver a desirable meat-like flavor to consumers and obtain higher market acceptance. In this study, we prepared thermoresponsive gelatin-alginate hybrid hydrogels to control the release of scent molecules. The polymer network of gelatin-alginate hydrogels was reinforced by a semi-interpenetrating network (sIPN). sIPN formation conferred resistance to external stimuli, such as shear force, swelling, and temperature, resulting in a sustained release of the meat scent. In addition, controlled size microcapsules fabricated from the same composition via an electrostatic extrusion process showed a sustained release pattern of the loaded scent at 70 °C, and the scent release rate was precisely controlled within an approximately 2-fold range by adjusting the alginate concentration. These observations suggest the potential use of edible biological macromolecules as food additives that can control the release of scent molecules from the plant-based meat during cooking.

AB - Plant-based meats, which are nutritious foods from non-animal sources, provide clues for addressing the negative externalities associated with conventional meat production. Interest in plant-based meat has increased and is driving the rapid growth of its market. Plant-based meat should be equipped with a temperature-dependent scent release system similar to the scent release mechanism of conventional meat, to deliver a desirable meat-like flavor to consumers and obtain higher market acceptance. In this study, we prepared thermoresponsive gelatin-alginate hybrid hydrogels to control the release of scent molecules. The polymer network of gelatin-alginate hydrogels was reinforced by a semi-interpenetrating network (sIPN). sIPN formation conferred resistance to external stimuli, such as shear force, swelling, and temperature, resulting in a sustained release of the meat scent. In addition, controlled size microcapsules fabricated from the same composition via an electrostatic extrusion process showed a sustained release pattern of the loaded scent at 70 °C, and the scent release rate was precisely controlled within an approximately 2-fold range by adjusting the alginate concentration. These observations suggest the potential use of edible biological macromolecules as food additives that can control the release of scent molecules from the plant-based meat during cooking.

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AN - SCOPUS:85127491819

SN - 0141-8130

VL - 208

SP - 1096

EP - 1105

JO - International Journal of Biological Macromolecules

JF - International Journal of Biological Macromolecules

ER -

Thermoresponsive semi-interpenetrating gelatin-alginate networks for encapsulation and controlled release of scent molecules

Abstract

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