1 |
Kwon TE, Kim YH. 2019. Food technology trends with alternative proteins. J Korean Soc Food Sci Nutr 24:7-14.
|
2 |
Wild F, Czerny M, Janssen AM, Kole AP, Zunabovic M, Domig KJ. 2014. The evolution of a plant-based alternative to meat: From niche markets to widely accepted meat alternatives. Agro Food Industry Hi-Tech 25:45-49.
|
3 |
맹진수. 2016. 미래 식품의 대체 기술 동향: 배양육, 인공계란과 식용곤충을 중심으로. 융합연구리뷰 2(4):4-34.
|
4 |
이현정, 조철훈. 2019. 세계 대체육류 개발 동향. 세계농업(2019. 3월호).
|
5 |
https://www.mk.co.kr/news/world/view/2020/12/1292131/
|
6 |
https://www.thinkfood.co.kr/news/articleView.html?idxno=88232 (Last accessed on May 3rd, 2021)
|
7 |
박윤제. 2019. 줄기세포를 이용한 배양육 생산 시스템(in vitro meat production system) 기술 개발. 2019년 미래식품 기초연구과제총서(100-130). 서울 율촌재단.
|
8 |
https://www.mk.co.kr/news/business/view/2020/04/399193/ (Last accessed on May 3rd, 2021)
|
9 |
오승희. 2015. 배양육(In Vitro Meat)의 미래. Future Horizon 26:2-2.
|
10 |
https://www.nongmin.com/news/NEWS/ECO/COW/333938/view (Last accessed on May 3rd, 2021)
|
11 |
박장환. 2020. 대체 단백식품(식물성 단백질 고기) 기술개발 동향 및 전망 Soybean Industrial Information 3:22-28.
|
12 |
https://www.nongmin.com/news/NEWS/ECO/COW/333938/view (Last accessed on May 3rd, 2021)
|
13 |
윤성용, 조해주, 이경본. 2021. 대체육(代替肉). KISTEP 기술동향브리프 1:1-33.
|
14 |
이정민, 김용렬. 2018. 대체 축산물 개발 동향과 시사점. KREI 농정포커스 170:1-23.
|
15 |
https://www.hankyung.com/news/article/2018121468951 (Last accessed on May 3rd, 2021)
|
16 |
http://upinews.kr/newsView/upi202001300079 (Last accessed on May 3rd, 2021)
|
17 |
https://www.amnews.co.kr/news/articleView.html?idxno=45335 (Last accessed on May 3rd, 2021)
|
18 |
Choi JS. 2020. Challenges we have to solve for production of cell cultured meat. Korean J Food Sci Ani Resour 9:2-10.
|
19 |
An DH. 2019. Development and change of alternative meat. J Korean Soc Food Sci Nutr 24:1-6.
|
20 |
Ahn SH, Hwang JH. 2020. The effects of consumers' perceived benefits of meat alternatives on trust and purchase intention. J Foodservice Manage Soc Korea 23:49-75.
DOI
|
21 |
Bonny SPF, Gardner GE, Pethick DW, Hocqutte JF. 2015. What is artificial meat and what does it mean for the future of the meat industry? J Integr Agr 14:255-263.
DOI
|
22 |
Guan X, Lei Q, Yan Q, Li X, Zhou J, Du G, Chen J. 2021. Trends and ideas in technology, regulation and public acceptance of cultured meat. Future Foods 3:100032.
DOI
|
23 |
Cheftel JC, Kitagawa M, Queguiner C. 1992. New protein texturization processes by extrusion cooking at high moisture levels. Food Rev Int 8:235-275.
DOI
|
24 |
Cho SY, Ryu GH. 2017. Effects on quality characteristics of extruded meat analog by addition of tuna sawdust. J Korean Soc Food Sci Nutr 46: 465-472.
DOI
|
25 |
Cho SY, Ryu GH. 2020. Effects of mushroom composition on the quality characteristics of extruded meat analog. Korean J Food Sci Technol 52:357-362.
DOI
|
26 |
Liu KS, Hsieh F. 2008. Protein-protein interactions during high-moisture extrusion for fibrous meat analogues and comparison of protein solubility methods using different solvent systems. J Agr Food Chem 56:2681-2687.
DOI
|
27 |
You GY, Yong HI, Yu MH, Jeon KH. 2020. Development of meat analogues using vegetable protein: A review. Korean J Food Sci Technol. 4:167-171.
|
28 |
김철재. 2005. 식물성 단백질을 이용한 육류대체식품의 개발. 동아시아식생활학회 학술발표대회논문집 2005.4:75-92.
|
29 |
Soisungwan S, Khampakool A, You SG, Park SH. 2020. Ohmic cooking of instant rice cake soup: energy efficiency and textural qualities. Food Sci Biotechnol 29:641-649.
DOI
|