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Main Authors: Li, Zhipeng, Yang, Tangyu, Hui, Jie, Zhou, Lin, Xue, Wei, Yan, Jingyun, Li, Bing, Li, Lin, Zhu, Siming, Xie, Zhenlang, Xu, Dan
Format: Artículo científico
Language:en
Published: Comprehensive reviews in food science and food safety 2026
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/41693674/
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author Li, Zhipeng
Yang, Tangyu
Hui, Jie
Zhou, Lin
Xue, Wei
Yan, Jingyun
Li, Bing
Li, Lin
Zhu, Siming
Xie, Zhenlang
Xu, Dan
author_facet Li, Zhipeng
Yang, Tangyu
Hui, Jie
Zhou, Lin
Xue, Wei
Yan, Jingyun
Li, Bing
Li, Lin
Zhu, Siming
Xie, Zhenlang
Xu, Dan
Li, Zhipeng
Yang, Tangyu
Hui, Jie
Zhou, Lin
Xue, Wei
Yan, Jingyun
Li, Bing
Li, Lin
Zhu, Siming
Xie, Zhenlang
Xu, Dan
collection PubMed - marine biology
contents Application of Biotechnology in Marine-Derived Fermented Foods: Technological Evolution and Future Prospects. Li, Zhipeng Yang, Tangyu Hui, Jie Zhou, Lin Xue, Wei Yan, Jingyun Li, Bing Li, Lin Zhu, Siming Xie, Zhenlang Xu, Dan Biotechnology Aquatic Organisms Fermented Foods Fermentation Animals With breakthrough advancements in omics technologies, the application of modern biotechnology is deeply penetrating the marine food sector. Marine organisms, as a vital oceanic resource, are rich in numerous nutrients and have garnered widespread attention in the food industry, particularly in the context of marine-derived fermented foods. Given that marine bioresources (such as fish, crustaceans, shellfish, and macroalgae) are abundant in high-quality proteins, polyunsaturated fatty acids, and bioactive substances, their fermentation processing is undergoing a significant transformation from a traditional, experience-driven approach to a molecular design paradigm. Modern biotechnology plays a crucial role in the precise regulation of flavor and quality, targeted enhancement of nutritional value, and improvement of the safety of marine fermented foods. This article reviews the research trajectory and application progress of modern biotechnologies in marine fermented foods, including microbial omics, multi-omics analysis, synthetic biology, genome editing, precision fermentation, sequencing technology, and intelligent fermentation control. It enumerates specific applications of various modern biotechnologies in the fermented products of different marine organisms, compares novel biotechnologies with traditional fermentation techniques, and discusses the challenges and limitations of applying biotechnology in marine-derived fermented foods. Furthermore, it provides future directions for the development of marine-derived foods using biotechnology and offers innovative perspectives for the industrialization of marine bio-fermented products.
format Artículo científico
id pubmed_41693674
institution PubMed
language en
publishDate 2026
publisher Comprehensive reviews in food science and food safety
record_format pubmed
spellingShingle Application of Biotechnology in Marine-Derived Fermented Foods: Technological Evolution and Future Prospects.
Li, Zhipeng
Yang, Tangyu
Hui, Jie
Zhou, Lin
Xue, Wei
Yan, Jingyun
Li, Bing
Li, Lin
Zhu, Siming
Xie, Zhenlang
Xu, Dan
Biotechnology
Aquatic Organisms
Fermented Foods
Fermentation
Animals
Application of Biotechnology in Marine-Derived Fermented Foods: Technological Evolution and Future Prospects. Li, Zhipeng Yang, Tangyu Hui, Jie Zhou, Lin Xue, Wei Yan, Jingyun Li, Bing Li, Lin Zhu, Siming Xie, Zhenlang Xu, Dan Biotechnology Aquatic Organisms Fermented Foods Fermentation Animals With breakthrough advancements in omics technologies, the application of modern biotechnology is deeply penetrating the marine food sector. Marine organisms, as a vital oceanic resource, are rich in numerous nutrients and have garnered widespread attention in the food industry, particularly in the context of marine-derived fermented foods. Given that marine bioresources (such as fish, crustaceans, shellfish, and macroalgae) are abundant in high-quality proteins, polyunsaturated fatty acids, and bioactive substances, their fermentation processing is undergoing a significant transformation from a traditional, experience-driven approach to a molecular design paradigm. Modern biotechnology plays a crucial role in the precise regulation of flavor and quality, targeted enhancement of nutritional value, and improvement of the safety of marine fermented foods. This article reviews the research trajectory and application progress of modern biotechnologies in marine fermented foods, including microbial omics, multi-omics analysis, synthetic biology, genome editing, precision fermentation, sequencing technology, and intelligent fermentation control. It enumerates specific applications of various modern biotechnologies in the fermented products of different marine organisms, compares novel biotechnologies with traditional fermentation techniques, and discusses the challenges and limitations of applying biotechnology in marine-derived fermented foods. Furthermore, it provides future directions for the development of marine-derived foods using biotechnology and offers innovative perspectives for the industrialization of marine bio-fermented products.
title Application of Biotechnology in Marine-Derived Fermented Foods: Technological Evolution and Future Prospects.
topic Biotechnology
Aquatic Organisms
Fermented Foods
Fermentation
Animals
url https://pubmed.ncbi.nlm.nih.gov/41693674/