The Bacterial Microflora of Fish, Revised by B. Austin

“…The role of the organisms includes the ability to degrade complex molecules (therefore exercising a potential benefit in nutrition), to produce vitamins and polymers, and to be responsible for the emission of light by the light-emitting organs of deep-sea fish. Taxa, including Pseudomonas, may contribute to spoilage by the production of histamines in fish tissue.…”
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Higher intakes of lysine, threonine and valine are inversely associated with non-alcoholic fatty liver disease risk: A community-based case-control study in the Chinese elderly by Xueqi Li, Wenjun Ma, Ting Yang, Chong Wang, Wei Zhang, Hui Li, Ting Zhao, Xiaofei Guo

“…Conclusion: The present study demonstrated that the dietary increases in milk, eggs and deep-sea fish, which are rich in the amino acids, might contribute to protecting against NAFLD in the elderly.…”
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Transcriptome of the Deep-Sea Black Scabbardfish, Aphanopus carbo (Perciformes: Trichiuridae): Tissue-Specific Expression Patterns and Candidate Genes Associated to Depth Adaptatio... by Sergio Stefanni, Raul Bettencourt, Miguel Pinheiro, Gianluca De Moro, Lucia Bongiorni, Alberto Pallavicini

“…Deep-sea fishes provide a unique opportunity to study the physiology and evolutionary adaptation to extreme environments. …”
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L’avenir des ressources génétiques marines au-delà des juridictions nationales : enjeux à l’aube d’un nouveau traité international by Nathan Brison, Christine Frison

“…In addition to the already visible impact of activities such as deep-sea fishing and maritime traffic, the future development of several other activities, particularly the exploitation of gas, oil, mineral resources and genetic resources, raises fears of potential serious damage to the environment of ABNJ. …”
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