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Fermented Soybean Meal Increases Lactic Acid Bacteria in Gut Microbiota of Atlantic Salmon (Salmo salar)
Fermented Soybean Meal Increases Lactic Acid Bacteria in Gut Microbiota of Atlantic Salmon (Salmo salar)
by Catalán, Natalia , Wacyk, Jurij , Villasante, Alejandro , Ramírez, Carolina , Romero, Jaime
in Acinetobacter / Altererythrobacter / Animal Feed - analysis / Animals / Applied Microbiology / aquaporins / bioactive compounds / cathelicidins / Cellulomonas / Chemistry / Chemistry and Materials Science / Chemistry/Food Science / Clostridium / Diet - veterinary / experimental diets / feeds / Fermentation / fish / fish meal / Gastrointestinal Microbiome / gene expression / Glycine max - metabolism / Glycine max - microbiology / intestinal microorganisms / intestines / Intestines - microbiology / lactic acid bacteria / Lactobacillales - classification / Lactobacillales - genetics / Lactobacillales - isolation & purification / Lactobacillus / Microbiology / mucins / Nutrition / Pediococcus / proliferating cell nuclear antigen / Protein Science / Salmo salar / Salmo salar - growth & development / Salmo salar - metabolism / Salmo salar - microbiology / Soy Foods - analysis / soybean meal / soybeans / tanks
2018
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Fermented Soybean Meal Increases Lactic Acid Bacteria in Gut Microbiota of Atlantic Salmon (Salmo salar)
by Catalán, Natalia , Wacyk, Jurij , Villasante, Alejandro , Ramírez, Carolina , Romero, Jaime
in Acinetobacter / Altererythrobacter / Animal Feed - analysis / Animals / Applied Microbiology / aquaporins / bioactive compounds / cathelicidins / Cellulomonas / Chemistry / Chemistry and Materials Science / Chemistry/Food Science / Clostridium / Diet - veterinary / experimental diets / feeds / Fermentation / fish / fish meal / Gastrointestinal Microbiome / gene expression / Glycine max - metabolism / Glycine max - microbiology / intestinal microorganisms / intestines / Intestines - microbiology / lactic acid bacteria / Lactobacillales - classification / Lactobacillales - genetics / Lactobacillales - isolation & purification / Lactobacillus / Microbiology / mucins / Nutrition / Pediococcus / proliferating cell nuclear antigen / Protein Science / Salmo salar / Salmo salar - growth & development / Salmo salar - metabolism / Salmo salar - microbiology / Soy Foods - analysis / soybean meal / soybeans / tanks
2018
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Fermented Soybean Meal Increases Lactic Acid Bacteria in Gut Microbiota of Atlantic Salmon (Salmo salar)
Fermented Soybean Meal Increases Lactic Acid Bacteria in Gut Microbiota of Atlantic Salmon (Salmo salar)
by Catalán, Natalia , Wacyk, Jurij , Villasante, Alejandro , Ramírez, Carolina , Romero, Jaime
in Acinetobacter / Altererythrobacter / Animal Feed - analysis / Animals / Applied Microbiology / aquaporins / bioactive compounds / cathelicidins / Cellulomonas / Chemistry / Chemistry and Materials Science / Chemistry/Food Science / Clostridium / Diet - veterinary / experimental diets / feeds / Fermentation / fish / fish meal / Gastrointestinal Microbiome / gene expression / Glycine max - metabolism / Glycine max - microbiology / intestinal microorganisms / intestines / Intestines - microbiology / lactic acid bacteria / Lactobacillales - classification / Lactobacillales - genetics / Lactobacillales - isolation & purification / Lactobacillus / Microbiology / mucins / Nutrition / Pediococcus / proliferating cell nuclear antigen / Protein Science / Salmo salar / Salmo salar - growth & development / Salmo salar - metabolism / Salmo salar - microbiology / Soy Foods - analysis / soybean meal / soybeans / tanks
2018

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Mohammed Bin Rashid Library /
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Fermented Soybean Meal Increases Lactic Acid Bacteria in Gut Microbiota of Atlantic Salmon (Salmo salar)
Fermented Soybean Meal Increases Lactic Acid Bacteria in Gut Microbiota of Atlantic Salmon (Salmo salar)
Journal Article

Fermented Soybean Meal Increases Lactic Acid Bacteria in Gut Microbiota of Atlantic Salmon (Salmo salar)

Catalán, Natalia,
Wacyk, Jurij,
Villasante, Alejandro,
Ramírez, Carolina,
Romero, Jaime
2018
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Overview
The main goal of the present study was to address the effect of feeding fermented soybean meal-based diet to Atlantic salmon on gut microbiota. Further, expression of genes of interest, including cathelicidin antimicrobial peptide ( cath ), mucin 2 ( muc2 ), aquaporin ( aqp8ab ), and proliferating cell nuclear antigen ( pcna ), in proximal intestine of fish fed either experimental diet was analyzed. Three experimental diets, including a control fishmeal (30% FM), soybean meal (30% SBM), or fermented soybean meal diet (30% FSBM) were randomly assigned to triplicate tanks during a 50-day trial. The PCR-TTGE showed microbiota composition was influenced by experimental diets. Bands corresponding to genus Lactobacillus and Pediococcus were characteristic in fish fed the FSBM-based diet. On the other hand, bands corresponding to Isoptericola , Cellulomonas , and Clostridium sensu stricto were only observed in fish FM-based diet, while Acinetobacter and Altererythrobacter were detected in fish fed SBM-based diet. The expression of muc2 and aqp8ab were significantly greater in fish fed the FSBM-based diet compared with the control group. Our results suggest feeding FSBM to Atlantic salmon may (1) boost health and growth physiology in fish by promoting intestinal lactic acid bacteria growth, having a prebiotic-like effect, (2) promote proximal intestine health by increasing mucin production, and (3) boost intestinal trans-cellular uptake of water. Further research to better understands the effects of bioactive compounds derived from the fermentation process of plant feedstuff on gut microbiota and the effects on health and growth in fish is required.
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Publisher
Springer US
Subject

Acinetobacter

/ Altererythrobacter

/ Animal Feed - analysis

/ Animals

/ Applied Microbiology

/ aquaporins

/ bioactive compounds

/ cathelicidins

/ Cellulomonas

/ Chemistry

/ Chemistry and Materials Science

/ Chemistry/Food Science

/ Clostridium

/ Diet - veterinary

/ experimental diets

/ feeds

/ Fermentation

/ fish

/ fish meal

/ Gastrointestinal Microbiome

/ gene expression

/ Glycine max - metabolism

/ Glycine max - microbiology

/ intestinal microorganisms

/ intestines

/ Intestines - microbiology

/ lactic acid bacteria

/ Lactobacillales - classification

/ Lactobacillales - genetics

/ Lactobacillales - isolation & purification

/ Lactobacillus

/ Microbiology

/ mucins

/ Nutrition

/ Pediococcus

/ proliferating cell nuclear antigen

/ Protein Science

/ Salmo salar

/ Salmo salar - growth & development

/ Salmo salar - metabolism

/ Salmo salar - microbiology

/ Soy Foods - analysis

/ soybean meal

/ soybeans

/ tanks

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