Efficacy of Utilization of All-Plant-Based and Commercial Low-Fishmeal Feeds in Two Divergently Selected Strains of Rainbow Trout (Oncorhynchus mykiss): Focus on Growth Performance, Whole-Body Proximate Composition, and Intestinal Microbiome

The present study aimed to investigate the growth performance, whole-body proximate composition, and intestinal microbiome of rainbow trout strains when selected and non-selected for weight gain on all-plant protein diets. A 2x2 factorial design was applied, where a selected (United States) and a non-selected (ITA) rainbow trout strain were fed using either an all-plant protein (PP) or a commercial low-FM diet (C). Diets were fed to five replicates of 20 (PP) or 25 (C) fish for 105 days. At the end of the trial, growth parameters were assessed, and whole fish (15 pools of three fish/diet) and gut samples (six fish/diet) were collected for whole-body proximate composition and gut microbiome analyses, respectively. Independent of the administered diet, the United States strain showed higher survival, final body weight, weight gain, and specific growth rate when compared to the ITA fish (p < 0.001). Furthermore, decreased whole-body ether extract content was identified in the PP-fed United States rainbow trout when compared to the ITA strain fed the same diet (p < 0.001). Gut microbiome analysis revealed the Cetobacterium probiotic-like genus as clearly associated with the United States rainbow trout, along with the up-regulation of the pathway involved in starch and sucrose metabolism. In summary, the overall improvement in growth performance and, to a lesser extent, whole-body proximate composition observed in the selected rainbow trout strain was accompanied by specific, positive modulation of the intestinal microbiome

The fungal alternative: Insights on medicinal mushrooms-based protein-rich biomasses by submerged fermentation of agro-industrial by-products

Among the alternative proteins aimed at replacing those of animal origin, fungal proteins stand out as a promising resource capable of meeting environmental, health, and ethical demands. Fungal biomasses, or mycoproteins, are indeed rich in proteins and other macro- and micronutrients, while low in fats. However, their production is an ongoing challenge. This study focused on submerged fermentation, a highly controllable process that can couple high yields and agro-industrial by-products exploitation as growth media. Five medicinal mushrooms (Ganoderma resinaceum, Pleurotus ostreatus, Cordyceps militaris, Pleurotus eryngii, and Lentinula edodes) were tested for their biomass growth, protein content, and antioxidant properties on several agro-industrial by-product-based media. Among the experimental lines, the highest biomass production and protein content (51%) were achieved in P. eryngii grown in black solider fly (Hermetia illucens) exuviae-media. Concerning the antioxidant properties, the production of fungal extracts through microwave-assisted maceration was as performing as, if not better than, ethanolic extraction

Toward a total synthesis of an aglycone of spiramycin; a chiron approach to the C-1/C-4 and the C-13/C-15 fragments

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