An object of the present invention is to provide a senescence retarding agent that delays the onset of senescence symptoms and extends longevity, and is superior in safety. The senescence retarding agent of the present invention that achieves the object is characterized by containing a plant fermentation product as an active ingredient, the plant fermentation product being a mixture of the following: (a) a koji mold-fermented product of one or more kinds of beans and/or cereals selected from the group consisting of barley, black soybean, red rice, black rice, adzuki bean, adlay, Japanese millet, foxtail millet, and millet; (b) a yeast- and/or lactic acid bacterium-fermented product of one or more kinds of fruits selected from the group consisting of mikan (mandarin orange), grape, apple, yama-budo (crimson glory grape), peach, kaki (Japanese persimmon), papaya, nashi (Japanese pear), watermelon, ume (Japanese apricot), fig, karin (Chinese quince), pumpkin, kumquat, yuzu (Chinese lemon), loquat, apricot, jujube, chestnut, matatabi (silvervine), and sumomo (Japanese plum); (c) a yeast- and/or lactic acid bacterium-fermented product of one or more kinds of root crops and/or potatoes selected from the group consisting of murasaki-imo (purple sweet potato), kikuimo (Jerusalem artichoke), carrot, onion, satsuma-imo (sweet potato), satoimo (taro), jinenzyo (Japanese yam), daikon (Japanese radish), akakabu (red turnip), gobo (burdock root), renkon (lotus root), yacon, yuri-ne (lily bulb), kuwai (arrowhead), ginger, garlic, and turmeric; (d) a yeast- and/or lactic acid bacterium-fermented product of one or more kinds of flowers and/or leaf vegetables selected from the group consisting of cabbage, shiso (perilla), mulberry leaves, dokudami (Korean houttuynia), yomogi (wormwood), kumazasa (kuma bamboo grass), and dandelion; (e) a yeast- and/or lactic acid bacterium-fermented product of one or more kinds of seaweeds selected from the group consisting of kombu (sea tangle), wakame (Undaria pinnatifida), and mozuku (Nemacystus decipiens); (f) a yeast- and/or lactic acid bacterium-fermented product of one or more kinds of seeds selected from the group consisting of black sesame seeds, walnuts, and ginkgo nuts; and (g) a yeast- and/or lactic acid bacterium-fermented product of one or two kinds of mushrooms selected from the group consisting of maitake (Grifola frondosa) and shiitake (Lentinus edodes).

An object of the present invention is to provide a senescence retarding agent that delays the onset of senescence symptoms and extends longevity, and is superior in safety. The senescence retarding agent of the present invention that achieves the object is characterized by containing a plant fermentation product as an active ingredient, the plant fermentation product being a mixture of the following: (a) a koji mold-fermented product of one or more kinds of beans and/or cereals selected from the group consisting of barley, black soybean, red rice, black rice, adzuki bean, adlay, Japanese millet, foxtail millet, and millet; (b) a yeast- and/or lactic acid bacterium-fermented product of one or more kinds of fruits selected from the group consisting of mikan (mandarin orange), grape, apple, yama-budo (crimson glory grape), peach, kaki (Japanese persimmon), papaya, nashi (Japanese pear), watermelon, ume (Japanese apricot), fig, karin (Chinese quince), pumpkin, kumquat, yuzu (Chinese lemon), loquat, apricot, jujube, chestnut, matatabi (silvervine), and sumomo (Japanese plum); (c) a yeast- and/or lactic acid bacterium-fermented product of one or more kinds of root crops and/or potatoes selected from the group consisting of murasaki-imo (purple sweet potato), kikuimo (Jerusalem artichoke), carrot, onion, satsuma-imo (sweet potato), satoimo (taro), jinenzyo (Japanese yam), daikon (Japanese radish), akakabu (red turnip), gobo (burdock root), renkon (lotus root), yacon, yuri-ne (lily bulb), kuwai (arrowhead), ginger, garlic, and turmeric; (d) a yeast- and/or lactic acid bacterium-fermented product of one or more kinds of flowers and/or leaf vegetables selected from the group consisting of cabbage, shiso (perilla), mulberry leaves, dokudami (Korean houttuynia), yomogi (wormwood), kumazasa (kuma bamboo grass), and dandelion; (e) a yeast- and/or lactic acid bacterium-fermented product of one or more kinds of seaweeds selected from the group consisting of kombu (sea tangle), wakame (Undaria pinnatifida), and mozuku (Nemacystus decipiens); (f) a yeast- and/or lactic acid bacterium-fermented product of one or more kinds of seeds selected from the group consisting of black sesame seeds, walnuts, and ginkgo nuts; and (g) a yeast- and/or lactic acid bacterium-fermented product of one or two kinds of mushrooms selected from the group consisting of maitake (Grifola frondosa) and shiitake (Lentinus edodes).

A hydrolysate compound protein for larval largemouth bass (Micropterus salmoides) and use thereof for aquatic animal feeds. The micro-diet was formulated with the following components: 72-74 parts by weight of a hydrolyzed protein pre-mixture, 3-5 parts by weight of mixed fish soluble meal, 4-6 parts by weight of gluten flour, 2-4 parts by weight of sodium caseinate, and 0.4-0.6 parts by weight of a yeast hydrolysate, where the hydrolyzed protein pre-mixture includes white fish meal, fermented soybean meal, shrimp meal and blood meal with the weight ratio of 58-62: 5-7: 4-6: 2-3. The compound protein is obtained by fully pulverizing the foregoing components, passing through a 100-mesh sieve, fully mixing in proportion, and being hydrolyzed with neutral protease and keratinase.

A composition includes a Euglena lysate and cellular components and residual media remaining from a fermentation process that produced a Euglena biomass and the Euglena lysate. The cellular components may include one or more beta-glucan polymer chains having a molecular weight of 1.2 to 580 kilodaltons (kDa).

A composition includes a Euglena lysate and cellular components and residual media remaining from a fermentation process that produced a Euglena biomass and the Euglena lysate. The cellular components may include one or more beta-glucan polymer chains having a molecular weight of 1.2 to 580 kilodaltons (kDa).

Provided are fish food compositions that include 40-70 wt. % cereal flour, 15-30 wt. % meal from aquatic animals, 10-20 wt. % extraction meal, 0.01-0.40 wt. % pepper, and 0.1-1.0 wt. % free methionine. Also provided are methods for using the fish food compositions as a fish food for ornamental fish.

Provided are a feed composition, which can be stored for a long time and is easily produced and adjustable in components, and which can increase the body weight and reduce a feed conversion ratio of farm animals to which the feed composition is fed, and a production method for the feed composition. In the feed composition, a liquid feed additive obtained by fermenting a carbohydrate-containing carbohydrate raw material by Aspergillus is substituted for 5 to 50% on a dry matter basis of a feed raw-material.

Provided are a feed composition, which can be stored for a long time and is easily produced and adjustable in components, and which can increase the body weight and reduce a feed conversion ratio of farm animals to which the feed composition is fed, and a production method for the feed composition. In the feed composition, a liquid feed additive obtained by fermenting a carbohydrate-containing carbohydrate raw material by Aspergillus is substituted for 5 to 50% on a dry matter basis of a feed raw-material.

Processes of treating grain (e.g., corn), involving milling the grain to produce milled grain wherein the grain germ remains intact in the milled grain, and producing a mixture by mixing the milled grain with water and at least one enzyme selected from the group consisting of protease, alpha amylase, glucoamylase, cell wall degrading enzyme, and mixtures thereof, wherein the pH of the mixture is optionally adjusted to a pH of about 3.5 to about 6.5, and incubating the mixture for about 1 to about 3 hours to produce an incubated mixture.

Processes of treating grain (e.g., corn), involving milling the grain to produce milled grain wherein the grain germ remains intact in the milled grain, and producing a mixture by mixing the milled grain with water and at least one enzyme selected from the group consisting of protease, alpha amylase, glucoamylase, cell wall degrading enzyme, and mixtures thereof, wherein the pH of the mixture is optionally adjusted to a pH of about 3.5 to about 6.5, and incubating the mixture for about 1 to about 3 hours to produce an incubated mixture.