A sterilization process by means of heat treatment to preserve the ink of coleoid cephalopod molluscs includes the steps of homogenizing and first heat treating (1) the ink in a reactor for pasteurising treatment in which a temperature of at least 70° C. is attained for over 10 minutes; and cooling (2) the homogenized ink in a tank set to a temperature of below 30° C. and retaining the ink in the tank to lower its temperature. The process also includes the steps of continuing by filling, turning, blowing and marking (3) the expiry dates; and second heat treating (4) the ink in an autoclave in which a heat treatment is performed to achieve a sterilization temperature greater than or equal to 110° C. for a predetermined time based upon the quantity to be canned.

A sterilization process by means of heat treatment to preserve the ink of coleoid cephalopod molluscs includes the steps of homogenizing and first heat treating (1) the ink in a reactor for pasteurising treatment in which a temperature of at least 70° C. is attained for over 10 minutes; and cooling (2) the homogenized ink in a tank set to a temperature of below 30° C. and retaining the ink in the tank to lower its temperature. The process also includes the steps of continuing by filling, turning, blowing and marking (3) the expiry dates; and second heat treating (4) the ink in an autoclave in which a heat treatment is performed to achieve a sterilization temperature greater than or equal to 110° C. for a predetermined time based upon the quantity to be canned.

A sushi maker kit having a frame member with first, second, third, fourth side walls and a ledge capturing portion is provided. The first, second, third and fourth side walls define an open region. The ledge capturing portion extends upwardly from the first, second, and third side walls proximate to a first end of the frame member. The sushi maker kit further includes an insert member having a plate portion and a keel portion. The keel portion is coupled to and extends from the plate portion in a first direction. The plate portion has a ledge portion at a first end thereof. The ledge portion is removably received in the ledge capturing portion such that the keel portion extends into the open region of the frame member when the insert member is in a first operational position relative to the frame member.

A versatile culinary formulation is described. A mixture that includes the culinary formulation is prepared using any of the food preparation methods: cooking, baking, beverage crafting, refrigerating, or freezing. The culinary formulation is used in a plurality of recipes and reduces or eliminates the need for at least one ingredient in each recipe of the plurality of recipes. The flavor and texture of comestibles are enhanced by the culinary formulation. Comestibles prepared from the culinary formulation have a sweet, sour, salty, bitter, or savory taste. Accordingly, each time a comestible is prepared, its taste is the same as long as it is prepared using the culinary formulation. In addition, only the culinary formulation needs to be measured before it is added to a mixture. The ingredients already present in the formulation do not have to be measured or added individually. As a result, preparation of the comestible is more efficient. The culinary formulation may be dry or wet. The dry culinary formulation includes an egg powder, a dairy solid, and an additive. The wet culinary formulation includes an egg, a dairy product, and an additive. Furthermore, the additive is at least one of a flavor enhancer or a texture enhancer to improve the flavor or texture of the comestible, an anti-clumping agent or colorant to improve the appearance of the dry or wet culinary formulation, or a preservative to extend the shelf life of the dry or wet culinary formulation.

The present disclosure provides culture or fermentation media including a biomass or derivative thereof of a hemoprotein-producing C.sub.1 metabolizing non-photosynthetic bacterium, methods of culturing cells or tissue with the culture or fermentation medium, and products produced by the culturing methods including food products, food ingredients, phytoprotective bacterial cell products, and other products of interest such as vitamins, fatty acids, amino acid, carotenoids, etc.

The present disclosure provides culture or fermentation media including a biomass or derivative thereof of a hemoprotein-producing C.sub.1 metabolizing non-photosynthetic bacterium, methods of culturing cells or tissue with the culture or fermentation medium, and products produced by the culturing methods including food products, food ingredients, phytoprotective bacterial cell products, and other products of interest such as vitamins, fatty acids, amino acid, carotenoids, etc.

Systems and methods for producing food products including cultured food products. The cultured food products include sushi-grade fish meat, fish surimi, foie gras, and other food types. Various cell types are utilized to produce the food products and can include muscle, fat, and/or liver cells. The cultured food products are grown in pathogen-free culture conditions without exposure to toxins and other undesirable chemicals. The food products can be processed to provide a desired shape, texture and consistency.

Systems and methods for producing food products including cultured food products. The cultured food products include sushi-grade fish meat, fish surimi, foie gras, and other food types. Various cell types are utilized to produce the food products and can include muscle, fat, and/or liver cells. The cultured food products are grown in pathogen-free culture conditions without exposure to toxins and other undesirable chemicals. The food products can be processed to provide a desired shape, texture and consistency.

A method of providing sushi for consumption. The method includes preparing the sushi; placing the sushi in a humidified refrigerated storage unit at an ambient humidity level over 65% and under 99% and at a temperature between about 0° C. and about 7° C.; preserving for a period under fifteen hours the sushi in the humidified refrigerated storage unit to reduce loss of moisture of the sushi rice of the sushi during the preservation period; and removing the sushi from the humidified refrigerated storage unit prior to being served.

A method of providing sushi for consumption. The method includes preparing the sushi; placing the sushi in a humidified refrigerated storage unit at an ambient humidity level over 65% and under 99% and at a temperature between about 0° C. and about 7° C.; preserving for a period under fifteen hours the sushi in the humidified refrigerated storage unit to reduce loss of moisture of the sushi rice of the sushi during the preservation period; and removing the sushi from the humidified refrigerated storage unit prior to being served.