Disclosed are techniques and systems for producing microbials having anaplerotic oils that are rich in odd-chain fatty acids, and other beneficial components, at higher concentrations than those present in other natural dietary sources of OCFA, at lower cost, and higher production yield. Further, disclosed are examples of incorporation of these higher concentration OCFA products into food for human and non-human animal consumption.

The present disclosure relates generally to methods and nutritional compositions for promoting or maintaining postpartum maternal health. The nutritional composition can include sialyllactose, a source of long chain polyunsaturated fatty acids (LCPUFAs), a probiotic, such as Lactobacillus rhamnosus GG (LGG), a nut extract, turmeric, fenugreek calcium and/or vitamin D. The nutritional composition is suitable for administration to postpartum mothers. Additionally, the disclosure provides methods for preventing or reducing the severity of postpartum depression and/or anxiety. The nutritional composition(s) provided herein can comprise various combinations of ingredients that provide additive and or/synergistic beneficial health effects to postpartum mothers.

Disclosed are techniques and systems for producing microbials having anaplerotic oils that are rich in odd-chain fatty acids, and other beneficial components, at higher concentrations than those present in other natural dietary sources of OCFA, at lower cost, and higher production yield. Further, disclosed are examples of incorporation of these higher concentration OCFA products into food for human and non-human animal consumption.

The invention relates to uses of hydrocarbon/lipid complexes with carotenoids for improvement properties of hydrocarbon-based products as well as related methods and uses.

The invention relates to a method for manufacturing a strained fermented dairy product comprising the following successive steps: (a) providing a dairy product, (b) adding a lactase and a culture of bacteria comprising at least one strain of thermophilic lactic acid bacteria, with the provision that that it does not comprise any strain of mesophilic lactic acid bacteria, and fermenting the dairy product to obtain a fermented dairy product, and (c) separating a liquid whey from the fermented dairy product to obtain a strained fermented dairy product.

Described is a dietary supplement and a corresponding method to maintain the nutritional health of mammals, including humans. The composition includes a dried dairy product, typically cream, whole milk, reduced fat milk, cottage cheese, yogurt, or combinations thereof in combination with an oil comprising linolenic acid.

A fatty acid composition is provided which can be used to make fatty acid fortified nutritional products. In one embodiment, the fatty acid composition comprises a fatty acid component, inorganic salts (which can include a phosphate salt), vitamins, and optionally a protein source and optionally a carbohydrate source. The composition can further include additional nutrients and combinations thereof. In another embodiment, the fatty acid composition is only the fatty acid (i.e., consists of a sodium or potassium fatty acid) which is spray dried. In both embodiments, the fatty acid composition is not microencapsulated in a waxy or carbohydrate substrate, yet the powdered composition is flowable and is easily dispersible in a liquid to form a stable dispersion in the liquid by stirring or shaking the powder in the liquid for only a short period of time.

Disclosed are techniques and systems for producing microbials having anaplerotic oils that are rich in odd-chain fatty acids, and other beneficial components, at higher concentrations than those present in other natural dietary sources of OCFA, at lower cost, and higher production yield. Further, disclosed are examples of incorporation of these higher concentration OCFA products into food for human and non-human animal consumption.

Compositions having surfactant and carbohydrate-degrading activity are produced from Bacillus subtilis strain 6A-1. The compositions include cultured plaque, exudate and fractions having such activity. Methods of producing the compositions and compositions which have increased surfactant and carbohydrate-degrading activity and increased biomass are provided. Proteins and nucleic acid molecules associated with same and methods of identifying compositions comprising the surfactant and carbohydrate-degrading activity are provided. Feeding the compositions to animals results in increased unsaturated and/or decreased saturated fatty acids in the animals and their food products and can also result in increased absorption and/or retention of dietary calcium by said animals.

The present invention is directed to isolated microorganisms as well as strains and mutants thereof, biomasses, microbial oils, compositions, and cultures; methods of producing the microbial oils, biomasses, and mutants; and methods of using the isolated microorganisms, biomasses, and microbial oils.