The present disclosure relates to a composition for promoting the growth of lactic acid bacteria comprising growth factors, and more particularly, to a composition for promoting the growth of lactic acid bacteria comprising growth factors, the composition being capable of efficiently promoting the growth of various lactic acid bacteria strains.

Methods of culturing microalgae in acetate toxicity conditions to induce the uptake of acetate, control contamination, increase the metabolic rate, increase the respiration rate, increase the accumulation of lipids, and decreasing the accumulation of protein are disclosed. Embodiments include methods of controlling the internal microalgae cell acetate concentration by manipulating the culture pH and residual acetate concentration.

Methods for obtaining an aqueous extract of a microalgae Dunaliella salina cultivated in the absence of light in a culture medium of a yeast extract, sugar and salt include solubilising a yeast extract in water then adding sugar and salt. After solubilisation of the salt and at a pH between 5 and 8, the microalgae Dunaliella salina is added with stirring, in darkness and at room temperature, for a fermentation period of at least 12 hours. After the fermentation period, grinding and filtering are performed to separate a soluble aqueous raw extract to which salt is added. This extract undergoes sterilising filtration with a porosity threshold of less than or equal to 0.2 μm and has a pH between 3.5 and 4.5. The extract obtained by the method, compositions incorporating the extract, and methods of skincare, scalp care and skin appendage care using such compositions are also disclosed.

The disclosure discloses Bifidobacterium longum with the ability to relieve atopic dermatitis and its application, and belongs to the technical fields of microorganisms and medicine. The Bifidobacterium longum of the disclosure has the effects of relieving atopic dermatitis, and the effects are specifically embodied in: (1) significantly improving the degree of ear swelling in mice with atopic dermatitis; (2) significantly improving skin pathological symptoms and inflammatory cell infiltration in mice with atopic dermatitis; (3) significantly reducing the serum IgE level in mice with atopic dermatitis; (4) significantly reducing the levels of IL-4 and IL-13 in the skin tissues of mice with atopic dermatitis; and (5) significantly reducing the level of histamine in the skin tissues of mice with atopic dermatitis. Therefore, the Bifidobacterium longum has great application prospects in the preparation of products for the prevention and/or treatment of atopic dermatitis.

The invention discloses a fermentation method for production of fucoxanthin by Nitzschia laevis, including the following steps of: step A, preparation of inocula; step B, fermentation culture: inoculating of Nitzschia laevis according to a certain volume ratio to reaction kettle containing sterile fermentation medium for aeration fermentation, preparing fucoxanthin fermentation broth through culture mean of fed-batch nutrient components; step C, obtaining high fucoxanthin induction culture solution by aeration induction culture under irradiation of monochromatic light or mixed light; extracting fucoxanthin from high fucoxanthin induction culture solution. The invention optimized fermentation condition by fed-batch nutrient components during aeration culture of alga Nitzschia laevis, thereby significantly increasing the cell density of Nitzschia laevis in sterile fermentation broth, and then treating high density fucoxanthin induction culture solution of Nitzschia laevis by using light treatment, inducing the accumulation of fucoxanthin, thereby further increasing productivity of fucoxanthin produced by fermentation.

The present disclosure discloses a method for screening bacteria capable of tolerating and degrading ethylene oxide, comprising: preliminary screening, purification, ethylene oxide tolerance acclimatization, and ethylene oxide degradation acclimatization. The methods for screening and acclimatization provided by the present application is simple to operate, and the ability of the acclimatized strains to degrade ethylene oxide is significantly improved. Therefore, a series of ethylene oxide-degrading strains capable of tolerating and degrading ethylene oxide may be obtained, which have excellent treatment performance and is safe, environmentally friendly, and is of great significance for decontamination treatment of ethylene oxide.

The present disclosure discloses a method for screening bacteria capable of tolerating and degrading ethylene oxide, comprising: preliminary screening, purification, ethylene oxide tolerance acclimatization, and ethylene oxide degradation acclimatization. The methods for screening and acclimatization provided by the present application is simple to operate, and the ability of the acclimatized strains to degrade ethylene oxide is significantly improved. Therefore, a series of ethylene oxide-degrading strains capable of tolerating and degrading ethylene oxide may be obtained, which have excellent treatment performance and is safe, environmentally friendly, and is of great significance for decontamination treatment of ethylene oxide.

The present invention relates to methods of modulating (e.g., reducing) the mannose content, particularly high-mannose content of recombinant glycoproteins.

A system for generating and using an assay key comprising growth conditions for a set of microorganisms for a set of diverse QAC-based culture media under a variety of incubation conditions known to modulate the effect of QAC on growth of some microorganisms in the set. Each culture medium is characterized by a pH and includes one or more QACs and one or more growth supplements. The set of culture media includes media comprising various combinations of pH, QAC type, QAC concentration, growth supplement type, and growth supplement concentration. The assay key can be used to identify a microorganism by inoculating a variety of growth media within the key and incubating the inoculated media under conditions within the key and comparing the resulting pattern of microorganism growth across the media and conditions with growth patterns for various known microorganisms across the media and conditions that are within the key.

The specification describes a composition comprising an improved eukaryotic cell culture medium, which can be used for the production of a protein of interest. Taurine can be added to the serum-free media or chemically-defined media to increase the production of a protein of interest. Methods for recombinantly expressing high levels of protein using the media compositions are included.