The present disclosure relates to propiconazole resistant mutants of Chlorella sp. having Accession No. CCAP 211/133. The propiconazole resistant mutants of Chlorella species have increased tolerance to propiconazole. The present disclosure further provides a method for preparing the propiconazole resistant mutants of Chlorella species. The propiconazole resistant mutants of Chlorella species can selectively grow in the presence of propiconazole, and hence can be used for large scale production of algal biomass.

Recombinant DNA techniques are used to produce oleaginous recombinant cells that produce triglyceride oils having desired fatty acid profiles and regiospecific or stereospecific profiles. Genes manipulated include those encoding stearoyl-ACP desaturase, delta 12 fatty acid desaturase, acyl-ACP thioesterase, ketoacyl-ACP synthase, and lysophosphatidic acid acyltransferase. The oil produced can have enhanced oxidative or thermal stability, or can be useful as a frying oil, shortening, roll-in shortening, tempering fat, cocoa butter replacement, as a lubricant, or as a feedstock for various chemical processes. The fatty acid profile can be enriched in midchain profiles or the oil can be enriched in triglycerides of the saturated-unsaturated-saturated type.

Described herein are methods for generating robust algae strains that can grow under stressful environmental conditions.

A method of producing mineral-rich algae by growing algae with an algae biofilm growing apparatus, wherein the algae is fed a mineral-rich feed stock. Furthermore, the mineral-rich algae is harvested and used as a foodstuff for human and animal consumption.

A method of producing a transformant, which contains using an alga belonging to the genus Nannochloropsis as a host, wherein function of the following protein (A) or (B) of the alga is suppressed, inhibited or deleted: (A) a protein consisting of the amino acid sequence set forth in SEQ ID NO: 50; and (B) a DNA binding protein consisting of an amino acid sequence having 70% or more identity with the amino acid sequence of the protein (A).

The present invention provides a joint method of cultivating microalgae combined with denitrating an industrial waste gas and a system useful for the same. The joint method comprises the steps of: (1) a step of cultivating microalgae; (2) a separation step of separating a microalgae suspension obtained from step (1) into a wet microalgae (microalgae biomass) and a residual cultivation solution; (3) a NOx absorbing/immobilizing step of denitrating an industrial waste gas with the residual cultivation solution obtained from step (2); wherein the nutrient stream absorbed with NOx obtained from step (3) is used to provide nitrogen source to the microalgae cultivation of step (1). During the microalgae cultivation, EM bacteria is added into the microalgae suspension. The microalgae is preferably Chlorella sp., Scenedesmus sp., Monoraphidium sp. or Spirulina sp.

The invention is directed to Haematococcus sp. KAU-01 as well as to a culture medium for Haematococcus sp. KAU-01, and to methods for using this strain to process environmental pollutants such as gases generated by coal-fired plants.

The present application relates to a novel strain of the genus Schizochytrium (Schizochytrium sp.) and a method of producing polyunsaturated fatty acids by using the same. According to one aspect, novel microalgae of the genus Schizochytrium have a high content of fat in biomass, and particularly, a high content of polyunsaturated fatty acids such as docosahexaenoic acid (DHA) and eicosapentaenoic acid (EPA), and therefore, the microalgae, and biomass or bio-oil prepared therefrom, may be useful as a feed source or the like.

The present invention relates to a Dunaliella salina OH214 strain having an improved ability to produce pigments, and in particular lutein. As it is possible to produce carotenoid pigments, specifically xanthophylls, with the Dunaliella salina OH214 strain by consuming less energy, it is possible to efficiently produce pigments at an industrial level. In addition, the Dunaliella salina OH214 strain can be applied as a raw material for foods, health functional foods, and pharmaceuticals, containing pigments. Moreover, the Dunaliella salina OH214 strain is a domestic native microalga in Korea and thus does not cause any GMO issues, it is possible to reduce costs by using seawater as a culture medium in Korea, and the effect of related industrial development can be expected.

An antibiotic with Spirulina platensis and plant extracts is an antibiotic composition including a combination of Spirulina platensis, an essential oil of Magnolia officinalis, and an essential oil of mumie. In an embodiment, the antibiotic composition may be effective in treating Acinetobacter baumannii infections. In a further embodiment, the antibiotic composition may be effective in treating multidrug resistant (MDR) and/or extremely drug resistant (XDR) Acinetobacter baumannii infections. In an embodiment, the antibiotic composition may be administered to a subject in need thereof to treat or prevent an Acinetobacter baumannii infection, such as a MDR or XDR Acinetobacter baumannii infection.