A method for producing a microbial oil includes genetically modifying a labyrinthulid which belongs to the genus Parietichytrium or the genus Schizochytrium by disrupting and/or silencing a ?4 desaturase gene, a C20 elongase gene, and/or a C18 elongase gene, or by being transformed with an ?3 desaturase gene; culturing the labyrinthulid; and collecting the microbial oil from the labyrinthulid. The labyrinthulid has an activity of synthesizing DHA via a PUFA-PKS pathway in an amount of not more than 1/100 of a total amount of DHA synthesized in the labyrinthulid or no activity of producing PUFAs via the PUFA-PKS pathway, and the labyrinthulid has an activity of producing PUFAs via an endogenous elongase-desaturase pathway.

The present invention addresses the problem of providing a new microorganism that is useful for efficiently decomposing oils and fats, and a use for said microorganism. According to screening results, a new Yarrowia lipolytica having a high capacity to assimilate free fatty acids was successfully obtained. Efficient decomposition of oils and fats is achieved by causing the Yarrowia lipolytica to act under conditions in which fatty acids that are hydrolysis products of oils or fats are present, or under conditions in which oils or fats are decomposed into fatty acids and glycerol.

The invention relates to malodor controlling bacteria and related methods and compositions for the control and prevention of malodor.

Disclosed herein are microbial consortia and compositions including microbes, for example, for use in agricultural or biodegradation applications. In some embodiments, soil, plants, and/or plant parts (such as seeds, seedlings, shoots, roots, leaves, fruit, stems, or branches) are contacted with a disclosed microbial consortia or composition including microbes. The microbial consortia or microbe-containing compositions may be applied to soil, plant, and/or plant parts alone or in combination with additional components (such as chitin, chitosan, glucosamine, amino acids, and/or liquid fertilizer). In additional embodiments, the disclosed microbial consortia or compositions including microbes are used in methods of degrading biological materials, such as chitin-containing biological materials.

Disclosed herein are microbial consortia and compositions including microbes for use in agricultural or biodegradation applications. In some embodiments, soil, plants, and/or plant parts (such as seeds, seedlings, shoots, roots, leaves, fruit, stems, or branches) are contacted with a disclosed microbial consortia or composition including microbes. The microbial consortia or microbe-containing compositions may be applied to soil, plant, and/or plant parts alone or in combination with additional components (such as chitin, chitosan, glucosamine, amino acids, and/or liquid fertilizer). In additional embodiments, the disclosed microbial consortia or compositions including microbes are used in methods of degrading biological materials, such as chitin-containing biological materials.

The invention relates to a new bicyclic lipolantipeptide, representing a new class of lantipeptide, and salts thereof, their preparation from a culture of a Microbacterium arborescens, and their use as antimicrobial agent in the prevention and treatment of infections in humans, animals or plants.

The present invention relates to methods for water treatment. in particular using a novel Thauera species that is capable of removing nitrogen via simultaneous nitrification and denitrification. The novel Thauera species may be further capable of phosphate accumulation in the cells. The invention also relates to an isolated Thauera sp. strain SND5 (accession number: CGMCC 21549). The invention further relates to reactors for use in carrying out the methods as described herein and bioprocesses that are carried out using said reactor.

A species of Burkholderia sp with no known pathogenicity to vertebrates but with pesticidal activity (e.g., plants, insects, fungi, weeds and nematodes) is provided. Also provided are natural products derived from a culture of said species and methods of controlling pests using said natural products.

A bacterially induced crystal particle includes a composite shell. The composite shell layer may be hollow and has a thickness. The composite shell layer includes a biomaterial and a metallic material. The biomaterial is an organic substance including a cell wall or a cell membrane of a bacterium. The metallic material is oxides, sulfides, selenides, acid salt compounds of a transition metal, or any combination thereof. In other words, a bacterium itself is the template in the formation of a hollow sphere of transition-metal oxide mineral, transition-metal sulfide mineral, transition-metal selenide mineral, or transition-metal acid salt mineral. Accordingly, a material having low thermal conductivity can be provided.

The invention relates to malodor controlling bacteria and related methods and compositions for the control and prevention of malodor.