Strains of yeast genetically engineered to produce increased amounts of non-hydroxylated collagen or hydroxylated collagen are described. An all-in-one vector including the DNA necessary to produce collagen, promotors, and hydroxylating enzymes is also described. Methods for producing non-hydroxylated or hydroxylated collagen are also provided.

A method for enzymatically preparing a n-3 polyunsaturated fatty acid diacylglycerol using oil rich in n-3 polyunsaturated fatty acid as raw material to prepare diacylglycerol oil with selective enzymatic hydrolysis. Before the enzymatic reaction, the raw materials are homogenized to improve the catalytic efficiency of lipase in the hydrolysis and achieve the purpose of reducing the reaction time and the addition amount of lipase. As a result, the cost of industrial diacylglycerol preparation is reduced, ultimately reducing the cost of industrial diacylglycerol preparation. Therefore, the present invention provides an effective, mild and low-cost enzymatic method for preparing diacylglycerol rich in n-3 polyunsaturated fatty acids, which has a promising potential for industrial application.

This application describes consortium between fungi and algae, where the algae are incorporated within hyphae of the fungi. The fungi, the algae, or both can be modified to express heterologous lipid synthesizing enzymes. Incorporation of algae into fungi facilitates harvesting of the algae and products produced by the consortia. Such consortia are robust. For example, the fungi and algae can symbiotically provide nutrients to each other and are tolerant of environmental stresses.

An object of the present invention is to obtain a fermentative yeast having a highly efficient ethanol production without introducing a foreign gene. A further object is to obtain a fermentative yeast that is resistant to proliferation inhibitors such as organic acids, which prevent the growth of the fermentative yeast. Yeast having improved ethanol production ability was generated by introducing transaldolase and alcohol dehydrogenase gene by self-cloning to Meyerozyma guilliermondii that can produce ethanol effectively from pentose and hexose obtained by breeding. This fermentative yeast is deposited to NITE Patent Microorganisms Depositary under the accession number NITE ABP-01976.

It is possible to produce an optically active fluoroalkyl chloromethyl alcohol with a high optical purity and a good yield by treating a fluoroalkyl chloromethyl ketone with a microorganism having an activity for asymmetrically reducing the ketone or an enzyme having the activity. Then, it is possible to obtain a fluoroalkyl ethylene oxide by treating the alcohol with a base. Industrial implementation of the production method of the present invention is easy.

Pichia pastoris alcohol dehydrogenase 2 (ADH2) promoter variants include at least one of the specified modifications on wild-type Pichia pastoris ADH2 promoter (SEQ ID NO: 1). The modification includes one of the following mutations: integration of a Cat8 transcription factor binding site (TFBS), particularly integration of SEQ ID NO: 3 or other gene sequences that show at least 80% similarity with this sequence, at any positions within nucleotides a) 647 to 660; b) 739 to 752; c) 1 to 948; and d) mutations specified with SEQ ID NO: 2 within nucleotides 15 to 848 separately and combinations thereof.

Disclosed herein is Candida parapsilosis CGMCC 9630, the carbonyl reductase expressed by said strain and the encoding gene and amino acid sequence thereof, the recombinant expression vector and recombinant expression transformant containing said gene sequence, and use of whole cells of Candida parapsilosis, carbonyl reductase or corresponding recombinant transformant thereof as catalyst in catalyzing asymmetric reduction of prochiral carbonyl compounds, particularly reduction of 6-carbonyl-8-halogenocaprylate to prepare the synthetic precursor of (R)--lipoic acid, (R)-6-hydroxy-8-halogenocaprylate. In comparison to other methods of asymmetric reduction for preparing (R)-6-hydroxy-8-halogenocaprylate, the disclosure has advantages of high substrate concentration, mild reaction conditions, environmental friendship, high yield, and high optical purity of the product, and thus has good prospect in industrial production of (R)---lipoic acid.

The invention provides a fungal cell, such as a yeast cell, capable of growing in co-cultivation with Propionibacterium. Also provided are methods of producing such cells and fermentation processes using the fungal cell of the invention and Propionibacterium in co-cultivation. Such co-cultivation significantly reduces the chemical oxygen demand load of the waste fermentation broth.

The present disclosure relates to a method of separating and purifying sophorolipids having improved physical properties such as unusual odor, color, and viscosity from oxidized and lactonic sophorolipids precipitate produced by culturing the genus Candida yeast fungus.

The subject invention provides safe, environmentally-friendly compositions and efficient methods for flocculation. More specifically, the subject invention provides compositions derived from microorganisms for flocculation, which can be used for increasing the rate of flocculation and/or the amount of agglomerated particles.