Abstract: The present disclosure relates to a novel yeast mutant strain for producing a ceramide precursor, and a method for preparing the same, and more specifically, to a Pichia ciferrii mutant strain genetically engineered to overexpress sphingolipid metabolites prepared through the reconstruction of metabolic pathways for ceramide production in Pichia ciferrii, or a method for preparing the mutant strain.

Abstract: The present invention relates to a method for producing a medium chain diamine and, more specifically, to a method for producing a medium chain diamine from an alcohol or alkane derived from a fatty acid, by culturing a recombinant microorganism from which a fatty aldehyde dehydrogenase gene in a ?-oxidative metabolic pathway and a ?-oxidative metabolic pathway related gene have been deleted, and also into which a ?-transaminase gene has been introduced. The recombinant microorganism disclosed in the present invention can prevent the additional oxidation and ?-oxidation metabolism of fatty aldehyde and can produce a medium chain diamine with a high yield by introducing an amine group to the terminus thereof.

Abstract: The present invention relates to a method for producing medium chain diol and, more particularly to recombinant microorganisms in which fatty alcohol dehydrogenase and/or fatty alcohol oxidase genes on a ?-oxidative metabolism pathway are deleted, the fatty aldehyde dehydrogenase genes are optionally deleted, and ?-oxidative metabolism pathway-related genes are deleted, and to a method for producing medium chain diol from fatty acid-derived alcohol or alkane by culturing the recombinant microorganisms. The recombinant microorganisms of the present invention can produce a high yield of medium chain diol by preventing further oxidation and ?-oxidative metabolism of fatty alcohols.

Abstract: The present invention relates to a method for producing dioic acids from a substrate containing hydrocarbons or fatty acids using a Candida infanticola strain, and to a Candida infanticola microorganism used therefor. The present invention reduces the cost increase resulting from the fluctuation in the international oil price and the burden of environmental pollution, which are caused by the use of fossil fuels, and thus can be utilized in various industrial fields using DDDA as a raw material.

Abstract: The present invention relates to a method for producing dioic acids from a substrate containing hydrocarbons or fatty acids using a Candida infanticola strain, and to a Candida infanticola microorganism used therefor. The present invention reduces the cost increase resulting from the fluctuation in the international oil price and the burden of environmental pollution, which are caused by the use of fossil fuels, and thus can be utilized in various industrial fields using DDDA as a raw material.

Abstract: The present invention relates to a method for producing dioic acids from a substrate containing hydrocarbons or fatty acids using a Candida infanticola strain, and to a Candida infanticola microorganism used therefor. The present invention reduces the cost increase resulting from the fluctuation in the international oil price and the burden of environmental pollution, which are caused by the use of fossil fuels, and thus can be utilized in various industrial fields using DDDA as a raw material.

Abstract: The present invention relates to a method for producing dioic acids from a substrate containing hydrocarbons or fatty acids using a Candida infanticola strain, and to a Candida infanticola microorganism used therefor. The present invention reduces the cost increase resulting from the fluctuation in the international oil price and the burden of environmental pollution, which are caused by the use of fossil fuels, and thus can be utilized in various industrial fields using DDDA as a raw material.

Abstract: The present invention relates to a method for producing medium chain diol and, more particularly to recombinant microorganisms in which fatty alcohol dehydrogenase and/or fatty alcohol oxidase genes on a ?-oxidative metabolism pathway are deleted, the fatty aldehyde dehydrogenase genes are optionally deleted, and ?-oxidative metabolism pathway-related genes are deleted, and to a method for producing medium chain diol from fatty acid-derived alcohol or alkane by culturing the recombinant microorganisms. The recombinant microorganisms of the present invention can produce a high yield of medium chain diol by preventing further oxidation and ?-oxidative metabolism of fatty alcohols.

Abstract: The present invention relates to a method for producing a medium chain aminocarboxylic acid and, more particularly, to a recombinant microorganism in which a fatty aldehyde dehydrogenase gene in ?-oxidative metabolic pathway and a ?-oxidative metabolic pathway-related gene are deleted and a ?-transaminase gene is introduced, and a method for producing a medium chain aminocarboxylic acid by culturing the recombinant microorganism. The recombinant microorganism of the present invention can prevent additional oxidation of fatty aldehyde and ?-oxidative metabolism and also produce a medium chain aminocarboxylic acid, such as 12-aminodecane, as a raw material of nylon 12 from a substrate such as fatty acid with a high yield by introducing an amine group into a terminal thereof.

Abstract: The present invention relates to a method for producing a medium chain diamine and, more specifically, to a method for producing a medium chain diamine from an alcohol or alkane derived from a fatty acid, by culturing a recombinant microorganism from which a fatty aldehyde dehydrogenase gene in a ?-oxidative metabolic pathway and a ?-oxidative metabolic pathway related gene have been deleted, and also into which a ?-transaminase gene has been introduced. The recombinant microorganism disclosed in the present invention can prevent the additional oxidation and ?-oxidation metabolism of fatty aldehyde and can produce a medium chain diamine with a high yield by introducing an amine group to the terminus thereof.

Abstract: The present invention relates to a method for preparing a recombinant microorganism simultaneously comprising genes encoding enzymes used in the biosynthesis pathway of 6-aminocaproic acid, which is a precursor of caprolactam, biosynthesizing 6-aminocaproic acid from the microorganism, and producing the same so as to synthesize caprolactam.

Abstract: The present invention relates to a method for preparing a recombinant microorganism simultaneously comprising genes encoding enzymes used in the biosynthesis pathway of 6-aminocaproic acid, which is a precursor of caprolactam, biosynthesizing 6-aminocaproic acid from the microorganism, and producing the same so as to synthesize caprolactam.

Abstract: Provided is a method for selecting antibody-producing cell lines using a split fluorescent protein, and a kit for selecting antibody-producing cell lines. By using the split fluorescent protein to select the antibody-producing cell lines, the antibody-producing cell lines can be easily detected by observing whether a single fluorescent color derived from reassembly of the split fluorescent proteins is expressed, which leads in a drastic reduction in selection time and cost required to select highly productive antibody-producing cell line.

Abstract: Disclosed herein are a Pichia pastoris-derived auto-inducible NPS promoter; a recombinant expression vector carrying the promoter and a nucleotide sequence, the sequence being operably linked to the promoter and coding for a recombinant protein; a host cell transformed or transfected with the recombinant expression vector; and a method for producing a recombinant protein, comprising culturing the host cell to express the recombinant protein and isolating the protein. The NPS promoter allows a recombinant protein of interest to be produced on a large scale without the need of any inducer.

Abstract: Disclosed herein are a Pichia pastoris-derived auto-inducible NPS promoter; a recombinant expression vector carrying the promoter and a nucleotide sequence, the sequence being operably linked to the promoter and coding for a recombinant protein; a host cell transformed or transfected with the recombinant expression vector; and a method for producing a recombinant protein, comprising culturing the host cell to express the recombinant protein and isolating the protein. The NPS promoter allows a recombinant protein of interest to be produced on a large scale without the need of any inducer.

Abstract: Disclosed are a Pichia pastoris-derived translation elongation factor (TEF) promoter, a recombinant expression vector carrying the promoter and a heterologous protein encoding base sequence operably linked to the promoter, and a host cell transfected or transformed with the recombinant expression vector. Also, a method is provided for producing a heterologous protein. The method comprises culturing the host cell to express the Pichia pastoris-derived TEF promoter and isolating the promoter from the culture. The TEF promoter can be utilized for the mass production of heterologous proteins without the need for inducers.

Abstract: Disclosed are a Pichia pastoris-derived translation elongation factor (TEF) promoter, a recombinant expression vector carrying the promoter and a heterologous protein encoding base sequence operably linked to the promoter, and a host cell transfected or transformed with the recombinant expression vector. Also, a method is provided for producing a heterologous protein. The method comprises culturing the host cell to express the Pichia pastoris-derived TEF promoter and isolating the promoter from the culture. The TEF promoter can be utilized for the mass production of heterologous proteins without the need for inducers.