Abstract: The present specification discloses a transformed Synechococcus elongatus strain which may directly produce squalene from carbon dioxide, and a method for producing squalene and a method for removing carbon dioxide, using the same. In an aspect, the strain may produce squalene using carbon dioxide as a carbon source. The Synechococcus elongatus strain is economically efficient because a high-value added squalene is produced using light and carbon dioxide present in the atmosphere as a carbon source, and the method for producing squalene is eco-friendly because the strain may be utilized to remove or reduce carbon dioxide in the atmosphere by using microorganisms. The strain of the present disclosure may produce only squalene, which is a desired target material with high purity, and has an advantage in that squalene may be continuously mass-produced.

Abstract: The present disclosure discloses a transformed Synechococcus elongatus strain capable of producing biodiesel directly from carbon dioxide and a method for producing biodiesel and a method for removing carbon dioxide using the same. In an aspect, the transformed Synechococcus elongatus strain of the present disclosure can produce biodiesel in large scale using carbon dioxide as a carbon source. The Synechococcus elongatus strain is environment-friendly because it can be used to remove or reduce carbon dioxide in the atmosphere. The strain of the present disclosure is advantageous in that it can produce biodiesel in large scale because it grows faster and exhibits excellent carbon dioxide fixation capability as compared to other photosynthetic microorganisms.

Abstract: The present specification discloses a transformed Synechococcus elongatus strain which may directly produce squalene from carbon dioxide, and a method for producing squalene and a method for removing carbon dioxide, using the same. In an aspect, the strain may produce squalene using carbon dioxide as a carbon source. The Synechococcus elongatus strain is economically efficient because a high-value added squalene is produced using light and carbon dioxide present in the atmosphere as a carbon source, and the method for producing squalene is eco-friendly because the strain may be utilized to remove or reduce carbon dioxide in the atmosphere by using microorganisms. The strain of the present disclosure may produce only squalene, which is a desired target material with high purity, and has an advantage in that squalene may be continuously mass-produced.

Abstract: The present disclosure discloses a vector that can be used for both cyanobacteria and E. coli, which contains, sequentially, a pUC replication origin as a replication origin; a spectinomycin-resistant gene as a selection marker; and a promoter selected from a group consisting of a trc promoter, a tetA promoter or a modified tetA promoter, a BAD promoter and a cbbL promoter. An industrially useful substance may be produced effectively using a host cell transformed with the vector. Also, the vector may be used to insert a variety of target genes through simple combination and, as a result, various vectors can be prepared effectively.

Abstract: The present disclosure discloses a transformed Synechococcus elongatus strain capable of producing biodiesel directly from carbon dioxide and a method for producing biodiesel and a method for removing carbon dioxide using the same. In an aspect, the transformed Synechococcus elongatus strain of the present disclosure can produce biodiesel in large scale using carbon dioxide as a carbon source. The Synechococcus elongatus strain is environment-friendly because it can be used to remove or reduce carbon dioxide in the atmosphere. The strain of the present disclosure is advantageous in that it can produce biodiesel in large scale because it grows faster and exhibits excellent carbon dioxide fixation capability as compared to other photosynthetic microorganisms.

Abstract: There are provided an ionic liquid having ether group(s) in which a copper(I) compound is included, a method for preparing the same, and a method for removing traces amounts of acetylene-based hydrocarbon compounds included in olefin by absorption or extraction using the same. When the disclosed solution is used, oxidation of Cu(I) to Cu(II) is prevented since CuX is stabilized by the ionic liquid. Thus, selective removal efficiency of acetylenic compounds is improved greatly while the removal performance is retained for a long period of time. Further, since the solution according to the present disclosure is applicable as an extractant as well as an absorbent, the associated operation is simple and apparatus cost can be decreased.

Abstract: Disclosed is a shuttle vector that can be used for Corynebacterium and E. coli, containing: a repressor selected from a group consisting of a lacI repressor and a tetR repressor; a promoter selected from a group consisting of a trc promoter, a tetA promoter and a LacUV5 promoter; a replication origin pBL1 derived from Corynebacterium glutamicum; and a replication origin ColE1 of E. coli. A host cell transformed with the shuttle vector can effectively produce industrially useful substances. Also, the shuttle vector may be used to easily insert various combinations of target genes and, as a result, a variety of vectors can be prepared effectively.

Abstract: The present disclosure discloses a vector that can be used for both cyanobacteria and E. coli, which contains, sequentially, a pUC replication origin as a replication origin; a spectinomycin-resistant gene as a selection marker; and a promoter selected from a group consisting of a trc promoter, a tetA promoter or a modified tetA promoter, a BAD promoter and a cbbL promoter. An industrially useful substance may be produced effectively using a host cell transformed with the vector. Also, the vector may be used to insert a variety of target genes through simple combination and, as a result, various vectors can be prepared effectively.

Abstract: A method for isolating a highly furfural-resistant strain is disclosed. The method includes (A) mixing soil with an isotonic solution and collecting the soil supernatant from the mixture, (B) diluting the soil supernatant and spreading the dilution on a medium supplemented with carboxymethyl cellulose as a nutrient source, and (C) growing a desired strain by culture in the medium spread with the diluted soil supernatant and isolating the strain. Also disclosed is a strain isolated by the method. The strain is Enterobacter cloacae strain GGT036 [Accession No. KCTC 12672BP].

Abstract: Disclosed is a shuttle vector that can be used for Corynebacterium and E. coli, containing: a repressor selected from a group consisting of a lacI repressor and a tetR repressor; a promoter selected from a group consisting of a trc promoter, a tetA promoter and a LacUV5 promoter; a replication origin pBL1 derived from Corynebacterium glutamicum; and a replication origin ColE1 of E. coli. A host cell transformed with the shuttle vector can effectively produce industrially useful substances. Also, the shuttle vector may be used to easily insert various combinations of target genes and, as a result, a variety of vectors can be prepared effectively.

Abstract: The present disclosure relates to a strain capable of producing succinate using starch accumulated in microalgae which grow using carbon dioxide as a direct carbon source without converting it to glucose and a method for producing succinate using the same. The present disclosure provides a strain producing succinate from carbon dioxide, selected from a group consisting of Corynebacterium glutamicum BL-1-pBlAmyS (KCTC 12585BP) and Corynebacterium glutamicum BL-1-pSbAmyA (KCTC 12587BP). The present disclosure also provides a method for producing succinate from carbon dioxide, including fermenting starch by inoculating the strain producing succinate from carbon dioxide in a starch-containing medium.

Abstract: The furfural-resistant strain containing the furfural-resistant gene according to the present disclosure may be effectively grown in a furfural-containing medium. Accordingly, the problem that microorganism fermentation was difficult because toxic by-products such as furfural are contained in a hydrolysate derived from inedible lignocellulosic biomass may be solved. Further, according to the method for producing a strain of the present disclosure, the resistant gene may be selected from relatively small number of target genes. Thus, time, cost and the like for developing the resistant strain may be saved. Further, this method for identifying genes may be broadly applied to methods for identifying various unknown functional genes in addition to the furfural-resistant gene.

Abstract: There are provided an ionic liquid having ether group(s) in which a copper(I) compound is included, a method for preparing the same, and a method for removing traces amounts of acetylene-based hydrocarbon compounds included in olefin by absorption or extraction using the same. When the disclosed solution is used, oxidation of Cu(I) to Cu(II) is prevented since CuX is stabilized by the ionic liquid. Thus, selective removal efficiency of acetylenic compounds is improved greatly while the removal performance is retained for a long period of time. Further, since the solution according to the present disclosure is applicable as an extractant as well as an absorbent, the associated operation is simple and apparatus cost can be decreased.

Abstract: There are provided an ionic liquid having ether group(s) in which a copper(I) compound is included, a method for preparing the same, and a method for removing traces amounts of acetylene-based hydrocarbon compounds included in olefin by absorption or extraction using the same. When the disclosed solution is used, oxidation of Cu(I) to Cu(II) is prevented since CuX is stabilized by the ionic liquid. Thus, selective removal efficiency of acetylenic compounds is improved greatly while the removal performance is retained for a long period of time. Further, since the solution according to the present disclosure is applicable as an extractant as well as an absorbent, the associated operation is simple and apparatus cost can be decreased.

Abstract: There are provided an ionic liquid having ether group(s) in which a copper(I) compound is included, a method for preparing the same, and a method for removing traces amounts of acetylene-based hydrocarbon compounds included in olefin by absorption or extraction using the same. When the disclosed solution is used, oxidation of Cu(I) to Cu(II) is prevented since CuX is stabilized by the ionic liquid. Thus, selective removal efficiency of acetylenic compounds is improved greatly while the removal performance is retained for a long period of time. Further, since the solution according to the present disclosure is applicable as an extractant as well as an absorbent, the associated operation is simple and apparatus cost can be decreased.

Abstract: The present invention relates to a method of purifying olefin, the method comprising removing a small amount of acetylenic compounds contained in olefin by using pyrrolidinium-based or piperidinium-based ionic liquid mixtures comprising copper (I) halide. According to the method of the present invention, copper (I) halide is stabilized by pyrrolidinium-based or piperidinium-based ionic liquids, suppressing the oxidation of Cu(I) into Cu(II), whereby the capacity of removing acetylenic compounds can be maintained for a long time and the selective removal rate of acetylenic compounds to olefin can be significantly improved. In addition, since the ionic liquid mixtures comprising copper (I) halide used in the method of the present invention can be applied to both absorption and extraction processes, it can effectively remove acetylenic compounds from olefin in a more simple and economical way compared to the existing adsorption and membrane separation processes.

Abstract: The present invention relates to a method of purifying olefin, the method comprising removing a small amount of acetylenic compounds contained in olefin by using pyrrolidinium-based or piperidinium-based ionic liquid mixtures comprising copper (I) halide. According to the method of the present invention, copper (I) halide is stabilized by pyrrolidinium-based or piperidinium-based ionic liquids, suppressing the oxidation of Cu(I) into Cu(II), whereby the capacity of removing acetylenic compounds can be maintained for a long time and the selective removal rate of acetylenic compounds to olefin can be significantly improved. In addition, since the ionic liquid mixtures comprising copper (I) halide used in the method of the present invention can be applied to both absorption and extraction processes, it can effectively remove acetylenic compounds from olefin in a more simple and economical way compared to the existing adsorption and membrane separation processes.

Abstract: The present invention relates to a method for separation and recycling of pure sulfur dioxide from a gaseous mixture in the IS cycle. More specifically, the present invention relates to a method for separation and recycling of pure sulfur dioxide from a gaseous mixture in the IS cycle using an ionic liquid under a specific condition. When compared with the conventional amine-based absorbent, the use of the ionic liquid enables continuous absorption and stripping of SO2 even at high temperature, and enables a reversible absorption of SO2 without loss, decomposition or degradation of a solvent due to good chemical stability, thereby enabling separation and recycling of pure SO2 from a gaseous mixture in the IS cycle.

Abstract: The present invention relates to a method for separation and recycling of pure sulfur dioxide from a gaseous mixture in the IS cycle. More specifically, the present invention relates to a method for separation and recycling of pure sulfur dioxide from a gaseous mixture in the IS cycle using an ionic liquid under a specific condition. When compared with the conventional amine-based absorbent, the use of the ionic liquid enables continuous absorption and stripping of SO2 even at high temperature, and enables a reversible absorption of SO2 without loss, decomposition or degradation of a solvent due to good chemical stability, thereby enabling separation and recycling of pure SO2 from a gaseous mixture in the IS cycle.