Disclosed herein are an expression vector capable of expressing myrcene, an Escherichia coli strain transformed with the vector and having improved capability of producing myrcene and a method for producing myrcene and a method for recycling glycerol using the same. In an aspect, the transformed Escherichia coli strain of the present disclosure can produce myrcene with high purity on a large scale using glycerol or glucose as a carbon source. Also, the Escherichia coli strain of the present disclosure is economical and environment-friendly because it can produce high value-added myrcene using waste glycerol as a carbon source. In addition, the strongly volatile myrcene can be produced and isolated at the same time.

Expression vector systems are provided for increased production of a recombinant GDF-5 (rhGDF-5) protein. Also provided are transformed host cells that were engineered to produce and express high levels of rhGDF-5 protein. Methods for isolating recombinant GDF-5 protein from an inclusion body of a cell are disclosed herein. The methods as disclosed are cost-effective, time-saving and are of manufacturing quality.

The present invention relates to microorganisms of Escherichia coli having enhanced L-tryptophan productivity and to a method for producing L-tryptophan using the same. More particularly, the present invention relates to an Escherichia coli variant in which repression and attenuation control of the tryptophan operon is released and accumulation of anthranilate is reduced and thereby enhancing L-tryptophan productivity. The present invention also relates to a method for producing L-tryptophan using the Escherichia coli variant.

The present invention relates to microorganisms of Escherichia coli having enhanced L-tryptophan productivity and to a method for producing L-tryptophan using the same. More particularly, the present invention relates to an Escherichia coli variant in which repression and attenuation control of the tryptophan operon is released and accumulation of anthranilate is reduced and thereby enhancing L-tryptophan productivity. The present invention also relates to a method for producing L-tryptophan using the Escherichia coli variant.

Disclosed herein are an expression vector capable of expressing myrcene, an Escherichia coli strain transformed with the vector and having improved capability of producing myrcene and a method for producing myrcene and a method for recycling glycerol using the same. In an aspect, the transformed Escherichia coli strain of the present disclosure can produce myrcene with high purity on a large scale using glycerol or glucose as a carbon source. Also, the Escherichia coli strain of the present disclosure is economical and environment-friendly because it can produce high value-added myrcene using waste glycerol as a carbon source. In addition, the strongly volatile myrcene can be produced and isolated at the same time.

Disclosed herein are an expression vector capable of expressing myrcene, an Escherichia coli strain transformed with the vector and having improved capability of producing myrcene and a method for producing myrcene and a method for recycling glycerol using the same. In an aspect, the transformed Escherichia coli strain of the present disclosure can produce myrcene with high purity on a large scale using glycerol or glucose as a carbon source. Also, the Escherichia coli strain of the present disclosure is economical and environment-friendly because it can produce high value-added myrcene using waste glycerol as a carbon source. In addition, the strongly volatile myrcene can be produced and isolated at the same time.

Expression vector systems are provided for increased production of a recombinant GDF-5 (rhGDF-5) protein. Also provided are transformed host cells that were engineered to produce and express high levels of rhGDF-5 protein. Methods for production and high expression of rhGDF-5 protein are disclosed herein. The methods of enhancing production and protein expression of rhGDF-5 protein as disclosed are cost-effective, time-saving and are of manufacturing quality.

The present invention relates to: a transformed strain expressing and secreting Akkermansia muciniphila TARS (AmTARS); and a vector for producing same. More specifically, the present invention relates to an Escherichia coli Nissle 1917 (EcN) strain expressing AmTARS, a composition comprising same, a novel vector for producing same, and an EcN transformation method using same.

The present invention relates to: a transformed strain expressing and secreting Akkermansia muciniphila TARS (AmTARS); and a vector for producing same. More specifically, the present invention relates to an Escherichia coli Nissle 1917 (EcN) strain expressing AmTARS, a composition comprising same, a novel vector for producing same, and an EcN transformation method using same.