The present disclosure relates to an L-threonine export protein variant, a microorganism including same, and a method for production of L-threonine using same.

A protein complex based on DNA enzymes of an E family of Escherichia coli and an application thereof in artificial protein scaffolds are provided. The protein complex includes one or more of interaction pairs formed by a CL2 protein and an Im2 protein, a CL7 protein and an Im7 protein, a CL8 protein and an Im8 protein, or a CL9 protein and an Im9 protein. By protein engineering of a carboxyl terminus DNase domain of the DNA enzymes CE2, CE7, CE8 and CE9, mutants that lose DNA enzyme activity but still retain the ultra-high affinity with the corresponding Im protein are obtained, and protein interaction pairs CL2/Im2, CL7/Im7, CL8/Im8 and CL9/Im9 are constructed. These protein interaction pairs have properties of heat resistance, high affinity, high specificity, small molecular weight, fast assembly speed, etc. Based on this, an artificial protein scaffold is constructed for the construction of artificial multienzyme complexes.

A protein complex based on DNA enzymes of an E family of Escherichia coli and an application thereof in artificial protein scaffolds are provided. The protein complex includes one or more of interaction pairs formed by a CL2 protein and an Im2 protein, a CL7 protein and an Im7 protein, a CL8 protein and an Im8 protein, or a CL9 protein and an Im9 protein. By protein engineering of a carboxyl terminus DNase domain of the DNA enzymes CE2, CE7, CE8 and CE9, mutants that lose DNA enzyme activity but still retain the ultra-high affinity with the corresponding Im protein are obtained, and protein interaction pairs CL2/Im2, CL7/Im7, CL8/Im8 and CL9/Im9 are constructed. These protein interaction pairs have properties of heat resistance, high affinity, high specificity, small molecular weight, fast assembly speed, etc. Based on this, an artificial protein scaffold is constructed for the construction of artificial multienzyme complexes.

A living engineered glue system for performing autonomous mechanical repairs comprises a biofilm of microbial cells embedded in an extracellular matrix and operably linked in an environmentally-inducible, cell-cell communication genetic circuit to control gene expression.

A living engineered glue system for performing autonomous mechanical repairs comprises a biofilm of microbial cells embedded in an extracellular matrix and operably linked in an environmentally-inducible, cell-cell communication genetic circuit to control gene expression.

Provided is a bacteria for targeting tumors and treating cancer, a drug delivery composition, and methods of using same for treating cancer.

Provided is a bacteria for targeting tumors and treating cancer, a drug delivery composition, and methods of using same for treating cancer.

The present disclosure relates to a variant of cAMP receptor protein of Escherichia coli with alanine at position 35, a microorganism including the same, and a method of producing an L-amino acid using the same.

The present disclosure relates to a variant of cAMP receptor protein of Escherichia coli with alanine at position 35, a microorganism including the same, and a method of producing an L-amino acid using the same.

The present disclosure provides, inter alia, genetically encoded recombinant peptide biosensors comprising analyte-binding framework portions and signaling portions, wherein the signaling portions are present within the framework portions at sites or amino acid positions that undergo a conformational change upon interaction of the framework portion with an analyte.