Abstract: The present invention relates to a reporter construct and method for identifying or enriching the cells, wherein a specific endogenous nucleotide sequence is cleaved by a specific nuclease or modified by such cleavage; a host cell comprising the reporter construct; and a system for monitoring a nuclease activity. The reporter system of the present invention is simple and non-invasive, and allows for an efficient enrichment of the gene-modified cells. Therefore, the present invention will promote the application of a nuclease in the field of gene therapy and genetic engineering as well as basic research.

Abstract: The present invention relates to a fusion protein having a TAL (transcription activator-like) effector (TALE) domain and a nucleotide cleavage domain, and more particularly, to the TAL effector nuclease comprising a TAL (transcription activator-like) effector (TALE) domain and a nucleotide cleavage domain, wherein the TALE domain includes one or more TALE-repeat modules, each of the TALE-repeat modules recognizing a single specific nucleic acid, and a use thereof.

Abstract: The present invention relates to a method for genomic DNA rearrangements, and more particularly, to a method for deletion, duplication, inversion, replacement, or rearrangement of genomic DNA using pairs of site-specific nucleases targeting two or more sites in the genome, a cell in which genomic DNA is deleted, duplicated, inverted, replaced, or rearranged by the same method, and a method for expressing the site-specific nucleases in cells. Further, the present invention relates to a method for inserting synthetic DNA molecules into the genome using site-specific nucleases targeting a pre-determined site in the genome, a cell in which DNA insertion occurs by the same method, and a method for expressing the site-specific nucleases in cells.

Abstract: The present invention relates to methods and compositions useful for targeted cleavage and alteration of a genomic sequence, targeted cleavage followed by homologous recombination between an exogenous polynucleotide and a genomic sequence, or targeted cleavage followed by non-homologous end joining.