摘要:
Disclosed herein are methods and compositions for targeted integration of sequences of interest such as lineage-specific or cell fate reporter constructs or protein encoding sequences into stem cells.
摘要:
Disclosed herein are donor molecules comprising single-stranded complementary regions flanking one or more sequences of interest. The donor molecules and/or compositions comprising these molecules can be used in methods for targeted integration of an exogenous sequence into a specified region of interest in the genome of a cell.
摘要:
Methods and compositions for modifying stem cells using one or more ZFPs are disclosed. Such methods and compositions are useful for facilitating processes such as, for example, dedifferentiating cells, differentiating stem cells into the desired phenotype, propagating stem cells and/or facilitating cloning.
摘要:
Disclosed herein are methods and compositions for targeted integration of a exogenous sequence into a predetermined target site in a genome for use, for example, in protein expression and gene inactivation.
摘要:
Disclosed herein are methods and compositions for targeted cleavage of a genomic sequence, targeted alteration of a genomic sequence, and targeted recombination between a genomic region and an exogenous polynucleotide homologous to M the genomic region. The compositions include fusion proteins comprising a cleavage domain (or cleavage half-domain) and an engineered zinc finger domain and polynucleotides encoding same. Methods for targeted cleavage include introduction of such fusion proteins, or polynucleotides encoding same, into a cell. Methods for targeted recombination additionally include introduction of an exogenous polynucleotide homologous to a genomic region into cells comprising the disclosed fusion proteins.
摘要:
Methods for constructing arrays of regulatory sequences, and the arrays so obtained, are provided. Regulatory sequences for use on the arrays are isolated based on their accessibility in cellular chromatin. A number of methods for using the arrays are disclosed, including regulatory DNA profiling, epigenome profiling, toxicological profiling and identification of in vivo binding sites of DNA binding proteins in complex genomes.