The present disclosure relates to multiplex production and phenotyping of genetically engineered cells using RNA-guided nucleases and genomic barcoding. In particular, high-throughput multiplex genome editing is achieved utilizing a system that facilitates precise genome editing at desired target chromosomal loci by homology directed repair. Integration of guide RNA and donor DNA sequences as a genomic barcode at a separate chromosomal locus allows identification, isolation, and massively-parallel validation of individual variants from a pool of transformants. Strains can be arrayed according to their precise genetic modifications, as specified by donor DNA incorporation in heterologous or native genes. The present disclosure further relates to a method of editing codons outside of canonical guide RNA recognition regions, which enables complete saturation mutagenesis of protein-coding genes, a marker-based internal cloning method, which removes background due to oligonucleotide synthesis errors and incomplete vector backbone cleavage, and a method of enhancing homology directed repair by active donor recruitment.
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