| abstract |
A self-reconfiguring genome uses a cassette having operons or DNA sequences that code for guide RNA, reverse transcriptase, donor RNA, and a CRISPR cleavage enzyme. A self-reconfiguring genome may be based on lambda recombineering of in situ generated oligonucleotides. A method for programmable self-modification of a cellular genome includes transcribing guide RNA from a self-reconfiguring cassette, associating the transcribed guideRNA with the CRISPR enzyme, intercalcating a region of complimentary sequence within an integration site of the genome, cutting upstream of a PAM site within the integration site; transcribing the donorRNA, translating donorRNA to double-stranded DNA, and recombining the double-stranded DNA via homologous recombination at the cut site of the integration site. A set of cascadable and multiplexable genetic logic gates with a universal RNA input/output based on single-strand annealing or non-homologous end joining, comprises transcription promoters or terminators, homologous regions, DNA sequences, RNA, and enzymes from the CRISPR system. |