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doi-org-7136		An alternative approach to nucleic acid memory | Nature Communications			.html	text/html	10048	826	61	By combining the spatial control of DNA nanotechnology with our error-correction algorithms, we demonstrate dNAM as an alternative approach to prototyping DNA-based storage for applications that require a limited amount of data to have high information density, redundancy, and copy number. We then determined the number of each design identified by the decoding algorithm when recovering the message (Fig. 3c): a process independent of template matching and blind to the droplet data contained in the DNA origami. We anticipate that reducing the number of errors by improving origami design and optimizing imager strand performance would allow more efficient algorithms for data recovery, which would, in turn, decrease the number of bits dedicated to error correction and thus increase information density. Rather than averaging thousands of DNA-PAINT images together to resolve the digital data17, individual origami were read here using custom encoding, decoding, and error-correction algorithms.	./cache/doi-org-7136.html	./txt/doi-org-7136.txt