DNA Computing Breakthrough Enables Molecular Function Switching with Minimal Changes
Researchers have created a revolutionary DNA computing approach that enables function switching with as few as 1-2 nucleotide changes. The technology demonstrates practical applications in cellular environments and complex logic operations, marking a significant advancement in molecular computing.
Revolutionary DNA Computing Method Redefines Molecular Programming
Scientists have developed a groundbreaking approach to DNA computing that enables function switching with minimal molecular architecture changes, according to research published in Nature Communications. The new method, termed base Stacking-Mediated Allostery (SMALL), reportedly allows researchers to reprogram DNA computing functions by manipulating stacking interactions between bases with as few as 1-2 nucleotide modifications.