DNA-based biocomputing circuits are chemical reaction networks with information-processing capability that take advantage of DNA molecular interactions. The high parallelism and intrinsic ...
C&EN's annual 10 Start-Ups to Watch issue highlights the start-ups using the central science to make the world a better place and make some money, too.
DNA strand displacement (DSD) is an efficient technology for constructing molecular circuits. However, system computing speed and the scale of logical gate circuits remain a huge challenge. In this ...
The exponential accumulation of digital data is expected to outstrip magnetic and optical storage media. DNA’s significantly higher information density combined with the availability of technology for ...
DNA computing has become the focus of computing research due to its excellent parallel processing capability, data storage capacity, and low energy consumption characteristics. DNA computational units ...
Article subjects are automatically applied from the ACS Subject Taxonomy and describe the scientific concepts and themes of the article. Deoxyribozymes with phosphodiesterase activity can accurately ...
Molecular devices with information-processing capabilities hold great promise for developing intelligent nanorobotics. Here we demonstrate a DNA navigator system that can perform single-molecule ...
Biological organisms exhibit sophisticated control over the stochastic states of individual cells, but the understanding of underlying molecular mechanisms remains incomplete. It has been argued that ...
Toehold-mediated strand displacement has proven extremely powerful in programming enzyme-free DNA circuits and DNA nanomachines. To achieve multistep, autonomous, and complex behaviors, toeholds must ...