Whiplash PCR-based methods of biomolecular computation (BMC), while highly-versatile in principle, are well-known to suffer from a simple but serious form of self-poisoning known a...
John A. Rose, Ken Komiya, Satsuki Yaegashi, Masami...
The prospects of programming molecular systems to perform complex autonomous tasks has motivated research into the design of synthetic biochemical circuits. Of particular interest ...
A monomer structure based on a hairpin loop is described that can be linked via short oligonucleotide sequences (linkers) to form polymers. Independence of linked monomers allow fo...
Whiplash PCR (WPCR), due to Hagiya et al. [1], is a novel technique for autonomous molecular computation where a state machine is implemented with a single stranded DNA molecule a...
While algorithmic DNA self-assembly is, in theory, capable of forming complex patterns, its experimental demonstration has been limited by significant assembly errors. In this pa...