Understanding the computational capacity of molecular systems is important both for basic insights into information processing in biological systems and the design of synthetic nano/micro-scale technologies. Here, we design systems that, instead of mimicking conventional engineered computational systems, exploit intrinsic physical dynamics to carry out pattern recognition autonomously. Using chemical reaction networks and self-assembly of many heterogeneous species, we demonstrate pattern recognition capabilities on pulsatile temporal inputs and high-dimensional concentration patterns. Throughout, we emphasize the ways in which our physical mechanisms are naturally suited to the particular computational challenges. This work not only provi...
After billions of years of evolution, nature gifts us versatile biological machines with complicated...
A highly desired part of the synthetic biology toolbox is an embedded chemical microcontroller, capa...
Molecular computing is a discipline that aims at harnessing individual molecules at nanoscales for c...
Information and algorithms appear to be central to biological organization and processes, from the s...
Living cells communicate information about physiological conditions by producing signaling molecules...
Thesis (Ph.D.)--University of Washington, 2019Biology offers compelling proof that macroscopic “livi...
Natural biomolecular systems process information in a radically different manner than programmable m...
Readily programmable chemical networks are important tools as the scope of chemistry expands from in...
Biological organisms are beautiful examples of programming. The program and data are stored in biolo...
Molecular computing is a discipline that aims at harnessing individual molecules at nanoscales for c...
Today's computers are built up from a minimal set of standard pattern recognition operations. Logic ...
To comply with the rapidly increasing demand of information storage and processing, new strategies f...
Motifs, circuits, and networks are core conceptual elements in modern systems and synthetic biology....
peer-reviewedThe drive towards organic computing is gaining momentum. Interestingly, the building bl...
CONSPECTUS: The successes of electronic digital logic have transformed every aspect of human life ov...
After billions of years of evolution, nature gifts us versatile biological machines with complicated...
A highly desired part of the synthetic biology toolbox is an embedded chemical microcontroller, capa...
Molecular computing is a discipline that aims at harnessing individual molecules at nanoscales for c...
Information and algorithms appear to be central to biological organization and processes, from the s...
Living cells communicate information about physiological conditions by producing signaling molecules...
Thesis (Ph.D.)--University of Washington, 2019Biology offers compelling proof that macroscopic “livi...
Natural biomolecular systems process information in a radically different manner than programmable m...
Readily programmable chemical networks are important tools as the scope of chemistry expands from in...
Biological organisms are beautiful examples of programming. The program and data are stored in biolo...
Molecular computing is a discipline that aims at harnessing individual molecules at nanoscales for c...
Today's computers are built up from a minimal set of standard pattern recognition operations. Logic ...
To comply with the rapidly increasing demand of information storage and processing, new strategies f...
Motifs, circuits, and networks are core conceptual elements in modern systems and synthetic biology....
peer-reviewedThe drive towards organic computing is gaining momentum. Interestingly, the building bl...
CONSPECTUS: The successes of electronic digital logic have transformed every aspect of human life ov...
After billions of years of evolution, nature gifts us versatile biological machines with complicated...
A highly desired part of the synthetic biology toolbox is an embedded chemical microcontroller, capa...
Molecular computing is a discipline that aims at harnessing individual molecules at nanoscales for c...